A tobacco-pipe-type cigarette purifier (100), comprising a mouthpiece (1), a main body (2), a purifying device (3), a cigarette lighter (4), and a battery (5), wherein the mouthpiece (1) is arranged at one end of the main body (2); a surface of the main body (2) is provided with an air inlet (2a) and an air outlet (2b); the main body (2) is provided with a cigarette accommodating cavity (21) and an air cavity (22); one end of the cigarette accommodating cavity (21) is in communication with the mouthpiece (1), and the other end thereof is in communication with the air cavity (22); the air cavity (22) is in communication with the air inlet (2a); the cigarette lighter (4) is arranged between the air cavity (22) and the cigarette accommodating cavity (21); the main body (2) is provided with a filtering cavity (24); one end of the filtering cavity (24) is in communication with the mouthpiece (1), and the other end thereof is in communication with the air outlet (2b); the purifying device (3) is detachably mounted in the filtering cavity (24) from the bottom surface of the main body (2); and a battery cavity (28) is also arranged in the main body (2), and accommodates the battery (5). The tobacco-pipe-type cigarette purifier (100) has the advantages of a compact and rational structure and more convenient maintenance.
An application of an amorphous alloy and/or a high-entropy alloy in a musical instrument; an amorphous alloy and/or a high-entropy alloy are used for the strings of a stringed musical instrument, or an amorphous alloy and/or a high-entropy alloy are used for the reed of a wind instrument. The amorphous alloy is selected from at least one among a zirconium-based amorphous alloy, a copper-based amorphous alloy, a nickel-based amorphous alloy, a titanium-based amorphous alloy, a tin-based amorphous alloy, or an iron-based amorphous alloy. The high-entropy alloy is a cast high-entropy alloy, a single-crystal high-entropy alloy, or a fiber sheet high-entropy alloy. Strings and reeds prepared by using the amorphous alloy and/or the high-entropy alloy not only have excellent strength and elasticity but also exhibit small damping of sound, have a large and stable amplitude, and have an excellent anti-loosening effect; in particular, the sound quality is clear, the treble is stable, loudness is increased, and the sound delay is long, thereby effectively enhancing the acoustic performance of the stringed instrument.
An application of an amorphous alloy and/or a high-entropy alloy in a stringed instrument, wherein the amorphous alloy and/or the high-entropy alloy is used in a bridge, pegs or buckles of the stringed instrument. The bridge, pegs and buckles made of the amorphous alloy and/or the high-entropy alloy not only have relatively good strength and elasticity, but also have relatively small damping of sound, relatively large and stable amplitude, and good anti-loosening effect, and especially has crisp sound, stable treble, increased volume, and longer sustain. The acoustic performance of the stringed instrument can be effectively improved.
The present invention relates to a process of manufacturing skiing equipment using a high-entropy alloy, especially manufacturing for a bottom member of a ski, a blade of an ice skate shoe or the bottom member of a skiing vehicle. The high-entropy alloy is used to prepare skiing equipment, so that the skiing equipment has a small friction coefficient, obtains good speed, and can be driven with less energy, which realizes energy-saving effect.
The use of a high-entropy alloy in ski equipment, and in particular the use thereof in bottom components of skis, in blades of ice skates or in bottom components of a snow scooter. A high-entropy alloy is used to manufacture ski equipment, such that the ski equipment has a smaller coefficient of friction and thus exhibits an excellent speed, and same can be driven by means of less energy and thus has a relatively good energy-saving effect.
A product preparation process, which is used to solve the existing technical problem of processing being extremely difficult when hard metals or hard alloys are used to produce products with high hardness. The method comprises: placing a hard metal rod or a hard alloy rod and an amorphous alloy rod in a preset cavity for mixing; heating the mixed material to the temperature range of a supercooled liquid phase zone of the amorphous alloy rod; making the amorphous alloy rod flow in a semi-solid state by means of applying pressure, and driving the hard metal rod or the hard alloy rod mixed with the amorphous alloy rod to deform together into the shape of the preset cavity; cooling the mixed material to obtain a composite material; placing the composite material into a product mold; injecting a liquid metal material into the mold, such that the liquid metal material is mixed with the composite material; applying a preset pressure to the mold and maintaining the pressure for a preset time, and then opening the mold to remove the product.
B22D 19/16 - Casting in, on, or around, objects which form part of the product for making compound objects cast of two or more different metals, e.g. for making rolls for rolling mills
A mold locking apparatus, comprising a cavity plate, a core plate, a mold locking cylinder, and elastic bases. The mold locking cylinder is mounted to the top end face of the cavity plate by means of the elastic bases. Each elastic base comprises an upper cushioning column, an upper piston plate, an upper elastic member, a middle connection column, a middle elastic member, a lower cushioning column, a lower piston plate, and a lower elastic member. Each upper cushioning column is connected to the mold locking cylinder. Each upper piston plate is slidably provided in an upper cushioning cavity. Each lower cushioning column is connected to the cavity plate. Each lower piston plate is slidably provided in a lower cushioning cavity. The upper end of each middle connection column is connected to the upper piston plate, and the lower end of each middle connection column is connected to the lower piston plate. Each middle elastic member is elastically abutted between the upper cushioning column and the lower cushioning column. A piston rod of the mold locking cylinder is provided with an engagement member. The core plate is provided with a recess matching the engagement member. The mold locking apparatus of the present application can effectively cushion vibration generated by the mold locking cylinder to avoid a position deviation between the cavity plate and the core plate, and improves product precision.
Gears, other than for land vehicles; Industrial robots; Machine parts, namely, blades; Machine parts, namely, joints and joint parts for connecting sliding strips, plates and guides; Machine wheelwork; Reduction gears, other than for land vehicles; Springs being parts of machines
Bayonets; Blades for electric razors; Blades for shears; Box cutters; Hand-operated cutting tools; Hand-operated scraping tool for cleaning cleats for attachment to sports shoes; Hand-operated tools, namely, chisels; Hand tools, namely, cutter bars; Hand tools, namely, farriers' knives; Shear blades
09 - Scientific and electric apparatus and instruments
Goods & Services
Broadband wireless equipment, namely, telecommunications base station equipment for cellular and fixed networking and communications applications; Cell phones; Earphones; Frames for spectacles; Mobile telephones; Smartphones; Smartwatches; Spectacle frames; Spectacles; Wireless headsets for smartphones
Bone forceps; Bone scrapers; Clips, surgical; Emergency pelvic clamps; Intramedullary nails; Knives for medical use; Knives for surgical purposes; Surgical pliers; Suture needles
09 - Scientific and electric apparatus and instruments
10 - Medical apparatus and instruments
14 - Precious metals and their alloys; jewelry; time-keeping instruments
28 - Games; toys; sports equipment
Goods & Services
Springs [parts of machines]; machine wheelwork; reduction
gears, other than for land vehicles; cold chamber die
casting machine; hot chamber die casting machine; tools
[parts of machines]; handling machines, automatic
[manipulators]; guides for machines; gears, other than for
land vehicles; industrial robots. Scraping tools [hand tools]; knives [hand tools]; cutting
tools [hand tools]; chisels (manual); hand tools,
hand-operated; scissors blade; blades for electric razors;
cutters; blades for shears; bayonets. Smart phones with wireless headsets; eyeglass frames;
cellular phones; smart watch (data processing);
spectacle-frame; smartphones; cell phones; network
communications equipment; headsets; eyeglasses. Knives for medical purposes; scalpel; intramedullary nail;
clips, surgical; nursing appliances; suture needles;
emergency pelvic clamp; knives for surgical purposes;
surgical pliers; bone forceps. Jewelry boxes; jewelry; jewelry findings; precious metals,
unwrought or semi-wrought; earrings; wristwatches; alloys of
precious metal; paste jewelry [costume jewelry]; watches;
horologe. Darts; ski poles; golf club heads; bows for archery; fish
hooks; skate skates (terms too vague in the opinion of the
International Bureau – Rule 13 (2) (b) of the Common
Regulations); edges of skis; harpoon guns [sports articles];
skis; arrows for archery.
06 - Common metals and ores; objects made of metal
Goods & Services
Tungsten; iron; steel alloys; sheets and plates of metal;
building materials of metal; wire of common metal alloys,
except fuse wire; screws of metal; hardware of metal, small;
soldering wire of metal; works of art of common metal;
zirconium; aluminium; magnesium; titanium; nickel; zinc;
copper, unwrought or semi-wrought; tin; common metals,
unwrought or semi-wrought; alloys of common metal.
An automatic cigarette-lighting purifier includes a cigarette holding chamber and a smoke purification device, one end of the cigarette holding is provided with a chamber opening which is communicated with the smoke purification device and the cigarette holding chamber, and a cigarette positioning member is provided at the chamber opening. The automatic cigarette-lighting purifier further includes a ventilation end cap that is movable to cover the end of the cigarette holding chamber that is opposite to the chamber opening, and a cigarette-lighting member is at one side of the ventilation end cap. A cigarette can be lighted automatically by the cigarette-lighting device once it's placed in the purifier, and the burned cigarette is always kept in the purifier, thus no unfiltered second-hand smoke is produced. Furthermore, the structure of the automatic cigarette-lighting purifier is simple, the operation is convenient, and the possibilities of scalding and cigarette ash falling are prevented.
Provided is an automatic cigarette-lighting purifier, comprising a cigarette accommodating chamber (100) and a smoke purification device (200); one end of the cigarette accommodating chamber (100) is provided with a cigarette smoking port (110), and the smoking port (110) is in communication with the smoke purification device (200) and the cigarette accommodating chamber (100); the cigarette accommodating chamber (100) end provided with the smoking port (110) is provided with a cigarette positioning member (130); the automatic cigarette-lighting purifier also comprises a ventilation end cap (400) capable of movably obstructing the cigarette accommodating chamber (100) end that is away from the smoking port (110); a cigarette-lighting member (310) is protrudingly disposed, facing the interior of the cigarette accommodating chamber (100), on the ventilation end cap (400) side that faces the cigarette accommodating chamber (100). An unlit cigarette (A00) is placed into the automatic cigarette-lighting purifier, then lit in the automatic cigarette-lighting purifier; the lit cigarette (A00) remains located in the automatic cigarette-lighting purifier, and no unfiltered second-hand smoke is generated; further, the automatic cigarette-lighting purifier has a simple structure and is easy to implement, and it is impossible for situations to occur in which operation is inconvenient and burns or cigarette ash scatter.
A method for integrally forming a non-metal part and a metal part. The method comprises the following steps: A, arranging a non-transparent non-metal part in a mold; B, arranging a metal part on the periphery of the non-metal part in the mold, the metal part being a continuous structure located on the periphery of the non-metal part; C, heating the metal part so that the metal part is formed into semi-solid metal defined in a mold cavity; D, extruding the semi-solid metal through the mold, so that the semi-solid metal is combined with the periphery of the non-metal part in a seamless mode; and E, quickly cooling the semi-solid metal located on the periphery of the non-metal part, so that the semi-solid metal is formed into amorphous metal combined with the periphery of the non-metal part in a seamless mode. The method is simple and practicable, the rate of finished products is high, the metal part obtained through extrusion has high compactness and strength, and the difficulty in follow-up surface treatment of the metal part is reduced.
A method for integrally forming a non-metal part (50) and a metal part (60). The method comprises the following steps: A, arranging the transparent non-metal part (50) in a mold; B, arranging the metal part (60) on the periphery of the non-metal part (50) in the mold, the metal part being a continuous structure located on the periphery of the non-metal part (50); C, heating the metal part (60) so that the metal part (60) is formed into semi-solid metal defined in a mold cavity; D, extruding the semi-solid metal through the mold, so that the semi-solid metal is combined with the periphery of the non-metal part (50) in a seamless mode; and E, quickly cooling the semi-solid metal located on the periphery of the non-metal part (50), so that the semi-solid metal is formed into amorphous metal combined with the periphery of the non-metal part (50) in a seamless mode. The method is simple and practicable, the rate of finished products is high, the metal part obtained through extrusion has high compactness and strength, and the difficulty in follow-up surface treatment of the metal part is reduced.
B22D 19/04 - Casting in, on, or around, objects which form part of the product for joining parts
B22D 19/16 - Casting in, on, or around, objects which form part of the product for making compound objects cast of two or more different metals, e.g. for making rolls for rolling mills
C03C 27/00 - Joining pieces of glass to pieces of other inorganic materialJoining glass to glass other than by fusing
