06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
Common metals and their alloys, ores of metal; metal
materials for building and construction; buildings,
transportable, of metal; non-electric cables and wires of
common metal; metal hardware; metal containers for storage
or transport; tubes of metal. Machine tools, power operated tools; motors, other than for
land vehicles; machine clutches and transmission components
other than for land vehicles; agricultural implements, other
than hand-operated; drum motors; geared motors; machine
parts in the form of stainless steel machine shoes for
adjustment, stabilization and vibration damping of all types
of machines and adjustable feet/legs for machines; bearing
housings [machine parts]; machine wheels; cleaning units,
for use in relation to belt conveyors; parts for conveyor
belts; handles for machines. Unprocessed and semi-processed rubber, guttapercha, gum,
asbestos, mica and substitutes for all these materials;
plastics in extruded form and resins in extruded form, for
use in manufacture; packing, stopping and insulating
materials; flexible tubes and hoses, not of metal. Construction services; repair and installation services in
relation to machines, machine tools, electric tools, engines
other than for land vehicles, clutches and transmission
parts other than for land vehicles, agricultural implements
other than hand-operated, drum motors, geared motors, parts
of machinery, bearing housings for machinery, wheels for
machinery, cleaning units for conveyor belts, parts for
conveyor belts, handles for machinery.
The present invention relates to a bearing housing (1) comprising at least two bearing housing elements (2,3) having at least one cut-out (4) suitable for receiving a bearing (5), wherein the at least two bearing housing elements (2, 3) are separated from each other by a first sealing (6).
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
F16C 35/04 - Rigid support of bearing unitsHousings, e.g. caps, covers in the case of ball or roller bearings
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
Products of metal for the adjustment, stabilization and vibration reduction of all kinds of machines and equipment, namely frames, racks, nuts, washers, threaded bushings, bolts, plates, pipes and tubes of metal, none of the foregoing being parts of machines. Parts of machines, namely, products of metal for the adjustment, stabilization and vibration reduction of all kinds of machines and equipment, namely, stainless steel machine feet and legs, machinery mounts and pads, leveling pads, frames and racks, welding and foot plates, bases. Rubber and plastic products for the adjustment, stabilization and vibration reduction of all kinds of machines and equipment, namely, machine feet and legs sold separately from machines and not being parts of machines, and packing, stopping and insulating materials, flexible pipes, not of metal. Repair and installation services, the aforementioned services in connection with products for the adjustment, stabilization, and vibration reduction of all kinds of machines and equipment.
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
(1) Common metals and their alloys, ores of metal; metal materials for building and construction; buildings, transportable, of metal; non-electric cables and wires of common metal; metal hardware; metal containers for storage or transport; tubes of metal.
(2) Machine tools, power operated tools; motors, other than for land vehicles; machine clutches and transmission components other than for land vehicles; agricultural implements, other than hand-operated; drum motors; geared motors; machine parts in the form of stainless steel machine shoes for adjustment, stabilization and vibration damping of all types of machines and adjustable feet/legs for machines; bearing housings [machine parts]; machine wheels; cleaning units, for use in relation to belt conveyors; parts for conveyor belts; handles for machines.
(3) Unprocessed and semi-processed rubber, guttapercha, gum, asbestos, mica and substitutes for all these materials; plastics in extruded form and resins in extruded form, for use in manufacture; packing, stopping and insulating materials; flexible tubes and hoses, not of metal. (1) Construction services; repair and installation services in relation to machines, machine tools, electric tools, engines other than for land vehicles, clutches and transmission parts other than for land vehicles, agricultural implements other than hand-operated, drum motors, geared motors, parts of machinery, bearing housings for machinery, wheels for machinery, cleaning units for conveyor belts, parts for conveyor belts, handles for machinery.
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
Common metals and their alloys, minerals of metal; Metal materials for building and construction; Buildings, transportable, of metal; Non-electric cables and wires of common metal; Metal hardware; Metal containers for storage or transport; Tubes of metal. Tools for machines, Power operated tools; Motors, other than for land vehicles; Machine coupling and transmission components (except for land vehicles); Agricultural implements, other than hand-operated; Barrel engines; Planetary geared motors; Machine parts in the form of stainless steel machine shoes for adjustment, stabilization and vibration damping of all types of machines and adjustable feet/legs for machines; Bearing housings [machine parts]; Machine wheels; Cleaning units, for use in relation to the following goods: Belt conveyors; features of conveyor belts; Handles for machines. Unprocessed and semi-processed rubber, guttapercha, gum, asbestos, mica and substitutes for all these materials; Plastics in extruded form and Resins in extruded form, for use in manufacture; Packing, stopping and insulating materials; Flexible tubes and hoses, not of metal. Construction services; Repair and installation services in relation to machines, machine tools, electric tools, engines other than for land vehicles, clutches and transmission parts other than for land vehicles, agricultural implements other than hand-operated, drum motors, geared motors, parts of machinery, bearing housings for machinery, wheels for machinery, cleaning units for conveyor belts, parts of conveyor belts, handles for machinery.
An innovative washing and also sanitizing device (10a, 10b) for a conveyor belt (200), which can be easily integrated into the supporting structure (201) as an accessory, being composed of two parallel spray bars (101, 102) with aligned atomizing nozzles (104) which are joined on only one side to a riser for the supply of the fluids (103, 130), forming a tubular fork-like structure. The upper spray bar (101) has a preassembled fixing group (106), of the clamp tightening type where a flat bracket (110) is interposed and protrudes to be fixed to a side rail (201, 204) in the proximity of the belt (200), after inserting the spray bars (101, 102) on one side, thus fixing the entire device (10a, 10b) in an integral and reversible way. The lower spray bar (102) is self-supporting in an oscillating way (133) and is connected with a swivelling connection (103, 105) to direct the nozzles as needed.
An innovative washing and also sanitizing device (10a, 10b) for a conveyor belt (200), which can be easily integrated into the supporting structure (201) as an accessory, being composed of two parallel spray bars (101, 102) with aligned atomizing nozzles (104) which are joined on only one side to a riser for the supply of the fluids (103, 130), forming a tubular fork-like structure. The upper spray bar (101) has a preassembled fixing group (106), of the clamp tightening type where a flat bracket (110) is interposed and protrudes to be fixed to a side rail (201, 204) in the proximity of the belt (200), after inserting the spray bars (101, 102) on one side, thus fixing the entire device (10a, 10b) in an integral and reversible way. The lower spray bar (102) is self-supporting in an oscillating way (133) and is connected with a swivelling connection (103, 105) to direct the nozzles as needed.
The present invention relates to a bearing house comprising a bearing house body for holding a bearing; a shield forming a shaft insertion for inserting a shaft into the bearing house, and at least one conducting element providing an electrical connection between the inside of the bearing house body to an outside material.
F16C 35/00 - Rigid support of bearing unitsHousings, e.g. caps, covers
F16C 19/52 - Bearings with rolling contact, for exclusively rotary movement with devices affected by abnormal or undesired conditions
F16C 23/00 - Bearings for exclusively rotary movement adjustable for aligning or positioning
F16C 23/08 - Ball or roller bearings self-adjusting
F16C 35/077 - Fixing them on the shaft or housing with interposition of an element between housing and outer race ring
F16C 19/06 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly with a single row of balls
The present invention relates to a bearing house comprising a bearing house body for holding a bearing; a shield forming a shaft insertion for inserting a shaft into the bearing house, and at least one conducting element providing an electrical connection between the inside of the bearing house body to an outside material.
F16C 19/06 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly with a single row of balls
F16C 19/52 - Bearings with rolling contact, for exclusively rotary movement with devices affected by abnormal or undesired conditions
F16C 23/00 - Bearings for exclusively rotary movement adjustable for aligning or positioning
F16C 23/08 - Ball or roller bearings self-adjusting
F16C 35/00 - Rigid support of bearing unitsHousings, e.g. caps, covers
F16C 35/077 - Fixing them on the shaft or housing with interposition of an element between housing and outer race ring
The present invention relates to a bearing house (1) comprising a bearing house body (2) for receiving a rotating shaft, and two or more bearing house feet (4) for attaching the bearing house (1) to a base (10), wherein each of the two or more bearing house feet (4) extends from the bearing house body (2) by the means of an arm (6).
The present invention relates to a bearing house (1) comprising a bearing body (2) for holding a bearing (3); and a shield (4) forming a shaft insertion (6) for inserting a shaft into the bearing house (1), the shield (4) is formed with a spherical outer surface (4a) which is movable in contact with the bearing house body (2) and the shield (3) rests on the bearing (3) when installed in the bearing house body (2).
The present invention relates to a castor wheel structure, comprising a wheel part (18) and a castor wheel house (28), on which a transition element can be mounted, such as a spindle structure (1) or a flange structure (2), which again can be mounted on equipment that is to be made mobile, which wheel part (18) is unilaterally suspended and arranged about a substantially horizontal shaft on the castor wheel house (28).
The present invention relates to a bearing house (1) comprising a bearing body (2) for holding a bearing (3); and a shield (4) forming a shaft insertion (6) for inserting a shaft into the bearing house (1), the shield (4) is formed with a spherical outer surface (4a) which is movable in contact with the bearing house body (2) and the shield (3) rests on the bearing (3) when installed in the bearing house body (2).
F16C 17/14 - Sliding-contact bearings for exclusively rotary movement characterised by features not related to the direction of the load specially adapted for operating in water
F16C 17/10 - Sliding-contact bearings for exclusively rotary movement for both radial and axial load
The present invention relates to a bearing house (1) comprising a bearing house body (2) for receiving a rotating shaft, and two or more bearing house feet (4) for attaching the bearing house (1) to a base (10), wherein each of the two or more bearing house feet (4) extends from the bearing house body (2) by the means of an arm (6).5
F16C 35/02 - Rigid support of bearing unitsHousings, e.g. caps, covers in the case of sliding-contact bearings
F16C 35/04 - Rigid support of bearing unitsHousings, e.g. caps, covers in the case of ball or roller bearings
F16C 17/02 - Sliding-contact bearings for exclusively rotary movement for radial load only
F16C 19/04 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly
F16C 19/24 - Bearings with rolling contact, for exclusively rotary movement with bearing rollers essentially of the same size in one or more circular rows, e.g. needle bearings for radial load mainly
20.
HYGIENIC UNIT, SYSTEM, AND METHOD FOR MONITORING OPERATION OF MACHINES
The present invention relates to a system and a method used to monitor machines or product lines, both during installation and during normal operation. The system comprises a plurality of smart hygienic units such as smart feet, smart bearings and/or smart castors, which hygienic units comprises sensors providing information in real time during operation. In particular, the invention relates to a hygienic unit for a machine used in clean production such as food/beverage production, pharmaceutical production, or production of medical devices, which hygienic unit comprises fastening means (4) for fixing the hygienic unit to the machine, and during operation of the machine the hygienic unit is fixed to the machine. The hygienic unit comprises an inner isolated space (3) and an outer or exposed surface (2) constructed according to general criteria for hygienic design i.e., the outer or exposed surface is amongst other smooth without crevices, or openings or the like, and the hygienic unit comprises one or more primary sensors (5) configured to measure temperature at an outer or exposed surface of the hygienic unit, and one or more secondary sensors (5) configured to measure moisture and/or coating at an outer or exposed surface of the hygienic unit.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
The present invention relates to a bearing house (1) comprising a bearing house body (2) for receiving a rotating shaft, and two or more bearing house feet (4) for attaching the bearing house (1) to a base (10), wherein each of the two or more bearing house feet (4) extends from the bearing house body (2) by the means of an arm (6).5
F16C 35/02 - Rigid support of bearing unitsHousings, e.g. caps, covers in the case of sliding-contact bearings
F16C 19/04 - Bearings with rolling contact, for exclusively rotary movement with bearing balls essentially of the same size in one or more circular rows for radial load mainly
F16C 19/24 - Bearings with rolling contact, for exclusively rotary movement with bearing rollers essentially of the same size in one or more circular rows, e.g. needle bearings for radial load mainly
The present invention relates to a bearing house (1) comprising a bearing body (2) for holding a bearing (3); and a shield (4) forming a shaft insertion (6) for inserting a shaft into the bearing house (1), the shield (4) is formed with a spherical outer surface (4a) which is movable in contact with the bearing house body (2) and the shield (3) rests on the bearing (3) when installed in the bearing house body (2).
F16C 17/14 - Sliding-contact bearings for exclusively rotary movement characterised by features not related to the direction of the load specially adapted for operating in water
F16C 33/20 - Sliding surface consisting mainly of plastics
A levelling apparatus with an integrated load cell, said levelling apparatus being of the type comprising a spindle for fastening into an apparatus such as a machine, said spindle being connected to a lower part that is adapted for contact with a basis such as a floor, said lower part comprising a housing, in which a load cell with an activation surface is located, and further comprising a load transmitting means that extends through the upper side of the lower part and constitutes the connection between the lower part and the spindle, said load transmitting means comprising a lower end surface that is adapted to come into contact with the activation surface of the load cell, and an upper end surface that is adapted to come into fixed contact with the lower end surface of the spindle, the apparatus comprising a locking means for transport protection, which locking means comprises a nut that partially encloses the lower end of the spindle and is screwed onto an external thread on the lower end and thereby interposed between the lower end and the upper side of the lower part, the nut being capable of exerting a pressure on the lower part while still engaged with the external thread on the lower end, so that a portion of the lower part may be pressed against a lower end portion of the load transmitting means.
F16M 11/20 - Undercarriages with or without wheels
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
The present invention relates to a castor wheel structure, comprising a wheel part (18) and a castor wheel house (28), on which a transition element can be mounted, such as a spindle structure (1) or a flange structure (2), which again can be mounted on equipment that is to be made mobile, which wheel part (18) is unilaterally suspended and arranged about a substantially horizontal shaft on the castor wheel house (28).
The present invention relates to a castor wheel structure, comprising a wheel part (18) and a castor wheel house (28), on which a transition element can be mounted, such as a spindle structure (1) or a flange structure (2), which again can be mounted on equipment that is to be made mobile, which wheel part (18) is unilaterally suspended and arranged about a substantially horizontal shaft on the castor wheel house (28).
A machine foot with a built-in load cell is provided, the load cell being suspended in an overlying sheath, with the feature that the screws which hold the load cell in place in the lower part of the machine foot pass through a bottom plate and are screwed up into a fastening ring that is separate from the sheath material. A method of production of a machine foot is provided, by which a rubber resin is moulded down into the sheath of the machine foot and is vulcanized thereto, the fastening ring being embedded in the rubber resin in an area that abuts the lower side of the sheath.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
B29C 70/68 - Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts by incorporating or moulding on preformed parts, e.g. inserts or layers
Method for establishing a signal indicative of the pressure-condition in the as contact-surface befitted rubber-elastic body of a machine foot, as well as machine foot with hydrostatic pressure sensor
The invention relates to a method for the establishment of a signal which is indicative of the pressure-condition of a machine foot (1), as a fixed surface of a rubber-elastic body (5), where a load of the machine foot (1) is transferred from a cap (4) to a substrate (31) through the rubber-elastic body (5), which is pressurised by the increasing load, such that the distance between a free upper surface part (5.1) of the rubber-elastic body (5) and an immobile part (14.1) is determined by an electro-mechanical transducer (6) establishing an electrical signal corresponding to the distance which is used as the measurement for the rubber-elastic body's pressure-condition and thus the machine foot's load.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
G01L 1/14 - Measuring force or stress, in general by measuring variations in capacitance or inductance of electrical elements, e.g. by measuring variations of frequency of electrical oscillators
28.
LOCKING MEANS FOR TRANSPORT PROTECTION OF LEVELLING APPARATUS WITH INTEGRATED LOAD CELL
A levelling apparatus with an integrated load cell, said levelling apparatus being of the type comprising a spindle (1) for fastening into an apparatus such as a machine, said spindle (1) being connected to a lower part (4) that is adapted for contact with a basis such as a floor, said lower part (4) comprising a housing, in which a load cell (5) with an activation surface (Fig. 5, 5) is located, and further comprising a load transmitting means (3) that extends through the upper side of the lower part (4) and constitutes the connection between the lower part (4) and the spindle (1), said load transmitting means comprising a lower end surface that is adapted to come into contact with the activation surface (Fig. 5, 5) of the load cell, and an upper end surface that is adapted to come into fixed contact with the lower end surface of the spindle (1), the apparatus comprising a locking means for transport protection, which locking means comprises a nut (2) that partially encloses the lower end (Fig. 5, 1) of the spindle and is screwed onto an external thread on the lower end (Fig. 5, 1) and thereby interposed between the lower end (Fig. 5, 1) and the upper side of the lower part (4), the nut (2) being capable of exerting a pressure on the lower part (4) while still engaged with the external thread on the lower end (Fig. 5, 1), so that a portion of the lower part (4) may be pressed against a lower end portion of the load transmitting means (3).
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
29.
MACHINE FOOT WITH BUILT-IN LOAD CELL AND METHOD OF PRODUCTION THEREOF
Machine foot (1) with a built-in load cell (23), the load cell (23) being suspended in an overlying sheath (10), with the new feature that the screws (21) which hold the load cell (23) in place in the lower part (8) of the machine foot (1) pass through a bottom plate (22) and are screwed up into a fastening ring (20) that is separate from the sheath material. The invention also comprises a method of production of a machine foot (1), by which a rubber resin is moulded down into the sheath (10) of the machine foot (1) and is vulcanized thereto, the fastening ring (20) being embedded in the rubber resin in an area that abuts the lower side of the sheath (10).
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
30.
SEISMIC LEVELLING APPARATUS WITH PARTLY BALL-SHAPED TOP- AND BOTTOM NUT AND USE THEREOF
The invention comprises a levelling apparatus comprising a column (1) which can be mounted in a device such as a machine at an upper end (3) and which is mounted in a foot (5) at a lower end, said levelling apparatus further being provided with a fastening means (2) that by tightening can lock the position of the column (1) in relation to the foot (5), where the lower end (6) of said column (1) is inserted into the foot (5) and fastened thereto by tightening of a bottom nut (4) whose upper end (7) has a shape that is complementary to the contact surface of the foot (5) that the bottom nut (4) will touch by tightening. Furthermore, the invention comprises the use of the levelling apparatus in areas with high risk of earthquakes.
F16M 11/00 - Stands or trestles as supports for apparatus or articles placed thereon
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
31.
Levelling device with from above mounted sleeve and use
The present invention is directed to a levelling device, which includes a top part and a lower part, where there in the top part is included a spindle, which includes a thread and an external cylindrical surface, a stop item and a sleeve, which includes at least one internal stop surface and that the spindle includes at least one track in which the stop item is placed. With the invention it is achieved that it is possible to manufacture a levelling device, where the sleeve, as a result of the stop surface on the sleeve and the stop item, which is mounted in the track on the spindle cannot be screwed so high up that parts of the thread on the spindle are exposed.
F16M 11/26 - Undercarriages with or without wheels changeable in height or length of legs, also for transport only by telescoping, with or without folding
32.
PROTECTION AGAINST CONTAMINATION OF AN OPENING, DISTANCE PIECE AND METHOD FOR PROTECTION AGAINST CONTAMINATION OF AN OPENING
Prevention of contamination of an opening in an exterior surface on an elongated machine part (2). According to the invention, a flexible continuous circumferential band (3)is placed across the opening and towards the exterior surface, whereby the band either covers the opening, secures a plug in the opening or has been produced as a single piece with a plug that fits in, the opening in an interlocking manner.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
METHOD FOR ESTABLISHING A SIGNAL INDICATIVE OF THE PRESSURE-CONDITION IN THE AS CONTACT-SURFACE BEFITTED RUBBER-ELASTIC BODY OF A MACHINE FOOT, AS WELL AS MACHINE FOOT WITH HYDROSTATIC PRESSURE SENSOR
The invention relates to a method for the establishment of a signal which is indicative of the pressure-condition of a machine foot (1 ), as a fixed surface of a rubber-elastic body (5), where a load of the machine foot (1 ) is transferred from a cap (4) to a substrate (31 ) through the rubber-elastic body (5), which is pressurised by the increasing load, such that the distance between a free upper surface part (5.1 ) of the rubber-elastic body (5) and an immobile part (14.1 ) is determined by an electro-mechanical transducer (6) establishing an electrical signal corresponding to the distance which is used as the measurement for the rubber-elastic body's pressure-condition and thus the machine foot's load.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
The invention is directed to a machine foot, which includes a top part provided with a lock nut, which is mounted in a thread on a spindle, where the lock nut has an abutment complementary shaped to the housing of the lower part, which abutment forms a section of a sphere, and where there is a first gasket between the spindle and lock nut and where there is a second gasket between housing and lock nut. With the invention is achieved that the lower parts and top parts can be produced and stocked as separate and independent units, which for example are not assembled to a finished product until after order.
F16M 11/00 - Stands or trestles as supports for apparatus or articles placed thereon
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
F16C 11/06 - Ball-jointsOther joints having more than one degree of angular freedom, i.e. universal joints
F16C 13/00 - Rolls, drums, discs, or the likeBearings or mountings therefor
F16M 11/14 - Means for attachment of apparatusMeans allowing adjustment of the apparatus relatively to the stand allowing pivoting in more than one direction with ball-joint
The invention includes a levelling device (1), which includes a top part (3) and a lower part (2) where there in the top part (3) is included a spindle (41,42,43), which includes a thread (91,92,93) and an external cylindrical surface (111,112,113) and a sleeve (6) with at least one internal stop surface (12), and that the spindle (6) includes at least two separate spindle items and at least one stop surface (181,182,183). With the invention, it is achieved that it is possible to manufacture a levelling device (1), where the sleeve (6), as a result of the stop surface (12) on the sleeve (6) and the stop surface (181,182,183) on the several part spindle (41,42,43) cannot be screwed so high up that parts of the thread (91,92,93) on the spindle (41,42,43) are exposed.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
Levelling device (1), which includes a top part (3) for fastening in a machine and a lower part (2) for contact against a base (31). The lower part (2) includes a housing (4) and a sealing item (5), which is placed in the lower part (2). The lower part (2) includes a weighing cell (6) with an activation surface (7) and an opposite placed surface (8). The weighing cell (6) is placed in the housing (4) and in the sealing item (5) in the lower part (2). A power transmission device (11) includes a lower end surface (12) and an opposite placed upper surface (13). The lower end surface (12) is placed in an area between a spindle's (9) lower surface facing towards the lower part (9) and the activation surface (7). The end surface (12) forms contact with the weighing cell's (6) activation surface (7) or the weighing cell's (6) lower surface (8). Hereby, registration of the weight can be established.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
The invention includes a levelling device (1), which includes a top part (3) and a lower part (2) where there in the top part (3) is included a spindle (4), which includes a thread (5) and an external cylindrical surface. (10) and where there in the top part (3) is included a sleeve (6) with a lower sealing item (14) mounted where the sleeve (6) is longer than the spindle's (4) thread (5). With the invention it is achieved that it is possible to manufacture a levelling device (1) where the sleeve (6), as a result of the sleeve (6) being longer than the spindle's (4) thread (5), can not be screwed so high up that parts of the thread (5) on the spindle (4) are exposed.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
The invention includes a levelling device (19), which includes a top part (3) and a lower part (2), where there in the top part (3) is included a spindle (4), which includes a thread (5) and an external cylindrical surface (10), a stop item (19) and a sleeve (6), which includes at least one internal stop surface (12) and that the spindle (6) includes at least one track (20) in which the stop item (19) is placed. With the invention it is achieved that it is possible to manufacture a levelling device (1), where the sleeve (6), as a result of the stop surface (12) on the sleeve (6) and the stop item (19), which is mounted in the track (20) on the spindle (4) can not be screwed so high up that parts of the thread (5) on the spindle (4) are exposed.
The invention includes a levelling device (1), which includes a top part (3) and a lower part (2) where there in the top part (3) is included a spindle (4), which includes a thread (5) and an external cylindrical surface (10) and a sleeve (6) with at least one internal stop surface (12) and that the spindle (6) includes at least one stop surface (11). With the invention it is achieved that it is possible to manufacture a levelling device (1) where the sleeve (6), as a result of the stop surface (12) on the sleeve (6) and the stop surface (11) on the spindle, can not be screwed so high up that parts of the thread (5) on the spindle (4) are exposed.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
b) is movable a number of degrees (11) in relation to the center axis of the lower part (2), and where the lower part (2) comprises a housing (4), which preferably is made from a metal, and which at the bottom is provided with a polymeric material (5), where the polymeric material (5) is shaped as a ring that surrounds a plug (6), which is attached to the housing (4) by being glued to an annular contact surface (8) at the periphery of the plug (6).
F16M 11/20 - Undercarriages with or without wheels
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
F16B 11/00 - Connecting constructional elements or machine parts by sticking or pressing them together, e.g. cold pressure welding
The invention comprises a machine foot (1), which comprises a top part (3) provided with a counter lock (15), which is mounted in a thread (24) on the spindle (9), where the counter lock (15) has an abutment complementary shaped to the housing (4) of the lower part (2), which abutment forms a section of a sphere, and where there is a first gasket (21) between the spindle (9) and counter lock (15) and where there is a second gasket (22) between housing (4) and counter lock (15). With the invention is achieved that the lower parts (2) and top parts (3) can be produced and stocked as separate and independent units, which for example are not assembled to a finished product until after order, having maintained approved classification of the assembled machine feet (1) after international hygiene standards, at the same time as machine feet (1) produced according to the invention can resist a huge tensions and displacement tensions, which for example can occur in areas having earthquakes, where a machine foot is bolted to the base.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
42.
BRACKET FOR PIPE PROFILES AND USE OF THE BRACKET FOR MOUNTING PIPE PROFILES
Bracket (1) for pipe profiles including a body with a center hole (1a) for enclosing a pipe profile (10) in the center hole (1a) where the body includes at least two non elastic bracket parts (2) with internal surfaces (2a) towards the center hole (1a) and external surfaces (2b) and where the bracket parts' (2) internal surfaces (2a) include at least two radial spokes (3) with spoke end surfaces (3a) for contact against the pipe profile (10), where there is placed a ring shaped elastic gasket (4) around each spoke end surface (3a), which together with the spoke end surfaces (3a) has contact against the pipe profile (10). The invention also includes use of the bracket for mounting pipe profiles. The bracket has a shape, which ensures hygienic tight connection between bracket and pipe profile and the pipe profile is mechanically supported. The bracket can therefore be used in environments with high hygiene requirements, for example in the foodstuff industry.
F16L 3/20 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets with special provision allowing movement of the pipe allowing movement in transverse direction
Bracket (1 ) for pipe profiles including a body with a center hole (1a) for enclosing a pipe profile (10) in the center hole (1a) where the body includes at least two non elastic bracket parts (2) with internal surfaces (2a) towards the center hole (1a) and external surfaces (2b) and where the bracket parts' (2) internal surfaces (2a) include at least two radial spokes (3) with spoke end surfaces (3a) for contact against the pipe profile (10), where there is placed a ring shaped elastic gasket (4) around each spoke end surface (3a), which together with the spoke end surfaces (3a) has contact against the pipe profile (10). The invention also includes use of the bracket for mounting pipe profiles. The bracket has a shape, which ensures hygienic tight connection between bracket and pipe profile and the pipe profile is mechanically supported. The bracket can therefore be used in environments with high hygiene requirements, for example in the foodstuff industry.
F16L 3/10 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets substantially surrounding the pipe, cable or protective tubing divided, i.e. with two members engaging the pipe, cable or protective tubing
The invention relates to a coupling (1) for placement in a hole such as a hole in a machine part or in a pipe (6) and around an insert (5) such as a pipe or an axle, where the coupling (1) is pipe shaped and includes at least a base part (2) and at least a first sealing part (3), which is suited for sealing against the insert (5) and at least another sealing part (4), which is suited for sealing against the hole part. The coupling includes at least one outgrowth (14) on the exterior, side of the coupling (1), where the coupling (1) includes an exterior surface (1') and an internal surface (1 "). The first sealing part (3) is mounted with contact against the inner surface (1") and is designed to seal against the insert (5) and the second sealing part (4) is mounted with contact against the outer surface (1') and designed to seal against the hole part. The invention also relates to the use of the coupling (1) for connections where there is to be controlled and / or sealed in a hole, including a pipe (6) and an insert (5) such as a pipe or an axle where the insert (5) can be moved in relation to the coupling (1) and ( or where filth on the insert (5) can be scraped off and / or where a conducting connection is needed between the insert (5) and the hole part, including a pipe (6) in order to prevent static electricity. With the invention it is achieved with a single item to ensure a 3A and EHEDG approved coupling, which functions as bush, friction bearing, scraper ring, sealing ring and conducting connection.
The invention relates to a machine foot (1a, 1b), which comprises a top part (3a, 3b) for attachment in a device such as a machine and a lower part (2) for contacting against a foundation, such as a floor, where the center axis of the top part (3a, 3b) is movable a number of degrees (11) in relation to the center axis of the lower part (2), and where the lower part (2) comprises a housing (4), which preferably is made from a metal, and which at the bottom is provided with a polymeric material (5), where the polymeric material (5) is shaped as a ring that surrounds a plug (6), which is attached to the housing (4) by being glued to an annular contact surface (8) at the periphery of the plug (6). It is moreover a special feature of the invention that the top part (3a, 3b) is attached to the housing (4) of the lower part (2) with a bolt (19), the head (18) of which is covered by a cover plate (7). The invention achieves that bottom parts (2) and top parts (3a, 3b) can be manufactured and stocked as stand-alone and independent components, which are not assembled to a finished product until after for example order, maintaining approved classification of the assembled machine feet (1a, 1b) after international hygiene standards, at the same time machine feet (1a, 1b) manufactured according to the invention can resist a high tension, which for example can occur in areas with earthquakes, where a machine foot is bolted to the support.
F16M 7/00 - Details of attaching or adjusting engine beds, frames, or supporting-legs on foundation or baseAttaching non-moving engine parts, e.g. cylinder blocks
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
Common metals and their alloys; metal building materials;
transportable buildings of metal; materials of metal for
railway tracks; non-electric cables and wires of common
metal; ironmongery, small items of metal hardware; pipes and
tubes of metal; goods of common metal not included in other
classes; ores. Machines and machine tools; motors and engines (except for
land vehicles); machine coupling and transmission components
(except for land vehicles); agricultural implements other
than hand-operated; parts of machines in the form of
stainless steel machine feet for the adjustment,
stabilization and vibration reduction of all kinds of
machines and adjustable feet/legs for machines. Rubber, gutta-percha, gum, asbestos, mica and goods made
from these materials and not included in other classes;
plastics in extruded form for use in manufacture; packing,
stopping and insulating materials; flexible pipes, not of
metal. Building construction; repair; installation services.
The invention includes a method for closing a hole, such as a mounting hole, which is constructed with a circular opening (5,7,9) located in a surface (2,3,4), and in which the bottom of the hole contains a mounting member such as a screw, pointed screw or a threaded bolt (11) and the surface (2,3,4) forms part of a system that is located in an environment that places special requirements on hygiene where a hole is closed with an elastic ball (6,8,10) that is pressed into the hole through the circular opening (5,7,9), where the hole is internally formed as part of a sphere having a diameter (16) which is larger than the hole's circular opening diameter (15) and which is equal to or less than the diameter of the ball (19). This ensure that holes are effectively closed, thus preventing impurities and / or bacteria from entering into the holes. The invention also includes the use of the above described method for closing holes in systems and applications that place special demands on hygiene and clean design as specified by the so-called 3A and EHEDG standards.
06 - Common metals and ores; objects made of metal
07 - Machines and machine tools
17 - Rubber and plastic; packing and insulating materials
37 - Construction and mining; installation and repair services
Goods & Services
(1) Metal building materials, namely, bolts of metal, metal screws, metal welding rods; ironmongery and small items of metal hardware, namely, nuts and bolts, washers, threaded bushings, screws and nails; machine parts, namely, metal pipes and tubes for use with stainless steel and reinforced polyamide feet and legs on industrial machinery equipment; goods of common metal, namely, welding plates for industrial machinery; machine parts, namely, adjustable, stabilizing and vibration absorbing stainless steel feet for industrial machinery and equipment, particularly adapted for applications with high demand for hygiene and cleaning in the food, beverage, packaging and pharmaceutical industries, and adjustable stainless steel and reinforced polyamide feet and legs for the aforesaid machinery and equipment; rubber and plastic products for the adjustment, stabilization and vibration deduction of all kinds of machines and equipment, namely machine feet and legs sold separately from machines and not being parts of machines; rubber and plastic packing, stopping and insulation for industrial machinery and equipment; flexible pipes being parts of adjustable, stabilizing and vibration absorbing feet and legs for industrial machinery and equipment. (1) Building construction services; repair and installation services for industrial machinery and equipment in the food, beverage, packaging and pharmaceutical industries.
The invention includes a method for manufacturing a machine foot (1) and a machine foot (1). A machine foot (1) of the present type consists of a spindle (8), which is in the top screwn into the device which is to be supported and is in the bottom fastened to a base part (20). The spindle (8) can be turned in relation to the base part (20) in an angle (10). It is characteristic of the invention that the spindle (8) in the end, which is situated in the base part (20) is enclosed by a ball part (6,7), which consists of an upper part (7) and a lower part (6) and is fastened to the ball part (6,7) by engagement with a locking ring (11) which is also enclosed by the ball part (6,7). The ball part (6,7) is cast into a polymer material (3) whereby the end of the spindle (8) in the base part (20) is efficiently enclosed and closed from access of impurities, filth or bacteria. The machine foot (1) can thereby be cleaned by external washing only and is therefore especially suited for application in environments, which have high demands for hygiene and e.g. demand a compliance with the standard “3-A® Sanitary Standard for Machine Leveling Feet and Supports”.
