At least one of a left side seal portion or a right side seal portion includes recessed portions recessed toward the inside of packaging bag so that an outer edge of the packaging bag is constricted in a width direction in a state in which the packaging bag-10 is folded so that a top gusset sheet overlaps each of a folded portion where a part of the front surface sheet closer to a top gusset sheet is folded and a back surface sheet while the front surface sheet is located on the back surface sheet in a state of including the folded portion.
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
20 - Furniture and decorative products
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Shrink labellers; stretch labellers; labellers; cartoning
machines; packaging or wrapping machines; loading-unloading
machines; parts and accessories for loading-unloading
machines; plastic processing machines; adhesive tape
dispensing machines. Printed matter; paper labels; bags of paper or plastics for
packaging; plastic film for wrapping; seals [stationery];
food wrapping plastic film for household use. Metalized plastic sheets or films for use in manufacture;
adhesive-coated plastic sheets or films for use in
manufacture; printed plastic sheets or films for use in
manufacture; plastic film or sheets for use in laminating
papers; semi-processed plastic substances; heat-shrinkable
plastic sheets or films; extensible plastic sheets or films;
plastic sheets or films coated with heat-sensitive adhesive. Cap seals for wrapping made from plastic films; plastic
packaging containers in the form of pouches; plastic
packaging containers in the form of cups; packaging
containers made from plastic sheets; plastic stoppers for
industrial packaging containers; container closures of
plastic; industrial packaging containers of wood, bamboo or
plastics; labels of plastic. Filling and package processing of materials; processing of
affixing resin labels to packaging containers; processing of
affixing paper labels to goods; processing of affixing resin
labels to goods; processing of affixing packaging materials
of paper to packaging containers; processing of affixing
packaging materials of resin to packaging containers;
processing of affixing packaging materials of resin to
goods; printing of decorative patterns on plastic films and
wrapping paper; printing; processing of plastics; paper
treating; laminating; offset printing; silkscreen printing;
rental of printing machines and apparatus. Design services, other than for advertising purposes;
industrial design; packaging design; provision of
information relating to design services, other than for
advertising purposes; designing of machines, apparatus,
instruments [including their parts] or systems composed of
such machines, apparatus and instruments; computer software
design, computer programming, or maintenance of computer
software; rental of computers; providing computer programs
on data networks; testing or research on machines, apparatus
and instruments.
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
20 - Furniture and decorative products
Goods & Services
(1) Shrink labellers; stretch labellers; labellers; cartoning machines; packaging or wrapping machines; loading-unloading machines; parts and accessories for loading-unloading machines; plastic processing machines; adhesive tape dispensing machines.
(2) Printed matter; paper labels; bags of paper or plastics for packaging; plastic film for wrapping; seals [stationery]; food wrapping plastic film for household use.
(3) Metalized plastic sheets or films for use in manufacture; adhesive-coated plastic sheets or films for use in manufacture; printed plastic sheets or films for use in manufacture; plastic film or sheets for use in laminating papers; semi-processed plastic substances; heat-shrinkable plastic sheets or films; extensible plastic sheets or films; plastic sheets or films coated with heat-sensitive adhesive.
(4) Cap seals for wrapping made from plastic films; plastic packaging containers in the form of pouches; plastic packaging containers in the form of cups; packaging containers made from plastic sheets; plastic stoppers for industrial packaging containers; container closures of plastic; industrial packaging containers of wood, bamboo or plastics; labels of plastic.
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
20 - Furniture and decorative products
40 - Treatment of materials; recycling, air and water treatment,
42 - Scientific, technological and industrial services, research and design
Goods & Services
Shrink labellers; stretch labellers; labellers; cartoning machines; packaging or wrapping machines; loading-unloading machines; parts and accessories for loading-unloading machines; plastic processing machines; adhesive tape dispensing machines. Printed matter; paper labels; bags of paper or plastics for packaging; plastic film for wrapping; seals [stationery]; food wrapping plastic film for household use. Metalized plastic sheets or films for use in manufacture; adhesive-coated plastic sheets or films for use in manufacture; printed plastic sheets or films for use in manufacture; plastic film or sheets for use in laminating papers; semi-processed plastic substances; heat-shrinkable plastic sheets or films; extensible plastic sheets or films; plastic sheets or films coated with heat-sensitive adhesive. Cap seals for wrapping made from plastic films; plastic packaging containers in the form of pouches; plastic packaging containers in the form of cups; packaging containers made from plastic sheets; plastic stoppers for industrial packaging containers; container closures of plastic; industrial packaging containers of wood, bamboo or plastics; labels of plastic. Filling and package processing of materials; processing of affixing resin labels to packaging containers; processing of affixing paper labels to goods; processing of affixing resin labels to goods; processing of affixing packaging materials of paper to packaging containers; processing of affixing packaging materials of resin to packaging containers; processing of affixing packaging materials of resin to goods; printing of decorative patterns on plastic films and wrapping paper; printing; processing of plastics; paper treating; laminating; offset printing; silkscreen printing; rental of printing machines and apparatus. Design services, other than for advertising purposes; industrial design; packaging design; provision of information relating to design services, other than for advertising purposes; designing of machines, apparatus, instruments [including their parts] or systems composed of such machines, apparatus and instruments; computer software design, computer programming, or maintenance of computer software; rental of computers; providing computer programs on data networks; testing or research on machines, apparatus and instruments.
5.
METHOD FOR PRODUCING SHEET WELDED STRUCTURE, METHOD FOR PRODUCING TUBE CONTAINER, AND SHEET WELDED STRUCTURE AND TUBE CONTAINER
122 are welded to each other. The method for producing a sheet welded structure satisfies relational expressions (1) and (2) when b is a distance in the thickness direction DT between the surface closest to the first sheet portion SP1 on a first surface M11a and the surface farthest from the first sheet portion SP1 on a second surface M11b when a first member M1 starts to press on the first sheet portion SP1 and c' is a distance in the thickness direction DT between the second surface M11b and a second pressing surface M21 when the first member M1 and a second member M2 are closest to each other during welding of the first sheet portion SP1 and the second sheet portion SP2.
This pouch container comprising a gusset part to which a spout is fixed by welding has improved durability against falling thereof. A pouch container 1 comprises a barrel, a gusset 20, and a spout 80. The spout 80 has: a cylindrical part 81 inserted into an opening 21 of the gusset 20; and a flange part 82 disposed in a manner so as to face the inner surface of a portion, of the gusset 20, surrounding the opening 21. A facing region FR, which comprises the flange part 82 and the facing portion of the gusset 20, is provided with a weld part formed by welding the flange part and the facing portion. The weld part includes: an annular main weld portion 200 which seals a gap between the flange part and the gusset 20 by surrounding the opening 21; and an auxiliary weld portion 300 which is located on the outer side as compared to the main weld portion in the radial direction of the cylindrical part 81. The thickness of the gusset 20 in the portion where the auxiliary weld portion 300 is formed is greater than the thickness of the gusset 20 in the portion where the main weld portion 200 is formed.
Provided is a pouch container in which elongation is suppressed and which is excellent in mechanical suitability. A pouch container 1 comprises a wall part extending in a longitudinal direction L and having a width of 11 cm or less in a width direction W orthogonal to the longitudinal direction L, the wall part including a uniaxially stretched polyethylene film stretched in the longitudinal direction L.
Provided is a hinge cap that: is formed of polyethylene terephthalate that does not need to be separated when recycling a container; does not require large force for opening and closing; and exhibits no possibility of being broken by repeated opening and closing. The hinge cap has a lid body (130) that is connected, through a hinge mechanism (101), to a top surface (111) of a cap body (110) having an ejection hole (113) on the top surface (111). The cap body (110) and the lid body (130) are formed of polyethylene terephthalate. The hinge mechanism (101) has: substantially cylindrical bearing members (112) that are provided to the cap body (110); and shaft support members (131) and elastic guide members (132) that are provided to the lid body (130). The bearing members (112) rotatably support the shaft support members (131) on the end surfaces thereof, and guide sliding surfaces (120) for guiding the elastic guide members (132) are formed on the peripheral surfaces of the bearing members.
B65D 47/08 - Closures with discharging devices other than pumps with pouring spouts or tubesClosures with discharging devices other than pumps with discharge nozzles or passages having articulated or hinged closures
9.
HOT AIR SHRINK TUNNEL FOR HEAT SHRINKING A SHRINK LABEL, METHOD FOR HEAT SHRINKING A SHRINK LABEL, AND HEAT SHRINKING APPARATUS FOR HEAT SHRINKING A SHRINK LABEL
The invention relates to a hot air shrink tunnel (10) for a heat shrinking apparatus for heat shrinking a shrink label to enclose a product, wherein the hot air shrink tunnel surrounds a conveying path of the product. The hot air shrink tunnel includes a moist air zone (1, 2) and a dry air zone (3, 4) arranged in this order in a conveying direction of the product through the hot air shrink tunnel (10); wherein the moist air zone (1, 2) includes heating means for heating air flowing within the moist air zone (1, 2), and water diffusion means for diffusing an amount of water in the air flowing within the moist air zone (1, 2) to produce an air-steam mixture, and the dry air zone (3, 4) includes heating means for heating air flowing within the dry air zone (3, 4).
B65B 53/06 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by gases, e.g. hot-air jets
B65B 53/04 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by liquids
B65B 57/00 - Automatic control, checking, warning or safety devices
Provided is a shrink label capable of suppressing the occurrence of defective attachment onto a container while suppressing the occurrence of ink cracking. A shrink label 10 includes an outer layer 3b, which is a water-based acrylic ink layer including an acrylic resin and a curing agent on a heat-shrinkable base material 1, where the coefficient of dynamic friction of the outer layer 3b against a polyester surface having a water droplet of 0.1 mL is 1.0 or less, and the coefficient of dynamic friction of the outer layer 3b against a polyester surface having a water droplet of 0.01 mL is 2.5 or less.
In a cutting device, the first pressing portion is located on a second surface side when viewed from an elongated body located along a virtual plane between a first clamping position and a second clamping position. A second pressing portion is located away from the first pressing portion in a longitudinal direction, and is located on the second surface side when viewed from the elongated body located along the virtual plane between the first clamping position and the second clamping position. The blade portion enters between the first pressing portion and the second pressing portion while abutting against the first surface side of the elongated body, and the first pressing portion and the second pressing portion press the elongated body from the second surface side, whereby the blade portion can press-cut the elongated body.
Provided is a less-expensive tube container that has excellent recyclability. This tube container 1 has an end seal part 30 that: is formed by welding an inner circumferential surface of a rolled sheet S that has been heated with hot air and then brought together in a first direction D1; and seals another end part 14 in the axial direction DA of a cylindrical body part 10. The sheet S includes a first base material layer SL1 that constitutes the inner circumferential surface of the sheet S when the sheet S has been rolled and a reinforcing layer RL that is further to the outer circumferential side than the first base material layer SL1. The first base material layer SL1 is formed from a not-stretched film that includes a polyester resin. The reinforcing layer RL is formed from a biaxially-stretched film that includes a resin component so as to be capable of supporting the first base material layer SL1 such that the inner peripheral surface as heated by hot air to become weldable is opposite itself in the first direction D1.
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
Goods & Services
(1) Plastic film for wrapping; plastic film roll stock for packaging
(2) Shrink film for wrapping; Bags [pouches] of plastics, for packaging; Plastic films for packaging; Plastic films for wrapping and packaging; Polyester shrink sleeve films used for labeling of bottles and cans; Plastic shrink sleeve films used for labeling of bottles and cans.
(3) Semi-processed plastics
(4) Plastic shrink film for use in manufacture; Plastic shrink film for use in manufacture of labels; Polyolefin shrink film; Metallized plastic sheets for use in manufacture of labels; Metallized plastic films for use in manufacture of labels; Adhesive-coated plastic sheets for use in manufacture; Adhesive-coated plastic films for use in manufacture; Printed plastic sheets for packaging; Printed plastic films for packaging; Laminated plastic sheets for use in manufacture of labels; Laminated plastic films for use in manufacture of labels; Heat shrinkable plastic sheets for use in manufacture; Heat shrinkable plastic films for use in manufacture; Retractable plastic sheets for use in manufacture; Retractable plastic films for use in manufacture; Plastic sheets coated with heat-sensitive adhesive; Plastic films coated with heat-sensitive adhesive; Plastic sheets coated with tackiness agent; Plastic films coated with tackiness agent; Polyester films for use in the manufacture of labels; Plastic shrink sleeve, namely heat-shrinkable tubular film.
In this tube container, a joint portion (30) joins a first edge (14A), which is an edge of a first wall portion (10A) on the opposite side to a dispensing portion (20) side thereof, and a second edge (14B), which is an edge of a second wall portion (10B) on the opposite side to the dispensing portion (20) side thereof, to one another so that the entirety of the first edge (14A) runs alongside the entirety of the second edge (14B). The joint portion (30) extends along the first edge (14A) and the second edge (14B). The total length of the first edge (14A) is greater than a width dimension of one end portion (13) in a second direction (D2) orthogonal to both an axial direction (DA) and a first direction (D1). By folding at least one of a portion of the first wall portion (10A) on the first edge (14A) side and a portion of the second wall portion (10B) on the first edge (14A) side toward the inside of a cylindrical body portion (10), the first edge (14A) is bent so that a width dimension of the first edge (14A) in the second direction (D2) is less than the total length of the first edge (14A).
Both to release air present between a heat-shrinkable film and a container and ensure a favorable appearance of the heat-shrinkable film itself. In a rolled raw material (1) according to the present invention, an overlapping portion (120) of a heat-shrinkable film (101) includes an unsealed region (120b) and a sealed region (120a), and the unsealed region (120b) communicates an inner end (102) with an outer end (103) of the rolled raw material (1) in the overlapping portion (120).
A manufacturing method of a labeled article includes a preparing step of preparing a label bulk roll formed by winding up a continuous label body being linerless into a roll shape, a feeding step of feeding the continuous label body from the label bulk roll, a cutting step of cutting the continuous label body into individual units of labels, an activating step of activating an adhesive layer of the label, a conveying step of conveying an activated label that is the label including the adhesive layer in an activated state from an activation position where the adhesive layer is activated to a separated position separated from the activation position, and an affixing step of affixing the activated label to an article at the separated position.
This container set (1) is composed of a bag container (20) and a container holder (40) that accommodates the bag container (20). The bag container (20) comprises a bag main body (21) for accommodating contents and a spout (25) that is provided to the bag main body (21) and is for pouring out the contents. The container holder (40) comprises a cylindrical holder main body (41) and protrusions (43) that localize in positions in one end surface of the holder main body (41) and that extend inward along radial directions of the holder main body (41). When the container set (1) in which the spout (25) has a cap (30) attached thereto is viewed from above, the protrusions (43) support the spout (25) on the outer side further than the outer edge of the cap (30).
A pouch container includes a pair of film sheet parts bonded to each other at a seal portion, and is provided with a storage space and a peripheral portion provided with the seal portion. The peripheral portion includes a first cut line portion, the first cut line portion includes a first end portion and a second end portion, the first end portion includes a first curled portion, the second end portion includes a second curled portion, the sealed portion includes a first curled portion seal area and a second curled portion seal area, and the peripheral portion includes an unsealed area so as to include a portion located between the first curled portion seal area and the second curled portion seal area.
The present invention reduces the degradation of a heating element due to heat. A heating element (4) includes: a first heating element (41); and a second heating element (42) installed downstream of the first heating element (41) in a flow direction (FD) of a fluid (F). A first length (L1) of the first heating element (41) in the flow direction (FD) is greater than a second length (L2) of the second heating element (42) in the flow direction (FD).
An apparatus for attaching a label (3) on a product (5) placed on a conveyor (7), by irradiating light onto the label (3), is provided. The apparatus comprises two light emitters (12) arranged on opposite sides of the conveyor (only the emitter on one side of conveyor is shown), each having a plurality of light sources (12), and a controller configured to selectively activate and control an intensity of the light sources (12) so as to achieve a product-specific light emission profile (18) which moves along the conveyor (9) at a speed corresponding to the speed of the conveyor (9). The light emitters are preferably arranged as light emitting walls (12) facing the space where the product (5) is irradiated. This allows uniform light intensity and thus heating around the product. Preferably, the label is a heat-shrink label, while the product (5) is a bottle.
B29C 63/42 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor by liberation of internal stresses using tubular layers or sheathings
B29C 63/18 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor using tubular layers or sheathings
B29C 63/22 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor using layers or sheathings having a shape adapted to the shape of the article
B65B 53/02 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat
B65C 9/25 - Gluing the labels or articles by heat by thermo-activating the glue
B29C 63/00 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor
B65C 9/00 - Details of labelling machines or apparatus
09 - Scientific and electric apparatus and instruments
16 - Paper, cardboard and goods made from these materials
42 - Scientific, technological and industrial services, research and design
Goods & Services
Application software; Computer software; Downloadable computer software; Computer programs; Computer programs with authentication function; Labels incorporating integrated circuit (IC) chips; Labels with integrated RFID chips; Radio-frequency identification (RFID) tags; Radio-frequency identification (RFID) readers; Telecommunication machines and apparatus; Optical machines and apparatus; Measuring and testing machines and instruments; Data processors; Scanners [data processing equipment]; Computer hardware; Computer peripheral devices; Cloud computing software. Printed matter; Paper and cardboard; Labels, not of textile; Paper labels; Adhesive labels of paper; Polymer plastic films for wrapping and packaging; Bags [pouches] of plastics, for packaging; Stationery; Plastic film for wrapping; Seals [stationery]; Food wrapping plastic film for household use. Design, programming and maintenance of computer programs for electronic authentication; Providing computer programs for electronic authentication; Providing computer programs for authentication; Inspection, certification and authentication of presence or absence of falsification of the contents of electronic information; Providing temporary use of non-downloadable computer software for tracking freight over computer networks, intranets and the internet; Providing temporary use of on-line non-downloadable operating software for accessing and using a cloud computing network; Design of data storage and data processing systems, including the design of radio-frequency identification (RFID) readers; Design of industrial machinery; Design of instruments; Design services relating to process systems for industrial products; Computer software design, computer programming, and maintenance of computer software; Rental of computers; Providing computer programs on data networks; Providing computer software; Design, creation and maintenance of computer software; Cloud computing; Software as a service [SaaS]; Design services, other than those for advertising purposes; Industrial design; Packaging design; Providing information relating to design services, other than those for advertising purposes.
24.
CONVEYANCE DEVICE AND POUCH CONTAINER MANUFACTURING SYSTEM PROVIDED WITH SAME
A single bag body is adjusted for a positional error and is then conveyed. A conveyance device 100 based on the present disclosure is provided with a transfer unit 120, a contact wall unit 130, and a pair of guidance wall units 140. The transfer unit 120 has a transfer surface 121. The transfer unit 120 transfers a flat bag body 91 placed at a predetermined placement position P1 on the transfer surface 121, to a predetermined adjustment position P2. The contact wall unit 130 is positioned on the transfer surface 121 so that the transferred bag body 91 contacts the contact wall unit 130 at the adjustment position P2 on the forward side in a transfer direction DT of the transfer unit 120. The pair of guidance wall units 140 are positioned on both sides in a second direction D2 of the bag body 91 that has been transferred to the adjustment position P2, the second direction D2 being orthogonal to a first direction D1 in which the bag body 91 transferred to the adjustment position P2 contacts the contact wall unit 130, and being parallel to an in-plane direction of the transfer surface 121 at the adjustment position P2.
Provided are a label and a method for producing the label that can inhibit deterioration in design properties of the appearance of the label. A label (10) comprises: a first display (2) which is an aqueous ink print layer on at least one of a first surface (1a) and a second surface (1b) of a base material (1); a first print base layer (3) which is an aqueous ink print layer on the first surface (1a) of the base material (1); a second print base layer (4) which is an aqueous ink print layer on the first print base layer (3); and a second display (5) which is an aqueous ink print layer on the second print base layer (4). The first print base layer (3) is in contact with the second print base layer (4). The area of the second print base layer (4) is greater than the area of the first print base layer (3) in a plan view from the first surface (1a) side or the second surface (1b) side of the base material (1).
G09F 3/00 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
26.
SPOUT TRANSPORTING DEVICE AND POUCH CONTAINER MANUFACTURING SYSTEM PROVIDED WITH SAME
Provided is a spout transporting device that is capable of distributing a plurality of spouts at a plurality of locations, has a simple configuration, and does not require a large installation space. A first transporting device 120 is configured to be capable of being put in a first transporting state to transport a first spout 91A as a first slider 122 slides forward F after a first gripping unit 123 grips the first spout 91A. A second transporting device 130 is configured to be capable of being put in a second transporting state to transport a second spout 91B as a second slider 132 slides forward F after a second gripping unit 133 grips the second spout 91B when the first transporting device 120 is in the first transporting state. When the first transporting device 120 is in the first transporting state and the second transporting device 130 is in the second transporting state, the first slider 122 is displaced at a higher speed than the second slider 132 as viewed from a spout supplying unit 110.
Provided is a plastic label that has a satisfactory antistatic property even when the plastic label has a printed layer formed from a water-based ink. The plastic label has a printed layer on one surface of a label base material comprising a plastic film and an antistatic layer on the other surface of the label base material, the plastic label being characterized in that the printed layer is formed from a water-based ink, the antistatic layer contains an antistatic agent, and the surface resistivity of the antistatic layer after retaining the plastic label for 96 hours while allowing the printed layer and the antistatic layer to contact with each other at a pressure of 0.025 MPa is less than 1.0×1012 Ω/□ at 25°C in an atmosphere having a relative humidity of 50%.
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
C09D 11/102 - Printing inks based on artificial resins containing macromolecular compounds obtained by reactions other than those only involving unsaturated carbon-to-carbon bonds
C09D 11/107 - Printing inks based on artificial resins containing macromolecular compounds obtained by reactions only involving carbon-to-carbon unsaturated bonds from unsaturated acids or derivatives thereof
This pouch includes a packaging material. The packaging material comprises: a first film (51) made of biaxially stretched polyethylene that is stretched in a lateral direction with respect to the vertical direction of the pouch and in a longitudinal direction corresponding to a direction orthogonal to the vertical direction of the pouch; and a second film (52) that is laminated on the first film (51). The second film (52) has a thermal shrinkage rate (under a heating condition of 120°C for 15 minutes) of 10% or less in the lateral direction.
This pouch contains a packaging material. The packaging material comprises: a first film (51) which is constituted of a vertically uniaxially stretching polyethylene and which extends in a vertical direction corresponding to a direction orthogonal to the up-down direction of the pouch; and a second film which is laminated on the first film (51). The tensile rupture stress of the second film (52) in a horizontal direction corresponding to the up-down direction of the pouch is at least 50MPa.
In order to make the contents of a pouch easy to pour out without necessitating tilting the pouch significantly, the present invention provides a pouch including a packaging bag 10 which, in the state of having been folded so that a front sheet 110 lies over a back sheet while having a turned-back portion where some of the front sheet 110 near a top gore sheet 130 has been turned back and that the top gore sheet 130 overlies both the turned-back portion and the back sheet, satisfies L2>L1, where L1 is a maximum distance from a turning line 112 to a front-side center top gore seal part 170 and L2 is a maximum distance from the turning line 112 to a back-side center top gore seal part 180, the turning line 112 being a straight line connecting a first intersection P1, where a left-side seal part 150, a front-side left top gore seal part 171, and a back-side left top gore seal part 181 meet each other, to a second intersection P2, where a right-side seal part 160, a front-side right top gore seal part 172, and a back-side right top gore seal part 182 meet each other.
When the front sheet portion is viewed from a front side in a pre-filling state in which a storage space is not filled with contents and the gusset sheet portion is arranged overlapping the back sheet portion in a front-rear direction, a width of the gusset sheet portion is greater than a width of the second joining portion in a width direction, the first side-end joining portion includes a first inclined portion, and the second side-end joining portion includes a second inclined portion. When the front sheet portion is viewed from the front side in a post-filling state in which the storage space is filled with contents and the gusset sheet portion faces one side in a height direction, the first inclined portion and the second inclined portion extend along the height direction.
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
B65D 75/26 - Articles or materials wholly enclosed in laminated sheets or wrapper blanks
B65D 47/12 - Closures with discharging devices other than pumps with pouring spouts or tubesClosures with discharging devices other than pumps with discharge nozzles or passages having removable closures
The objective of the present invention is to make it easier to grip a pouch provided with a spout on a top surface thereof. In a state in which a packaging bag 10 is folded in such a way that a front surface sheet 110 is positioned on a rear surface sheet, the front surface sheet 110 including a folded-back portion obtained by folding back a portion of the front surface sheet 110 close to a top gusset sheet 130, and in which the top gusset sheet 130 overlaps each of the folded-back portion and the rear surface sheet, at least one of a left-side seal portion 150 and a right-side seal portion 160 has a recessed portion 151, 161 that is recessed toward the inside of the packaging bag 10 such that an outer edge of the packaging bag 10 is narrowed in a width direction.
In this tube container (1), a cylindrical body (10) has a band-shaped welded section (12) that is formed by bending or curving a single sheet (S) and overlapping and welding together, in the thickness direction of the sheet (S), a first side-end section (SE1) of the sheet (S) in the plane direction (DP) and a second side-end section (SE2) of the sheet (S) located opposite to the first side-end section (SE1). The cylindrical body (10) further includes a sheet base section (11) located between the first side-end section (SE1) and the second side-end section (SE2) of the sheet (S) in the plane direction (DP). The welded section (12) has a first tip edge (121). The first tip edge (121) is the tip edge of the first side-end section (SE1) of the cylindrical body (10) in the circumferential direction (DC) and is joined to a first base-end section (111). The first tip edge (121) is located within the thickness of the first base-end section (111) when viewed from a direction along the circumferential direction (DC).
Provided is a top panel that is used together with a container holder as a retainer for a storage container, thereby allowing for a reduction in the amount of resin used for the retainer as a whole. A top panel 10, which is attached to an opening 9 of the cylindrical portion of a container holder 11 that accommodates a storage container 20, comprises: a first member 11a; a second member 11b; and a connecting member 18 that connects the first member 11a and the second member 11b. When attached to the opening 9, the top panel 10 generates a repulsive force in the direction that increases the distance between the first member 11a and the second member 11b.
Provided is a shrink label capable of suppressing the occurrence of failure of attachment onto a container while suppressing the occurrence of ink cracking. A shrink label 10 comprises an outer layer 3b which is an aqueous acrylic ink layer on a heat-shrinkable substrate 1, said aqueous acrylic ink layer containing a hardening agent and an acrylic resin. The dynamic friction coefficient of the outer layer 3b with respect to a polyester surface having 0.1 mL of water droplets thereon is 1.0 or less, and the dynamic friction coefficient of the outer layer 3b with respect to a polyester surface having 0.01 mL of water droplets thereon is 2.5 or less.
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
The present invention cuts a long body stably by suppressing flexure of the long body during the cutting. A cutting device 1 comprises a first clamping part 10, a second clamping part 20, a blade part 30, a first pressing part 41, and a second pressing part 42. The first pressing part 41 is positioned on a second surface 92 side as viewed from a long body 9 positioned along a virtual plane S between a first clamping position P1 and a second clamping position P2. The second pressing part 42 is positioned apart from the first pressing part 41 in a longitudinal direction L and is positioned on the second surface 92 side as viewed from the long body 9 positioned along the virtual plane S between the first clamping position P1 and the second clamping position P2. The blade part 30 is configured to be capable of cutting, through pushing, the long body 9 by the blade part 30 entering between the first pressing part 41 and the second pressing part 42 while abutting against a first surface 91 side of the long body 9 and the first pressing part 41 and the second pressing part 42 pressing the long body 9 from the second surface 92 side.
B26D 7/14 - Means for treating work or cutting member to facilitate cutting by tensioning the work
B26D 1/08 - Cutting through work characterised by the nature or movement of the cutting memberApparatus or machines thereforCutting members therefor involving a cutting member which does not travel with the work having a linearly-movable cutting member wherein the cutting member reciprocates of the guillotine type
B26D 7/02 - Means for holding or positioning work with clamping means
B26D 7/06 - Arrangements for feeding or delivering work of other than sheet, web, or filamentary form
The present invention addresses the problem of improving the durability of a label affixing device provided with an activation mechanism that activates an adhesive layer of a label. A label affixing device 1A comprises: an activation mechanism 3A including a conveyor belt 31 and an energy source 34; a feed mechanism 2A; and a label affixing mechanism 4A. An irradiation region 31e irradiated by energy 34a from the energy source 34, the energy 34a activating an adhesive layer of a label 300, is located on a track of the conveyor belt 31 between a position at which the label 300 is transferred from the feed mechanism 2A and a position at which the label 300 is transferred to the label affixing mechanism 4A. The energy source 34 emits the energy 34a when the label 300 passes through the irradiation region 31e, and the conveyor belt 31 is driven at a prescribed speed from when the label 300 is transferred to the feed mechanism 2A until the label 300 is transferred to the label affixing mechanism 4A.
HOT AIR SHRINK TUNNEL FOR HEAT SHRINKING A SHRINK LABEL, METHOD FOR HEAT SHRINKING A SHRINK LABEL, AND HEAT SHRINKING APPARATUS FOR HEAT SHRINKING A SHRINK LABEL
The invention relates to a hot air shrink tunnel (10) for a heat shrinking apparatus for heat shrinking a shrink label to enclose a product, wherein the hot air shrink tunnel surrounds a conveying path of the product. The hot air shrink tunnel includes a moist air zone (1, 2)and a dry air zone (3, 4) arranged in this order in a conveying direction of the product through the hot air shrink tunnel (10); wherein the moist air zone (1, 2) includes heating means for heating air flowing within the moist air zone (1, 2), and water diffusion means for diffusing an amount of water in the air flowing within the moist air zone (1, 2) to produce an air-steam mixture, and the dry air zone (3, 4) includes heating means for heating air flowing within the dry air zone (3, 4).
B65B 53/04 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by liquids
B65B 53/06 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by gases, e.g. hot-air jets
B65B 57/00 - Automatic control, checking, warning or safety devices
Provided is a container holder in which the amount of a resin used is small. A container holder 1 is provided with a cylindrical sheet member 2 having an accommodation space for accommodating an accommodation container 20, and a film member 5 that is attached to an outer wall surface of the sheet member 2, cylindrical, and is expandable or thermally shrunk. The container holder 1 detachably locks the accommodation container 20.
Provided is a light-shielding laminate with which it is possible to improve the shielding properties from light from the outside of the light-shielding laminate, and improve the aesthetic appearance of a light-shielding laminate. The light-shielding laminate 10 includes a substrate 11, a shielding layer 13 on the substrate 11, and a light-shielding layer 12 located between the substrate 11 and the shielding layer 13 or on the opposite side of the substrate 11 from the shielding layer 13 The light-shielding layer 12 includes aluminum and titanium oxide As the shielding layer 13, for example, a white ink layer can be used.
B32B 27/20 - Layered products essentially comprising synthetic resin characterised by the use of special additives using fillers, pigments, thixotroping agents
Provided is a conveying device capable of conveying bags supplied to a first position and a second position downstream of the first position, without causing the bags to interfere with each other. A conveying device 3 includes: a base portion 10; a common route; a first route 50 for guiding a first bag 90A supplied to a first position P1 to the common route; and a second route 60 for guiding a second bag 90B supplied to a second position P2 to the common route, wherein the first route 50 includes an inner route 52 continuous with the common route, the second route 60 includes an outer route 61 disposed outside the inner route 52, and the first bag 90A and the second bag 90B are conveyed so that the locus of the first bag 90A conveyed along an inner route 53 and the locus of the second bag 90B conveyed along the outer route 61 do not interfere with each other.
B65B 43/46 - Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up stateFeeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging positionLocating containers or receptacles at the filling positionSupporting containers or receptacles during the filling operation using grippers
B65B 43/50 - Feeding or positioning bags, boxes, or cartons in the distended, opened, or set-up stateFeeding preformed rigid containers, e.g. tins, capsules, glass tubes, glasses, to the packaging positionLocating containers or receptacles at the filling positionSupporting containers or receptacles during the filling operation using rotary tables or turrets
B65G 47/86 - Star-shaped wheels or devices having endless travelling belts or chains, the wheels or devices being equipped with article-engaging elements the article-engaging elements being grippers
The present invention efficiently heats a shrink film while simplifying device configuration. A heat shrinking device according to an aspect of the present invention is provided with: a heating tunnel (3) provided over a transfer path (2a) of a rotary transfer unit that transfers a container coated with a label, the heating tunnel (3) including heating furnaces (3a to 3l) that eject steam; and a raising/lowering unit (8) that raises and lowers the heating tunnel (3).
B65B 53/00 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging
B65B 53/02 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat
B65B 53/04 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by liquids
43.
Apparatus for attaching a shrinkable label on a product and method for attaching a shrinkable label on a product
An apparatus for attaching a shrinkable label on a product placed on a conveyor, by irradiating light onto the shrinkable label, comprises two sets of light emitters which are arranged opposite each other on both sides of the conveyor along a defined length of the conveyor to form an irradiation volume through which the conveyor passes. The light emitters are configured to emit directed light bundles into the irradiation volume in different directions. In a plan view of the apparatus, the directions of the light bundles intersect with a longitudinal central axis of the conveyor. The intersection points of the directions of the light bundles emitted from the light emitters on a same side of the conveyor with the longitudinal central axis of the conveyor differ from each other.
B65C 9/02 - Devices for moving articles, e.g. containers, past labelling station
B29C 63/42 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor by liberation of internal stresses using tubular layers or sheathings
B29C 65/14 - Joining of preformed partsApparatus therefor by heating, with or without pressure using wave energy or particle radiation
B29C 65/66 - Joining of preformed partsApparatus therefor by liberation of internal stresses, e.g. shrinking of one of the parts to be joined
B65B 53/02 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat
44.
LAMINATE, PACKAGE, AND METHOD FOR MANUFACTURING PACKAGE
This laminate (1) comprises a first film (11) having a first thermal shrinkage rate, a second film (12) having a second thermal shrinkage rate lower than the first thermal shrinkage rate, and an air hole (14) through which air is allowed to flow in between the first film (11) and the second film (12) at a non-bonded part (16). In a situation where the air hole (14) is formed in a bonded part (15) where the first film (11) and the second film (12) are bonded together, the non-bonded part (16) is surrounded by the bonded part except the place where the air hole (14) is formed.
The present invention reduces the possibility that a label will be unable to pass through a guidance component. This guidance component 1 guides a label to a mounting target as part of a label mounting device for mounting a cylindrical label on the mounting target, the guidance component 1 comprising: a housing (12, 13, 14) having a long axis, the housing (12, 13, 14) regulating the direction in which a label is guided; a power supply (15); and an apparatus (16, 17) stored inside the housing (12, 13, 14), the apparatus (16, 17) being driven by electric power supplied from the power supply (15).
B65C 3/16 - Affixing labels to short rigid containers to container bodies the container being positioned for labelling with its centre-line vertical by rolling the labels onto cylindrical containers, e.g. bottles
This pouch container is formed by providing a gas filling space therein, and can be produced at high production efficiency. A pouch container 1A has a gas filling space 50 provided therein, and comprises a first wall part 20, a second wall part 12, and a seal part 62 formed by joining the respective edges of the first wall part 20 and the second wall part 12. The first wall part 20 includes a first tongue-like part 20a protruding outward from the edge thereof; and the second wall part 12 includes a second tongue-like part 12a protruding outward from the edge thereof and overlapping the first tongue-like part 20a. The protruding length of the second tongue-like part 12a is greater than that of the first tongue-like part 20a. A gas injection part 70 is provided by respectively joining both widthwise ends of the first tongue-like part 20a and the second tongue-like part 12a so as to form an injection port 71 communicating with the gas filling space 50; the injection port 71 is regulated by the tip of the first tongue-like part 20a in the protruding direction and the second tongue-like part 12a at a portion facing said tip.
B65D 30/16 - Sacks, bags or like containers characterised by shape or construction with rigid end walls, e.g. free standing bags
B31B 70/81 - Forming or attaching accessories, e.g. opening devices, closures or tear strings
B31B 70/86 - Forming integral handles or mounting separate handles
B31B 150/20 - Flexible containers made from sheets or blanks, e.g. from flattened tubes the longitudinal axes of the containers being perpendicular to the direction in which the sheets or blanks are fed
B31B 160/20 - Shape of flexible containers with structural provision for thickness of contents
47.
POUCH CONTAINER AND METHOD OF MANUFACTURING THE SAME
A pouch container has a gas filling space therein, and includes a first wall section and a second wall section. The first wall section includes a first tongue-shaped portion. The second wall section includes a second tongue-shaped portion and overlapping the first tongue-shaped portion. A projection length of the second tongue-shaped portion is longer than that of the first tongue-shaped portion. A gas injection portion is provided in which an injection port communicating with the gas filling space is formed by joining both end portions of both the first tongue-shaped portion and the second tongue-shaped portion in a width direction, and the injection port is defined by a tip end portion of the first tongue-shaped portion in a projection direction and the second tongue-shaped portion at a portion facing the tip end portion.
A method for manufacturing a pouch-type packaging material includes: a first folding process; a first cutting process of cutting the top-side sheet material, a second sub-region, a first main region, and a first sub-region along a first cutting line that extends from a portion where the top-side sheet material and the second sub-region overlap to a portion closer toward a bottom side in a z direction beyond a first boundary line; a second folding process; a second cutting process of cutting the top-side sheet material, the first sub-region, the first main region, and a second main region along a second cutting line to form a top-side sheet from the top-side sheet material, where the second cutting line extends from a portion where the top-side sheet material and the first sub-region overlap to a portion closer toward the bottom side in the z direction beyond the second boundary line.
A sleeve cutting mechanism (5; 105; 205; 305) for cutting a sleeve (3) being conveyed along a sleeve conveyance axis through a labelling machine (1) comprises a basis (10) with a sleeve passage extending along a central axis (7) which coincides with the sleeve conveyance axis, a plurality of rotary cutters (12, 12a to 12f) which are held on the basis (10) at a radial distance to and at angular distances around the central axis (7) of the sleeve passage. Each of the rotary cutters (12, 12a to 12f) comprises a carrier (14) which is held rotatably around an axis of rotation parallel to the central axis (7) of the basis (10), and at least one blade (16) fixed to the carrier for cutting the sleeve (3). Radial distances of the rotary cutters (12, 12a to 12f) with respect to the central axis (7) of the sleeve passage are adjustable.
Disclosed is a conveying system comprising: a track, a plurality of carriages to be conveyed on the track, each carriage comprising: a main body which is held along the track; and a receptacle rotatably supported by the main body and configured for receiving a product, and further comprising a receptacle-rotating member which is configured to advance, at a defined advancing speed, along a region provided at at least a portion of the track, and to control the rotational orientation of the carriage's receptacles; wherein each carriage can be in engagement, via its receptacle, with the receptacle-rotating member.
B65G 47/24 - Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles
B65C 9/04 - Devices for moving articles, e.g. containers, past labelling station having means for rotating the articles
B65G 47/31 - Devices influencing the relative position or the attitude of articles during transit by conveyors arranging the articles, e.g. varying spacing between individual articles during transit by a series of conveyors by varying the relative speeds of the conveyors forming the series
B65G 54/02 - Non-mechanical conveyors not otherwise provided for electrostatic, electric, or magnetic
51.
Method of making a sleeve for covering receptacle, and apparatus for making the sleeve
Disclosed is a method of making a shrink label for covering a receptacle having a protrusion, from a strip of flexible tubular material, wherein the shrink label has a given length measured from a first end to a second end, being measured in the longitudinal direction of the strip, the method having at least the step of: puncturing the strip to form a puncture being spaced apart from the first end and from the second end, wherein the puncture suits the shape of the protrusion.
The purpose of the present invention is both to evacuate air between a heat-shrinkable film and a container and to ensure a good appearance of the heat-shrinkable film. In a raw material (1) according to the present invention, an overlapping portion (120) of a heat-shrinkable film (101) includes an unsealed region (120b) and a sealed region (120a). The unsealed region (120b) communicates from an inner end (102) to an outer end (103) of the raw material (1) in the overlapping portion (120).
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
B65D 23/00 - Details of bottles or jars not otherwise provided for
Provided is a pouch container that enables safer oral ingestion of contents. A pouch container 1A comprises a body portion 10 including an accommodation space 10a therein accommodating contents 100, and a detachment-ready portion 20. The body portion 10 includes a trunk portion 11 and a spout portion 12 protruding from the trunk portion 11 and thus configured to be holdable in the mouth. The accommodation space 10a is provided to reach a boundary portion between the detachment-ready portion 20 and a lateral end portion 12s so that an outlet 12s1 is formed in the lateral end portion 12s when the detachment-ready portion 20, which is provided adjacent to the lateral end portion 12s positioned in a width direction of the spout portion 12, is detached from the lateral end portion 12s. In a state in which the detachment-ready portion 20 has been detached from the lateral end portion 12s, a tip-end portion 12e in the protruding direction of the spout portion 12 is closed so that the contents 100 can be poured out from the outlet 12s1 in a direction intersecting with the protruding direction of the spout portion 12.
B65D 33/00 - Details of, or accessories for, sacks or bags
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
B65D 85/50 - Containers, packaging elements or packages, specially adapted for particular articles or materials for living organisms, articles or materials sensitive to changes of environment or atmospheric conditions, e.g. land animals, birds, fish, water plants, non-aquatic plants, flower bulbs, cut flowers or foliage
54.
PACKAGE BODY FOR POUCH CONTAINER AND POUCH CONTAINER PACKAGE
A pouch container packaging body and a pouch container package with which a container body can be more reliably opened. The packaging body includes a container body including a top sheet covering the container body at a top side and a spout fixed to an outer surface of the top sheet and including a dispensing space extending axially. The spout includes a fixed portion on the top sheet, a rotating portion to rotate the fixed portion, and a cutting portion to cut the top sheet. The top sheet includes a flat portion where the fixed portion is fixed. The cutting portion is positioned away from the flat portion in an initial state and moves while rotating in a direction from an external surface to an internal surface of the flat portion in response to rotation of the rotating portion, and cuts the flat portion.
B65D 51/22 - Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing having means for piercing, cutting, or tearing the inner closure
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
55.
LABELED ARTICLE MANUFACTURING METHOD, LABEL SHEET, AND LABEL
This labeled article (5) manufacturing method comprises: a preparation step for preparing a label sheet (1) formed by winding a linerless label continuous body (2) into a roll; an unwinding step for unwinding the label continuous body (2) from the label sheet (1); a cutting step for cutting the label continuous body (2) in units of single labels (3); an activation step for activating an adhesive layer of the label (3); a conveying step for conveying an activated label (3A), which is the label having the activated adhesive layer, from an activation position where the adhesive layer is activated up to a separation position separated from the activation position; and an attaching step for attaching the activated label (3A) to an article (B) at the separation position.
A pouch-type container including a pair of main-body sheets defining a storage space for containing a packaged substance; an opening at a first end of the main-body sheets in a z-direction; a spout at a second end, opposite the opening, of the main-body sheets in the z-direction; and an opening/closing part offset from the opening toward the second end in the z-direction to open and close the storage space. The pouch-type container further includes: a locking band fixed to the main-body sheets at a pair of fixed portions spaced apart in a width direction (x direction) to define an insertion space with the outer surface of one of the main-body sheets, the width direction being perpendicular to the y-direction wherein the main-body sheets face each other and the z-direction; and a lock part including at least one of the main-body sheets and configured to be locked with the locking band.
B65D 75/28 - Articles or materials wholly enclosed in composite wrappers, i.e. wrappers formed by associating or interconnecting two or more sheets or blanks
B65D 33/25 - RivetingDovetailingScrewingEnd- or aperture-closing arrangements or devices using press buttons or slide fasteners
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
57.
Method of removing ink layer from shrink sleeve label
Provided is a method of efficiently removing an ink layer. The method of removing an ink layer from a shrink sleeve label includes preheating the shrink sleeve label including the ink layer, shredding the shrink sleeve label after the preheating to fabricate shrink sleeve label pieces, and removing the ink layer from the shrink sleeve label pieces by alkaline desorption. A temperature of the preheating is the same as a temperature of the alkaline desorption or higher than the temperature of the alkaline desorption.
C08J 11/14 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation by treatment with steam or water
B29B 17/02 - Separating plastics from other materials
Provided is a pouch capable of achieving both an increase in volume and a nearly cylindrical shape in a suspended state. A pouch 1 is provided with: a packaging bag 100 including a front surface sheet 101, a back surface sheet 102, a bottom surface sheet, and a top surface sheet 104; a suspending band 200 connecting a bottom part of the front surface sheet 101 and a bottom part of the back surface sheet 102 and used to suspend the packaging bag 100 in a posture in which the top surface sheet 104 faces downward; and a spout 300 fixed to the packaging bag 100. The bottom surface sheet has a folded part. The packaging bag 100 has a pair of side seal parts 110, a pair of bottom seal parts 120, and a pair of top seal parts 130. The suspending length of the suspending band 200 is one or more times the distance between a central part in a width direction of an edge part inside the bottom seal part 120 and the folded part.
The label (3) according to one embodiment of the present invention is printed onto a PET bottle body (2), the label (3) including a foundation layer (4) that is formed on a surface (2a) of the PET bottle body (2), and a display layer (5) that includes ink and is formed on a layer above the foundation layer (4), the foundation layer (4) being a peeling layer that can be peeled from the surface (2a) through a peeling operation.
A shrink label includes a first end surface, a second end surface, and a puncture extending along a portion of the shrink label between the first and second end surfaces such that the puncture is spaced a first distance away from the first end surface and the puncture is spaced a second distance away from the second end surface. The puncture is expandable to form an opening when the shrink label shrinks from an open state to a shrunk state.
[Problem to be Solved] To prevent delamination of a film layer in a sheet material container in which an enclosing portion is formed in an interlayer between a first film layer and a second film layer.
[Solution] A sheet material container includes a container body 6, and an inner container 7 that is covered by the container body 6 and defines an accommodation space, wherein the container body 6 is formed of a sheet material 3 including a first film layer 1 and a second film layer 2 disposed inside the first film layer 1, the sheet material 3 has a joint portion 32 at which an interlayer between the first film layer 1 and the second film layer 2 is joined and an enclosing portion 51 in which a filler can be enclosed in the interlayer between the first film layer 1 and the second film layer 2, and the first film layer 1 has an extruded multilayer structural part having a polyolefin resin layer 11/an ethylene-vinyl alcohol copolymer resin layer 12 on a side facing the enclosing portion 51.
B32B 3/02 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by features of form at particular places, e.g. in edge regions
B32B 27/08 - Layered products essentially comprising synthetic resin as the main or only constituent of a layer next to another layer of a specific substance of synthetic resin of a different kind
B32B 27/20 - Layered products essentially comprising synthetic resin characterised by the use of special additives using fillers, pigments, thixotroping agents
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
B32B 38/00 - Ancillary operations in connection with laminating processes
62.
METHOD FOR MANUFACTURING POUCH CONTAINER, AND POUCH CONTAINER
This method for manufacturing a pouch container A1 comprises: a step for preparing a first film member 1 that includes a section which is to be a top gusset portion 10 of the pouch container A1; a step for preparing a tubular second film member 2 that includes a section which is to be a body portion 20 of the pouch container A1; a step for forming an annular top seal portion; a step for forming an auxiliary seal portion 45; and a cutting step for cutting off, from the first film member 1, the section which is to be the top gusset portion 10. The cutting step includes processing to form a cut portion CP that intersects the auxiliary seal portion 45 and that passes through the first film member 1, a first subsection 22A, a second subsection 22B, a first main section 21A, and a second main section 21B. Such a configuration makes it possible to improve the external shape of the pouch container while maintaining its airtightness.
A plastic label is provided having a substrate film, an ink layer, and a coating layer interposed between the substrate film and the ink layer. The coating layer contains a first resin and a second resin, the first resin being an acrylic-acid copolymer resin having a first glass transition temperature and the second resin being an acrylic-acid copolymer resin having a second glass transition temperature that is lower than the first glass transition temperature. An apparent acid value of the coating layer is 40 to 150 mg KOH/g or less, and a total content percentage of the first resin and the second resin in the coating layer is 50 to 95 parts by mass.
B32B 27/08 - Layered products essentially comprising synthetic resin as the main or only constituent of a layer next to another layer of a specific substance of synthetic resin of a different kind
A pouch includes a packaging bag including a front surface sheet, a back surface sheet, a bottom surface sheet, and a top surface sheet and a spout. The packaging bag includes a pair of side seal portions, a front bottom seal portion, a back bottom seal portion, a front top seal portion, and a back top seal portion. At least one of the pair of side seal portions includes a side enclosing portion in which a gas is enclosed, the side enclosing portion having an elongated shape in a height direction. At least one of the front top seal portion or the back top seal portion includes a top enclosing portion in which a gas is enclosed, the top enclosing portion having an elongated shape in a width direction.
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
65.
LABELED PULP MOLD AND METHOD FOR PRODUCING LABELED PULP MOLD
A labeled pulp mold (1A) is provided with a pulp mold (2A) and a label (3) attached to the pulp mold (2A). The label (3) is attached only to a part of a face of the pulp mold (2A) on which the label (3) is attached, in a shape following a surface shape of the pulp mold (2A). The pulp mold (2A) includes a first portion composed of a curved face curved in a plurality of directions. The drawing rate of the label (3) attached to the first portion is 10-50%, inclusive. There is no unevenness between the portion where the label (3) is attached and a portion where the label (3) is not attached.
B32B 29/00 - Layered products essentially comprising paper or cardboard
B65D 1/00 - Rigid or semi-rigid containers having bodies formed in one piece, e.g. by casting metallic material, by moulding plastics, by blowing vitreous material, by throwing ceramic material, by moulding pulped fibrous material or by deep-drawing operations performed on sheet material
D21J 3/00 - Manufacture of articles by pressing wet fibre pulp, or papier-mâché, between moulds
66.
POUCH CONTAINER MANUFACTURING METHOD AND MANUFACTURING DEVICE
The purpose of the present invention is to make it possible to configure a small manufacturing device capable of mass-producing pouch containers provided with spout-equipped top gussets. In the present invention, a plurality of pouch containers 100A are continuously manufactured using a single belt-form film member 120 that includes a plurality of portions serving as top gussets, and a plurality of tube-shaped sheet film members 110 that each include a portion serving as a body part, as materials. A holding mechanism 90 moves back and forth along the transportation direction of the belt-form film member 120, holds the belt-form film member 120 during the forward movement, and releases the hold during the return movement. The portion serving as the top gusset part in the belt-form film member 120, which corresponds to the portion held by the holding mechanism 90, is cut out at a time after the feeding of the belt-form film member 120 by a feeding mechanism 12 has stopped and before the holding of the belt-form film member 120 by the holding mechanism 90 is released. During the return movement of the holding mechanism 90, the belt-form film member 120 is held by a stopper mechanism 16 so as to be incapable of moving.
Provided is a shrink film in which a biomass-derived polystyrene resin is used and which has exceptional shrink finishing properties. This shrink film has thermal shrinkage properties mainly in one direction, the shrink film including a styrene-butadiene copolymer that has constituent units derived from biomass-derived styrene monomers, and being such that the content proportion of a resin that has a Vicat softening temperature of 75-90°C (inclusive) relative to the entire mass of the shrink film is 45 mass% or greater.
C08L 25/10 - Copolymers of styrene with conjugated dienes
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
Provided are a label with which it is possible to shield laser printing on the inside of the label from the outside of the label and to clearly confirm laser printing from the inside of the label, and a method for producing the label. This label (1) comprises a base material (11), an first intermediate layer (13) on the base material (11), a second intermediate layer (14) on the first intermediate layer (13), and a color-developing layer (15) on the second intermediate layer (14). The color-developing layer (15) is capable of exhibiting chromogenic display due to irradiation with a laser beam. The first intermediate layer (13) is capable of shielding chromogenic display in the color-developing layer (15) from the base-material (11) side. The second intermediate layer (14) is capable of heightening the visibility of chromogenic display in the color-developing layer (15) from the color-developing-layer (15) side.
Provided are a shrink label and a shrink lable segregation method, with which it is possible to improve segregation accuracy. A shrink label (11) comprises a heat-shrinkable substrate (101), and a coating film (110) on the substrate (101). The coating film (110) has a light producing layer (110a) including a light storing pigment, and the light emission time period of the light storing pigment after heat-shrinking of the shrink label (11) can be configured to be longer than the light emission time period of the light storing pigment before heat-shrinking of the shrink label (11).
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
The present invention saves a space in the arrangement direction of a plurality of winding bodies. A delivery part 30 delivers a band-like object 21 from a single winding body 20 among a plurality of first winding bodies 20A and a plurality of second winding bodies 20B. A rear end holding part 40 can hold a rear end section 23 in the delivery direction of the band-like object 21 delivered by the delivery part 30. The plurality of first winding bodies 20A can move relative to the rear end holding part 40 in an axial direction D1. The plurality of second winding bodies 20B can move relative to the rear end holding part 40 in the axial direction D1. The plurality of first winding bodies 20A and the plurality of second winding bodies 20B move relative to the rear end holding part 40 in the axial direction D1 so as not to come into contact with each other, and thus the rear end section 23 held by the rear end holding part 40 and a front end section 22 of one winding body 20 among the plurality of first winding bodies 20A and the plurality of second winding bodies 20B can connect to each other.
A method for manufacturing a container with a label is provided with: a step for readying a label (20) including a cylindrical film substrate (30) that has one end (31) and the other end (32) in the axial direction, and a joining part (40) partially joining the inner surface of the film substrate (30) on the one end (31) side so as to form channels (50); and a step for covering a container (10) with the label (20). A self-stretchable film is used as the film substrate (30). In the step for covering the container (10) with the label (20), the container (10) is covered with the label (20) so that the label (20) at the portion located on the side of the other end (32) of the film substrate (30) includes a portion attached so as to be in contact with the container (10), and a gap communicating through the channels (50) to the exterior of the label is formed between the container (10) and the label (20) at the portion located on the side of the one end (31) of the film substrate (30).
G09F 3/06 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion by clamping action
74.
METHOD FOR MANUFACTURING CONTAINER WITH LABEL AND CONTAINER WITH LABEL
This method for manufacturing a container with a label comprises: a step of preparing a cylindrical label (20); and a step of coating a container with the label (20). The step of preparing the label (20) includes a step of preparing a cylindrical film base material (30) in which a portion positioned on a first end side and a portion positioned on a second end side are joined together by a first joining part about a shaft and first surfaces (30a) facing each other are joined together by a second joining part (52) on an end (36) side positioned on the other end (22) side of the label (20). The step of coating the container with the label (20) includes a step of reversing the cylindrical film base material (30). In the step of reversing the cylindrical film base material (30), a first folding-back part (37) folded back so as to be directed to one end (21) side of the label (20) and a second folding-back part (38) folded back so as to be directed to the one end (21) side of the label (20) are formed.
G09F 3/06 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion by clamping action
75.
METHOD FOR PRODUCING SHEET MATERIAL CONTAINER FILLED WITH CONTENT
The present invention is a method for producing a sheet material container (300) filled with a content, wherein the sheet material container (300) filled with a content is provided with a containing region (17), in which a content (18) is contained, and a container main body (20) which surrounds the containing region (17), while being configured from a main body constituting sheet material (21). This method comprises a step wherein the containing region (17) is filled with the content (18) through a filling port (91) for charging the containing region (17) with the content (18); and this filling step comprises a contact filling step wherein a stopper member (210) is brought into contact with the filling port (91) so that the content (18) is charged through the stopper member (210) in a state where the filling port (91) is closed by the stopper member (210).
B65B 3/18 - Controlling escape of air from containers or receptacles during filling
B65B 39/04 - Nozzles, funnels or guides for introducing articles or materials into containers or wrappers having air-escape, or air-withdrawal, passages
76.
APPARATUS FOR ATTACHING A SHRINKABLE LABEL ON A PRODUCT AND METHOD FOR ATTACHING A SHRINKABLE LABEL ON A PRODUCT
Apparatus for attaching a shrinkable label (10) on a product (12) and method for attaching a shrinkable label (10) on a product (12). An apparatus for attaching a shrinkable label (10) on a product (12) placed on a conveyor (14), by irradiating light onto the shrinkable label (10), comprises two sets of light emitters (16) which are arranged opposite each other on both sides of the conveyor (14) along a defined length of the conveyor (14) to form an irradiation volume through which the conveyor (14) passes. The light emitters (16) are configured to emit directed light bundles (18) into the irradiation volume in different directions (20a - 20d). In a plan view of the apparatus, the directions (20a - 20d) of the light bundles (18) intersect with a longitudinal central axis (22) of the conveyor (14). The intersection points (24a - 24d) of the directions (20a - 20d) of the light bundles (18) emitted from the light emitters (16) on a same side of the conveyor (14) with the longitudinal central axis (22) of the conveyor (14) differ from each other.
The present invention provides: a label, from which an ink layer can be removed efficiently; a method for removing the ink layer from the label; and a method for manufacturing the label. A label (11) comprises; a substrate (101); an alkali-soluble coating layer (102) which is on the substrate (101); and an ink layer (103) which is on the coating layer (102). The coating layer (102) or the ink layer (103) contains a material which emits light when irradiated with an energy ray.
A method of activating the shrink characteristic of multi-layered film (1), the method comprising the steps of providing a multi-layered film comprising at least a base layer film (2) that comprises a shrinkable film, a photothermic layer (3), associated with the base layer film, and comprising a photothermic material, exposing the multi-layered film (1) to electromagnetic radiation in order for the photothermic material to generate heat and shrink the multi-layered film (1), wherein the electromagnetic radiation comprises UV-light having a peak wavelength between 200 nm and 399 nm, and at least 90% of the UV-light is within a bandwidth of ±30 nm of the peak wavelength.
B29C 63/42 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor by liberation of internal stresses using tubular layers or sheathings
B65B 53/02 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat
B29C 63/40 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor by liberation of internal stresses using sheet or web-like material
B32B 27/08 - Layered products essentially comprising synthetic resin as the main or only constituent of a layer next to another layer of a specific substance of synthetic resin of a different kind
The present invention provides a method for efficiently removing an ink layer. This method comprises: a step for immersing a shrink label piece 71, which is provided with an alkali-removable ink layer, into an alkali solution 80; and a step for immersing the shrink label piece 71, which has been immersed into the alkali solution 80, into water 90. In the water immersion step, the ink layer 93 is removed from the shrink label piece 71 by stirring the shrink label piece 71.
Provided is a container with a label that can be efficiently reused. In the container with a label in which a label is attached, the container is a polyester-based container, and the label has a substrate layer having: a first surface and a second surface facing each other; an adhesive layer attaching the first surface of the substrate layer and the container to each other; a bonding layer laminated on the second surface of the substrate layer; and a printing layer located on the opposite side of the substrate layer when viewed from the bonding layer. The substrate layer is a polyester-based film, the adhesive layer is a polyester-based adhesive, and the bonding layer is soluble in at least one among warm water and an alkaline solution.
This method for manufacturing packaging for a pouch container comprises: a first folding step P9 in which are used a first body sheet material 110, a second body sheet material 120, and a top-side sheet material 130; a first cutting step P11 in which the top-side sheet material 130, a second auxiliary region 1220, a first main region 1110, and a first auxiliary region 1120 are cut along a first cutting line CL that crosses from a portion where the top-side sheet material 130 and the second auxiliary region 1220 overlap across a first boundary line 1130 on the z-direction bottom side; a second folding step P12; and a second cutting step P14 in which the top-side sheet material 130, the first auxiliary region 1120, the first main region 1110, and a second main region 1210 are cut along a second cutting line CL2 that crosses from a portion where the top-side sheet material 130 and the first auxiliary region 1120 overlap across a second boundary line 1230 on the z-direction bottom side and that intersects a first outline OL1 formed in the first cutting step P11, whereby a top-side sheet 13 is formed from the top-side sheet material 130. Due to this configuration, the degree of freedom in forming a top-side sheet can be further enhanced.
A plurality of pouch containers are continuously manufactured from materials including: a plurality of separate-type tubular film members each including a portion to be formed as a barrel portion; and a single first belt-shaped film member and a single second belt-shaped film member each including a plurality of portions each to be formed as a gusset portion. The step of closing an opening end of each of the separate-type tubular film members includes: supplying the belt-shaped film member to the opening end by conveying the belt-shaped film member in parallel with the separate-type tubular film members at the same speed as a conveyance speed of the separate-type tubular film members, to cause the belt-shaped film member to overlap with an opened joining margin of each of the separate-type tubular film members; and joining the joining margin to a portion of the belt-shaped film member that overlaps with the joining margin.
B65D 75/00 - Packages comprising articles or materials partially or wholly enclosed in strips, sheets, blanks, tubes or webs of flexible sheet material, e.g. in folded wrappers
B65D 75/58 - Opening or contents-removing devices added or incorporated during package manufacture
83.
METHOD OF MAKING A SLEEVE FOR COVERING RECEPTACLE, AND APPARATUS FOR MAKING THE SLEEVE
Disclosed is a method of making a sleeve for covering a receptacle, from a strip (36) of flexible tubular material, wherein the sleeve has a given length measured from a first end to a second end, being measured in the longitudinal direction of the strip, comprising: puncturing the strip (36) to form a puncture being spaced apart from the first end and from the second end.
B29C 63/42 - Lining or sheathing, i.e. applying preformed layers or sheathings of plasticsApparatus therefor by liberation of internal stresses using tubular layers or sheathings
B65B 9/10 - Enclosing successive articles or quantities of material, in preformed tubular webs, or in webs formed into tubes around filling nozzles, e.g. extruded tubular webs
84.
CONVEYING SYSTEM AND METHOD OF CONVEYING A PLURALITY OF PRODUCTS
Disclosed is a conveying system comprising: a track (2), a plurality of carriages (4) to be conveyed on the track (2), each carriage comprising: a main body which is held along the track (2); and a receptacle rotatably supported by the main body and configured for receiving a product, and further comprising a receptacle-rotating member (60) which is configured to advance, at a defined advancing speed, along a region provided at at least a portion of the track (2), and to control the rotational orientation of the carriage's receptacles; wherein each carriage can be in engagement, via its receptacle, with the receptacle-rotating member (60).
B65G 47/244 - Devices influencing the relative position or the attitude of articles during transit by conveyors orientating the articles by turning them about an axis substantially perpendicular to the conveying plane
B65C 9/04 - Devices for moving articles, e.g. containers, past labelling station having means for rotating the articles
B65G 54/02 - Non-mechanical conveyors not otherwise provided for electrostatic, electric, or magnetic
85.
Apparatus and method for heat treatment of heat shrinkable film
An apparatus for heat treatment of a heat shrinkable film includes a steam generation apparatus that generates steam, a heated air generation apparatus that generates heated air not lower in temperature than steam generated in the steam generation apparatus, a mixed gas generator that generates mixed gas not lower in temperature than steam generated in the steam generation apparatus by mixing steam generated in the steam generation apparatus and heated air generated in the heated air generation apparatus, a reheating apparatus that generates superheated steam by reheating mixed gas generated in the mixed gas generator, and a supply portion that supplies superheated steam generated in the reheating apparatus to a heat treatment chamber.
B65B 53/06 - Shrinking wrappers, containers, container covers or container cover securing members during or after packaging by heat supplied by gases, e.g. hot-air jets
B65C 3/16 - Affixing labels to short rigid containers to container bodies the container being positioned for labelling with its centre-line vertical by rolling the labels onto cylindrical containers, e.g. bottles
In the present invention, in relation to a small-capacity, thin pouch container comprising a spout part, the upper end side portion of a body part thereof is prevented from folding downward when the pouch container is set down. A pouch container 1 according to the present invention comprises a body part 10, a bottom gusset part 50, and a spout part 90. The spout part 90 is provided to the upper end 10U of the body part 10, and a spout opening 93 is disposed so as to face at least upward U. The width-direction lengths W110, W120 of each of a first wall part 110 and a second wall part 120 are 35-100 mm. The vertical-direction lengths H110, H120 of each of the first wall part 110 and the second wall part 120 are 80-200 mm. The thickness of each of a body part film that constitutes the body part 10 and a bottom gusset film that constitutes the bottom gusset 50 is 64-150 μm. The mass of the spout part 90 is 0.9-1.5 g.
Provided is a long printed matter in which an image of a design printing part is finely expressed by letterpress printing. The long printed matter A comprises: a long strip-shaped web 1; a design row including a plurality of design printing parts 2 repeatedly printed by letterpress in a longitudinal direction of the web 1, the design row being arranged in two rows or more in a widthwise direction of the web 1; and a bearer bar printing part 3 that is arranged adjacent to any one of the design rows and extends in the longitudinal direction. The design printing part 2 has a first ink printing part 21 in which first ink is printed by letterpress and a second ink printing part 22 in which second ink is printed by letterpress. The bearer bar printing part 3 has a first bar part 31 in which the first ink is printed by letterpress and a second bar part 32 in which the second ink is printed by letterpress. A width 31W of the first bar part 31 is larger than a width 32W of the second bar part 32.
B41N 1/16 - Curved printing plates, especially cylinders
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
Provided is a shrink label raw material in which solid printing part is finely expressed by letterpress printing. The shrink label raw material comprises: a long strip-shaped thermal shrinkage film 1; a design row including a plurality of design printing parts 21 and 22 repeatedly printed in a longitudinal direction of the thermal shrinkage film 1 and transparent parts 41 and 42 arranged between the respective design printing parts 21 and 22 and extending in a widthwise direction, the design row having design rows X1 and X2 arranged in two rows or more in the widthwise direction of the thermal shrinkage film 1. In the first design row X1 and the second design row X2 adjacent to each other in the widthwise direction, the transparent parts 41 of the first design row X1 and the transparent pars 42 of the second design row X2 are discontinuous in the widthwise direction.
G09F 3/04 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps to be fastened or secured by the material of the label itself, e.g. by thermo-adhesion
The present invention provides a method for efficiently removing an ink layer. This method for removing an ink layer from a shrink label s provided with: a step for preliminarily heating a shrink label 11 that is provided with an ink layer; a step for forming shrink label pieces 71 by fracturing the shrink label 11 after the step for preliminary heating; and a step for removing ink layers from the shrink label pieces 71 by means of alkali desorption. The temperature of the preliminary heating is equal to or higher than the temperature of the alkali desorption.
C08J 11/14 - Recovery or working-up of waste materials of polymers by chemically breaking down the molecular chains of polymers or breaking of crosslinks, e.g. devulcanisation by treatment with steam or water
B29B 17/02 - Separating plastics from other materials
90.
PACKAGE BODY FOR POUCH CONTAINER AND POUCH CONTAINER PACKAGE
The present invention provides a package body for a pouch container and a pouch container package that make it possible to more reliably unseal a container body. The package body A1 for a pouch container is provided with a container body 1 having a top sheet 12 blocking the top side thereof and a spout 2 that is fixed to the outer surface of the top sheet 12 and includes a pouring space 21 extending in the axial direction. The spout 2 includes a fixed section 3 fixed to the top sheet 12, a rotating section 4 capable of rotating relative to the fixed section 3, and a slitting section 410 for slitting the top sheet 12. The top sheet 12 has a flat section 125 that is flat when the fixed section 3 is fixed thereto. The slitting section 410 is positioned apart from the flat section 125 when in an initial state and slits the flat section 125 by moving while rotating in the direction leading from the outer surface of the flat section 125 toward the inner surface together with rotation of the rotating section 4.
B65D 75/62 - Cuts or perforations, e.g. in closure seams
B65D 51/22 - Caps, lids, or covers co-operating with an inner closure arranged to be opened by piercing, cutting, or tearing having means for piercing, cutting, or tearing the inner closure
91.
POUCH-CONTAINER PACKAGING MATERIAL AND POUCH-CONTAINER PACKAGING BODY
The present invention provides a pouch-container packaging material and a pouch-container packaging body with which a packaged object can be more reliably poured out through pressurization. Provided is a pouch-container packaging material A1 that includes: a pair of body sheets 1A, 1B that define a containment space 19 for containing 《MK2》an object 6 to be packaged《/MK2》; an opening section 18 that is provided at one side of the pair of body sheets 1A, 1B in the z-direction; an outlet part 5 that is provided at the other side of the pair of body sheets 1A, 1B in the z-direction with respect to the opening section 18; and, at a position closer to the other side in the z-direction than the opening section 18 is, an opening and closing part 2 that puts the containment space 19 in a closed state and in an open state. The pouch-container packaging material A1 includes: a locking band part 3 that is fixed to the pair of body sheets 1A, 1B at a pair of fixing sections 31 apart from each other in the width direction (x-direction) perpendicular to the y-direction, in which the pair of body sheets 1A, 1B face, and the z-direction and that forms an insertion space 39 between the locking band part 3 and an outer surface of one of the pair of body sheets 1A, 1B; and locking parts 11 that are formed of at least one of the pair of body sheets 1A, 1B and that are locked to the locking band part 3 when the pair of body sheets 1A, 1B are inserted into the insertion space 39 in a state of being folded.
A shrink label (20) for application to a bottle (12) and a cap (16) is provided to maintain the position of the cap relative to the bottle. The shrink label includes an interior surface (29) defining an opening (27) therethrough, a first adhesive strip (22) extending circumferentially about the interior surface of the shrink label, and a second adhesive strip (24) spaced a distance above the first adhesive strip and extending circumferentially about the interior surface of the shrink label. The first adhesive strip is aligned with a portion of the bottle and the second adhesive strip is aligned with a side portion of the cap such that an intersection point between the bottle and the cap is positioned between the first adhesive strip and the second adhesive strip. A perforation line (26) can be included on the shrink label above the second adhesive strip for removal of the shrink label.
A shrink label (20) includes a first end surface (23), a second end surface (21), and a puncture (27, 127, 227) extending along a portion of the shrink label (20) between the first and second end surfaces (21, 23) such that the puncture (27, 127, 227) is spaced a first distance (d1) away from the first end surface (23) and the puncture (27, 127, 227) is spaced a second distance (d2) away from the second end surface (21). The puncture (27, 127, 227) is expandable to form an opening (29) when the shrink label (20) shrinks from an open state to a shrunk state.
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
Goods & Services
Plastic films for packaging; Plastic films for wrapping and packaging; Polyester shrink sleeve films used for labeling of bottles and cans. Polyester films for use in the manufacture of labels; plastic shrink sleeve, namely heat-shrinkable tubular film.
[Problem] To prevent delamination of a film layer in a sheet material container in which an encapsulation part is formed between a first film layer and a second film layer. [Solution] The present invention comprises a container body 6, and an inner container 7 covered with the container body 6 and defining a storage space, wherein: the container body 6 is formed of a sheet material 3 including a first film layer 1 and a second film layer 2 disposed inside the first film layer 1; the sheet material 3 has a joint part 32 in which the first film layer 1 and the second film layer are joined to each other, and an encapsulation part 51 with which a filler can be encapsulated between the first film layer 1 and the second film layer 2; and the first film layer 1 has, on a side facing the encapsulation part 51, an extruded multilayer structure part of a polyolefin resin layer11/ethylene-vinyl alcohol copolymer resin layer 12.
16 - Paper, cardboard and goods made from these materials
Goods & Services
Plastic films for packaging; Plastic films for wrapping and packaging; Polyester shrink sleeve films used for labeling of bottles and cans; plastic shrink sleeve films used for labeling of bottles and cans
A plastic label is provided having a substrate film, an ink layer, and a coating layer interposed between the substrate film and the ink layer. The coating layer contains a first resin and a second resin, the first resin being an acrylic-acid copolymer resin having a first glass transition temperature and the second resin being an acrylic-acid copolymer resin having a second glass transition temperature that is lower than the first glass transition temperature. An apparent acid value of the coating layer is 40 to 150 mg KOH/g or less, and a total content percentage of the first resin and the second resin in the coating layer is 50 to 95 parts by mass.
B32B 27/08 - Layered products essentially comprising synthetic resin as the main or only constituent of a layer next to another layer of a specific substance of synthetic resin of a different kind
A web joining device (30) is provided with: a first conveyance mechanism; a second conveyance mechanism; a joining mechanism (340); a first detection unit (317) that detects a terminal of a first web; a second detection unit (328) that detects a tip of a second web; and a movement information detection unit (350) that detects movement information on the first web. The second conveyance mechanism causes the second web of which the tip has been detected by the second detection unit (328) to be on standby. When the terminal of the first web is detected by the first detection unit (317), the first conveyance mechanism and the second conveyance mechanism convey the first web and the second web so that the terminal of the first web and the tip of the second web are continuous in this order at a joining position (P1) on the basis of a detection result of the movement information detection unit (350). The joining mechanism (340) affixes a joining tape so as to spread over the terminal of the first web and the tip of the second web that are continuous at the joining position (P1).
The present disclosure relates to a discharge apparatus for discharging an assembly of interconnected guiding elements, having a support having at least one support section configured to support the assembly of interconnected guiding elements and the flexible pouch containers carried therein; a gripping unit configured to grip a first guiding element of the guiding element assembly and displace the first guiding element together with one or more interconnected further guiding elements of the guiding element assembly in a transport direction substantially perpendicular to the lengthwise direction of the first guiding element; and a disconnection unit configured to disconnect at least the gripped and displaced first guiding element from a neighboring second guiding element, the disconnection unit having a movable wedge and a wedge drive unit configured to move the wedge between the first and second guiding elements, thereby disconnecting the first guiding element from the second guiding element.
B65B 43/16 - Feeding individual bags or carton blanks from piles or magazines by grippers
B65G 47/90 - Devices for picking-up and depositing articles or materials
100.
Method for manufacturing intermediate material for soft packaging container, method for manufacturing soft packaging container, and method for manufacturing soft packaging container packaging body
A method for manufacturing an intermediate material for a soft packaging container according to the present invention includes: a first overlaying step P1 of laying a second raw film sheet 120 over a first raw film sheet 110; a confining portion forming step P2 of forming a filler confining portion 50 for confining a filler 59, the filler confining portion 50 being constituted by a non-joined region between the first raw film sheet 110 and the second raw sheet 12, by joining a portion of the first raw film sheet 110 and a portion of the second sheet 12 to each other; a folding step P4 of folding the first raw film sheet 110 and the second sheet 12 with the first raw film sheet 110 on an outer side, such that the filler confining portion 50 is present in a state where an inner portion thereof is continuous on two sides that are connected via at least one folding position; an accommodating portion forming step P5 of forming an accommodating portion 60 by joining a plurality of portions including at least one of the first raw film sheet 110 and the second sheet 12; and a cutting step P6 of forming an intermediate material A1 for a soft packaging container by cutting at least the first raw film sheet 110. This configuration makes it possible to more readily and reliably manufacture a soft packaging container that has a filler confining portion in more regions.
