CN117401452B - Anti-deformation glove stacking equipment - Google Patents

Abstract

The invention discloses anti-deformation glove stacking equipment, which relates to the technical field of glove production and comprises a conveying belt, wherein two sides of the outer surface of the conveying belt are rotatably connected with a connecting shaft, the surface of the connecting shaft is fixedly connected with two side frames, the two side frames are symmetrical with the conveying belt as a center, and conveying plates are rotatably connected between opposite surfaces of the side frames. This anti-deformation's gloves pile up neatly equipment, the below of leveling roller is slided by the top board through the gloves of piling up, gloves drive leveling roller rotatory when being carried by the delivery board, and make leveling roller roll to gloves, because gloves are mostly materials such as face yarn, cloth, rubber, leather, when receiving to roll, because the material of gloves is softer, make laminating between the gloves compacter, the laminating degree when improving the gloves pile up neatly, carry out flattening treatment to gloves, avoid the gloves to appear the fold in the in-process of carrying and produce the deformation.

Description

Anti-deformation glove stacking equipment

Technical Field

The invention relates to the technical field of glove production, in particular to anti-deformation glove stacking equipment.

Background

The glove is a hand warming or labor protecting article and also has decorative use. The glove is very special, and is not practical at first, but is a thermal insulation necessity in cold areas until the latest, or a medical antibacterial and industrial protective article. The glove is divided into sewing, knitting, dipping, etc. according to the manufacturing method.

The glove is divided into sewing, knitting, dipping, etc. according to the manufacturing method. The glove is made by cutting and sewing various leather, rubber, knitted fabrics or woven fabrics. Knitting the various textile fiber pure or blended yarns on a glove knitting machine, sewing, such as clamping lining, rib opening, finger tip stitching, finger fork stitching and the like, and napping or fulling, heat setting and finishing to obtain the product. The knitting glove has plain knitting, rib knitting, tuck knitting, leno knitting, etc. with plain color and yarn-dyed jacquard. The glove for labor protection is required to be thick, and the wear resistance, the skid resistance and the water resistance of the glove are improved by surface plastic coating treatment. The decorative glove is required to be beautiful and mostly subjected to artistic processing such as embroidery, nailing and the like.

At present, traditional glove production transfer chain needs the workman to send the gloves to break away from on the hand membrane, and the transport belt conveys again and collects, because the gloves material is softer, receives the extrusion easily at the in-process of carrying, produces the fold and causes the gloves to warp, and single gloves are difficult for collecting at the in-process of carrying simultaneously, influence production efficiency, need pile up the compaction to the gloves, the gloves pile of being convenient for.

Disclosure of Invention

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a glove pile up neatly equipment of preapring for an unfavorable turn of events shape, includes the conveyer belt, the surface both sides rotation of conveyer belt are connected with the linking axle, the fixed surface of linking axle is connected with the side bearer, the side bearer is provided with two, two the side bearer uses the conveyer belt as central symmetry, rotate between the opposite face of side bearer and be connected with the delivery plate, the upper surface fixedly connected with of delivery plate send the pressure subassembly, send the internal surface at the side bearer of pressure subassembly fixed connection, the delivery plate is kept away from the fixed surface who send pressure subassembly one side and is connected with the collection holder, collect the internal surface at the side bearer of holder fixed connection. The gloves are placed on the surface of the conveying belt after being processed, the gloves are conveyed to the conveying press assembly through the conveying belt, the gloves are conveyed to the surface of the conveying press assembly to extrude the conveying press assembly, a plurality of gloves are piled on the surface of the upper pressing plate, the upper pressing plate is driven by pressure to rotate on the surface of the fixed block, the inclination angle of the upper pressing plate changes, the gloves stacked on the upper pressing plate are slidingly conveyed to the lower part of the rolling press assembly, due to a certain distance between the rolling press assembly and the conveying plate, the gloves can be stacked and placed above the conveying plate, the conveying plate is rotationally connected between opposite surfaces of the side frames through the motor, the gloves are conveyed to the collecting clamp frame through the conveying plate, and due to the fact that the surface of the conveying plate is provided with a plurality of through holes, impurities attached to the surfaces of the gloves fall along the through holes when the gloves are rolled by the flattening roller shafts, the gloves are conveyed to the edge of the collecting clamp frame through the flattening roller shafts and the conveying plate, and then are collected into the collecting box along the lower connecting grooves formed on the surface of the collecting clamp frame.

The anti-deformation glove stacking equipment also comprises

The rolling assembly is fixedly connected to the inner surface of the side frame and comprises two vibrating plates, the two vibrating plates are fixedly connected to the inner surface of the side frame, the surface of the vibrating plate is slidably connected with a bullet pushing frame, the lower surface of the bullet pushing frame is fixedly connected with a base, the middle of the upper surface of the base is fixedly connected with a supporting column, and the supporting column is fixedly connected to the surface of the side frame; the gloves that pile up are slided the below of leveling the roller by the top board and send, and gloves drive leveling the roller rotatory when being carried by the delivery board to make leveling the roller roll to the gloves, because gloves are mostly materials such as face yarn, cloth, rubber, leather, when receiving to roll, because the material of gloves is softer, make laminating between the gloves compacter, improve the laminating degree when gloves pile up neatly, carry out flattening treatment to the gloves, avoid the gloves to appear the fold in the in-process of carrying and produce the deformation.

Preferably, the pressure feeding assembly comprises an upper pressing plate, a rotating block is rotationally connected to the surface of the upper pressing plate, fixed blocks are fixedly connected to the surface of the rotating block, two fixed blocks are arranged, special-shaped blocks are fixedly connected to the surface of the fixed blocks, and connecting blocks are fixedly connected to the surface of the special-shaped blocks. The gloves are conveyed to the surface of the upper pressing plate by the conveying belt, the upper pressing plate is driven to rotate on the surface of the fixed block by the pressure generated by the gloves, the upper pressing plate is limited by the position of the fixed block and the position of the special-shaped block, the upper pressing plate can only be driven to rotate in the same interval by the rotating block, the upper pressing plate is subjected to pressure inclination angle change and extrudes the base plate, the base plate is bent and contracted, the gloves are convenient to stack and place, the end face of the upper pressing plate is contacted with the surface of the lower pressing plate along with the increase of the stacking quantity of the water jackets, and the gloves on the upper pressing plate are enabled to be slidingly conveyed to the surface of the conveying plate.

Preferably, the surface fixedly connected with axostylus axostyle of connecting block, the surface rotation of axostylus axostyle is connected with the backing plate, the fixed block is kept away from the surface fixedly connected with holding down plate of top board one side, holding down plate fixed connection is at the upper surface of delivery board. When gloves that upper plate surface piles up are slided and are sent to the delivery plate surface, because the backing plate is elastic material, when the pressure that the upper plate received disappears, the backing plate spring up extends, drives the upper plate and resets, is convenient for pile up again to carry to gloves, improves stacking efficiency.

Preferably, the collecting clamping frame comprises a connecting plate, fixing plates are fixedly connected to two sides of the outer surface of the connecting plate, limiting plates are fixedly connected to the surfaces of the fixing plates, lower connecting grooves are formed in the surfaces of the limiting plates, and the limiting plates are fixedly connected to the edges of the conveying plates. The glove after rolling is conveyed to the limiting plate by the rotating leveling roller shaft and the conveying plate, falls into the collecting box along the lower connecting groove, so that the stacked glove is collected, glove stacking is facilitated, and working efficiency is improved.

Preferably, the fixed ring is fixedly connected with both sides of the outer surface of the base, the inner surface of the fixed ring is penetrated with the inner inserting rod, the surface of the inner inserting rod is sleeved with the flattening roll shaft, the surface of the inner inserting rod is sleeved with the collar, and the surface of the collar is fixedly connected with the surface of the vibrating plate. Because the glove thickness of different materials is different, with the smooth roller contact time with smooth roller between the friction effect difference that produces for smooth roller produces the vibration including the inserted bar surface, causes the extrusion to pushing away the bullet frame, and promotes to strike the frame and slide on the vibrating plate surface, makes the board that opens and shuts produce the displacement along with striking the frame slip, improves the stability of roll-in subassembly.

Preferably, the leveling roll shaft comprises elastic rings, two groups of elastic rings are arranged, clamping plates are fixedly connected with the surfaces of the elastic rings, six clamping plates are arranged, clamping rods are rotationally connected to the surfaces of the six clamping plates, and the clamping rods are circumferentially distributed on the outer surfaces of the inner inserting rods. The clamping rod is deformed by the deformation of the pressing plate, and the elastic ring deforms to drive the clamping rod to generate fluctuation on the surface of the inner inserting rod, so that the clamping plate pushes the friction outer rod to the elastic motion.

Preferably, the surface fixedly connected with clamp plate, the internal surface sliding connection of clamp plate has the sliding bead, the surface rotation of clamp plate near sliding bead one side is connected with the internal rotation pearl. The conveying plate drives the gloves stacked on the surface of the conveying plate to slide to the lower part of the flattening roller shaft, so that the flattening plate is in contact with the surface of the gloves, and the gloves are rolled.

Preferably, the pushing frame comprises a friction outer rod, an elastic block is fixedly connected to the inner surface of the friction outer rod, a push rod is fixedly connected to the surface of the elastic block, and a knocking frame is fixedly connected to the surface of the push rod. The friction outer rod is affected by fluctuation of the clamping plate to extrude the elastic block, so that the elastic block is pushed by the friction outer rod and drives the push rod and the knocking frame to extrude the opening plate.

Preferably, the knocking frame comprises an arc-shaped plate, two sides of the outer surface of the arc-shaped plate are fixedly connected with laminating blocks, the upper surface of the arc-shaped plate is fixedly connected with extension rods, two extension rods are arranged, the surfaces of the extension rods are fixedly connected with a casing, two sides of the outer surface of the casing are fixedly connected with connecting blocks, and the surfaces of the connecting blocks are fixedly connected with knocking plates. The laminating piece is driven to the extension board department by the push rod and removes, with extension board surface laminating, because the laminating piece is flexible material, avoids causing the collision to the extension board.

Preferably, the vibration plate comprises a support plate, the support plate is fixedly connected to the inner surface of the side frame, a spring rod is fixedly connected to the surface of the support plate, an opening and closing plate is fixedly connected to the upper surface of the spring rod, and the opening and closing plate is rotatably connected to the surface of the support plate. The push rod drives the cover shell of arc top to opening and shutting the board department and remove, makes to strike the board and extrudees the board to opening and shutting, makes the board receive extrusion and extension board laminating at the drive bullet pole, improves the stability of roll-in subassembly when rolling the gloves, prevents that the gloves of piling up from taking place to empty, influences production efficiency.

The invention provides anti-deformation glove stacking equipment. The beneficial effects are as follows:

1. this anti-deformation's gloves pile up neatly equipment, the below of leveling roller is slided by the top board through the gloves of piling up, gloves drive leveling roller rotatory when being carried by the delivery board, and make leveling roller roll to gloves, because gloves are mostly materials such as face yarn, cloth, rubber, leather, when receiving to roll, because the material of gloves is softer, make laminating between the gloves compacter, the laminating degree when improving the gloves pile up neatly, carry out flattening treatment to gloves, avoid the gloves to appear the fold in the in-process of carrying and produce the deformation.

2. This anti-deformation's gloves pile up neatly equipment is carried to upper pressure plate surface by the conveyer belt through the gloves, and the produced pressure of gloves makes the upper pressure plate drive the commentaries on classics piece and rotates on the fixed block surface, receives fixed block and dysmorphism piece position restriction, and the commentaries on classics piece only can drive the upper pressure plate and rotate in same interval, and the upper pressure plate receives pressure inclination and changes to lead to the fact the extrusion to the backing plate, makes the backing plate buckle shrink, is convenient for the gloves stack and places, along with water jacket stack quantity increase, the terminal surface and the lower pressure plate surface contact of upper pressure plate, makes the gloves on the upper pressure plate slide and send to the conveying plate surface.

3. This anti-deformation's gloves pile up neatly equipment, when the gloves that pile up through the top board surface were smooth to be sent to the delivery plate surface, because the backing plate is elastic material, when the pressure that the top board received disappeared, the backing plate spring up and extends, drives the top board and resets, is convenient for pile up once more to the gloves and carries, improves stacking efficiency.

4. This anti-deformation's gloves pile up neatly equipment is carried limiting plate department through the gloves after rolling by pivoted leveling roller and delivery plate, drops to the collecting box along the lower groove to collect the gloves of piling up, the gloves pile of being convenient for improves work efficiency.

5. This anti-deformation's gloves pile up neatly equipment drives its surface to pile up gloves through the delivery board and slides to leveling roller below for the gland plate contacts with glove surface, and rolls the glove, because the glove material is softer and the gland plate is easy flexible elasticity material, when rolling the glove, the gland plate produces deformation and makes the slipbead slide from the glove surface, avoids causing the card to be dun when the glove is pressed, influences conveying efficiency.

6. This anti-deformation's gloves pile up neatly equipment drives the cover shell of arc top through the push rod and moves to opening and shutting the board department, makes to strike the board and extrudees the board that opens and shuts, makes the board that opens and shuts receive extrusion and extension board laminating in driving the bullet pole, improves the stability of roll-in subassembly when rolling the gloves, prevents that the gloves of stacking from taking place to empty, influences production efficiency.

Drawings

FIG. 1 is a schematic view of the external structure of an anti-deformation glove palletizing apparatus of the present invention;

FIG. 2 is a schematic view of a rolling assembly according to the present invention;

FIG. 3 is a schematic view of the structure of the collecting clamping frame of the present invention;

FIG. 4 is a schematic diagram of a pressure transmitting assembly according to the present invention;

FIG. 5 is an enlarged schematic view of the rolling assembly of the present invention;

FIG. 6 is a schematic view of the structure of the leveling roll shaft of the present invention;

FIG. 7 is a schematic view of a pusher carriage according to the present invention;

FIG. 8 is a schematic view of the structure of the knocking frame.

In the figure: 1. a connecting shaft; 2. a pressure delivery assembly; 21. an upper press plate; 22. a rotating block; 23. a fixed block; 24. a special-shaped block; 25. a connecting block; 26. a shaft lever; 27. a backing plate; 28. a lower pressing plate; 3. a conveyor belt; 4. collecting a clamping frame; 41. a fixing plate; 42. a connecting plate; 43. a lower connecting groove; 44. a limiting plate; 5. a roll-in assembly; 51. leveling roll shafts; 511. a spring ring; 512. a flattening plate; 513. a sliding bead; 514. an inner rotating bead; 515. a clamping plate; 516. a clamping rod; 52. a support column; 53. a fixing ring; 54. a bullet pushing frame; 541. a knocking frame; 5411. a striking plate; 5412. a joint block; 5413. a casing; 5414. an extension rod; 5415. an arc-shaped plate; 5416. a bonding block; 542. a push rod; 543. a spring block; 544. friction outer rod; 55. a vibration plate; 551. an opening plate; 552. a spring rod; 553. a support plate; 56. a base; 57. an inner insert rod; 58. a collar; 6. a side frame; 7. and a conveying plate.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In a first embodiment, as shown in fig. 1 to 4, the present invention provides a technical solution: the utility model provides a glove stacking equipment of preapring for an unfavorable turn of events shape, including a kind of anti-deformation glove stacking equipment, including conveyer belt 3, the surface both sides rotation of conveyer belt 3 are connected with and link up axle 1, the fixed surface of linking axle 1 is connected with side bearer 6, side bearer 6 is provided with two, two side bearer 6 use conveyer belt 3 as central symmetry, rotate between the opposite face of side bearer 6 and be connected with delivery plate 7, the upper surface fixedly connected with of delivery plate 7 send and press subassembly 2, send and press subassembly 2 fixed connection at the internal surface of side bearer 6, the fixed surface that delivery plate 7 kept away from send and press subassembly 2 one side is connected with and is collected clamping frame 4, collect clamping frame 4 fixed connection at the internal surface of side bearer 6. The gloves are placed on the surface of the conveying belt 3 after being processed, the gloves are conveyed to the conveying and pressing assembly 2 through the conveying belt 3, the gloves are conveyed to the surface of the conveying and pressing assembly 2 by the conveying belt 3 to extrude the conveying and pressing assembly 2, a plurality of gloves are piled on the surface of the upper pressing plate 21, the upper pressing plate 21 is enabled to be pressed to drive the rotating block 22 to rotate on the surface of the fixed block 23, the inclination angle of the upper pressing plate 21 changes, the gloves piled on the upper pressing plate 21 are slid to the lower portion of the rolling assembly 5, the gloves are placed above the conveying plate 7 due to the fact that a certain distance exists between the rolling assembly 5 and the conveying plate 7, the conveying plate 7 is connected between the opposite surfaces of the side frames 6 through motor rotation, the gloves are conveyed to the collecting clamping frame 4 through the conveying plate 7, and due to the fact that the surface of the conveying plate 7 is provided with a plurality of through holes, when the gloves are rolled through the leveling roller shaft 51, the impurities adhered to the surface of the gloves fall along the through holes, the leveling roller shaft 51 and the gloves are conveyed to the edge of the collecting clamping frame 4 through the leveling roller shaft 51, and then the gloves are collected into the collecting box along the lower connecting groove 43 formed on the surface of the collecting clamping frame 4.

The pressure delivery assembly 2 comprises an upper pressing plate 21, a rotating block 22 is rotatably connected to the surface of the upper pressing plate 21, fixed blocks 23 are fixedly connected to the surface of the rotating block 22, two fixed blocks 23 are arranged, special-shaped blocks 24 are fixedly connected to the surfaces of the two fixed blocks 23, and connecting blocks 25 are fixedly connected to the surfaces of the special-shaped blocks 24. The gloves are conveyed to the surface of the upper pressing plate 21 by the conveying belt 3, the pressure generated by the gloves enables the upper pressing plate 21 to drive the rotating block 22 to rotate on the surface of the fixed block 23, the rotating block 22 only can drive the upper pressing plate 21 to rotate in the same interval under the position limitation of the fixed block 23 and the special-shaped block 24, the upper pressing plate 21 is subjected to pressure inclination angle change and extrudes the base plate 27, the base plate 27 is bent and contracted, the gloves are stacked and placed conveniently, and along with the increase of the stacking quantity of the water jackets, the end face of the upper pressing plate 21 is contacted with the surface of the lower pressing plate 28, so that the gloves on the upper pressing plate 21 are slid to the surface of the conveying plate 7.

The surface fixedly connected with axostylus axostyle 26 of connecting block 25, the surface rotation of axostylus axostyle 26 is connected with backing plate 27, and the fixed block 23 is kept away from the surface fixedly connected with holding down plate 28 of top board 21 one side, and holding down plate 28 fixed connection is at the upper surface of delivery plate 7. When gloves stacked on the surface of the upper pressing plate 21 are slipped onto the surface of the conveying plate 7, because the backing plate 27 is made of elastic materials, when the pressure applied to the upper pressing plate 21 disappears, the backing plate 27 is sprung to extend to drive the upper pressing plate 21 to reset, so that the gloves can be conveniently stacked and conveyed again, and the stacking efficiency is improved.

The collecting clamping frame 4 comprises a connecting plate 42, fixing plates 41 are fixedly connected to two sides of the outer surface of the connecting plate 42, limiting plates 44 are fixedly connected to the surfaces of the fixing plates 41, lower connecting grooves 43 are formed in the surfaces of the limiting plates 44, and the limiting plates 44 are fixedly connected to the edges of the conveying plates 7. The rolled gloves are conveyed to the limiting plate 44 by the rotary leveling roller shaft 51 and the conveying plate 7 and drop into the collecting box along the lower connecting groove 43, so that stacked gloves are collected, glove stacking is facilitated, and working efficiency is improved.

In the second embodiment, as shown in fig. 5 to 6, a rolling assembly 5, where the rolling assembly 5 is fixedly connected to an inner surface of a side frame 6, the rolling assembly 5 includes two vibration plates 55, the two vibration plates 55 are provided with two groups, the two groups of vibration plates 55 are both fixedly connected to the inner surface of the side frame 6, the surface of the vibration plate 55 is slidably connected with a bullet pushing frame 54, a base 56 is fixedly connected to a lower surface of the bullet pushing frame 54, a support column 52 is fixedly connected to a middle of an upper surface of the base 56, and the support column 52 is fixedly connected to the surface of the side frame 6; the stacked gloves are slid to the lower part of the leveling roller shaft 51 by the upper pressing plate 21, the gloves drive the leveling roller shaft 51 to rotate when being conveyed by the conveying plate 7, and the gloves are rolled by the leveling roller shaft 51, as the gloves are made of materials such as veil, cloth, rubber, leather and the like, when being rolled, the gloves are made of softer materials, so that the fit between the gloves is more compact, the fit degree of the gloves during stacking is improved, the gloves are flattened, and the deformation of the gloves caused by the wrinkles in the conveying process is avoided.

The fixed ring 53 is fixedly connected to two sides of the outer surface of the base 56, the inner surface of the fixed ring 53 penetrates through the inner inserting rod 57, the surface of the inner inserting rod 57 is sleeved with the leveling roll shaft 51, the surface of the inner inserting rod 57 is sleeved with the collar 58, and the surface of the collar 58 is fixedly connected to the surface of the vibrating plate 55. Because the glove thickness of different materials is different, the friction effect that produces with leveling roller 51 when contacting with leveling roller 51 is different for leveling roller 51 produces vibration including the inserted bar 57 surface, causes the extrusion to push away bullet frame 54, and promotes to strike frame 541 at vibrating plate 55 surface slip, makes the board 551 that opens and shuts produce the displacement along with striking frame 541 slip, improves the stability of roll-in subassembly 5.

The leveling roll shaft 51 comprises two elastic rings 511, wherein two groups of elastic rings 511 are arranged, clamping plates 515 are fixedly connected to the surfaces of the two groups of elastic rings 511, six clamping plates 515 are arranged, clamping rods 516 are rotatably connected to the surfaces of the six clamping plates 515, and the clamping rods 516 are circumferentially distributed on the outer surface of the inner inserting rod 57. The elastic ring 511 deforms to drive the clamping rod 516 to wave on the surface of the inner inserting rod 57 under the influence of the deformation of the pressing plate 512, so that the clamping plate 515 pushes the friction outer rod 544.

The surface of the clamping plate 515 is fixedly connected with a pressing plate 512, the inner surface of the pressing plate 512 is connected with a sliding bead 513 in a sliding manner, and the surface of the pressing plate 512, which is close to one side of the sliding bead 513, is connected with an inner rotating bead 514 in a rotating manner. The conveying plate 7 drives the gloves stacked on the surface of the conveying plate to slide below the leveling roller shaft 51, so that the pressing plate 512 is in contact with the surface of the gloves, and the gloves are rolled.

In the third embodiment, as shown in fig. 7-8, the bullet pushing frame 54 includes a friction outer rod 544, a bullet block 543 is fixedly connected to an inner surface of the friction outer rod 544, a push rod 542 is fixedly connected to a surface of the bullet block 543, and a knocking frame 541 is fixedly connected to a surface of the push rod 542. The friction outer rod 544 is influenced by the fluctuation of the clamping plate 515 to squeeze the elastic block 543, so that the elastic block 543 is pushed by the friction outer rod 544 and drives the push rod 542 and the knocking frame 541 to squeeze the opening plate 551.

The knocking frame 541 comprises an arc plate 5415, two sides of the outer surface of the arc plate 5415 are fixedly connected with attaching blocks 5416, the upper surface of the arc plate 5415 is fixedly connected with extension rods 5414, the extension rods 5414 are provided with two extension rods 5414, the surfaces of the two extension rods 5414 are fixedly connected with a casing 5413, two sides of the outer surface of the casing 5413 are fixedly connected with connecting blocks 5412, and the surfaces of the connecting blocks 5412 are fixedly connected with knocking plates 5411. The attaching block 5416 is driven by the push rod 542 to move towards the support plate 553 and is attached to the surface of the support plate 553, and the attaching block 5416 is made of flexible materials, so that collision to the support plate 553 is avoided.

The vibration board 55 includes extension board 553, and extension board 553 fixed connection is at the internal surface of side bearer 6, and the surface fixed connection of extension board 553 has bullet pole 552, and the upper surface fixed connection of bullet pole 552 has the switch board 551, and the surface at extension board 553 is connected in the rotation of switch board 551. Push rod 542 drives the cover shell 5413 of arc 5415 top to the board 551 department that opens and shuts and remove, makes to strike board 5411 and extrudees the board 551, makes the board 551 receive the extrusion and laminate with extension board 553 in driving bullet pole 552, improves the stability of roll-in subassembly 5 when rolling the gloves, prevents that the gloves of piling up from taking place to empty, influences production efficiency.

During the use, place on the conveyer belt 3 surface after accomplishing processing through the gloves, carry to send the pressure subassembly 2 department through conveyer belt 3, the gloves are carried by conveyer belt 3 to send the pressure subassembly 2 surface to send the pressure subassembly 2 to extrude, a plurality of gloves pile up on the top board 21 surface, make top board 21 receive pressure to drive the commentaries on classics piece 22 and rotate at fixed block 23 surface, the inclination of top board 21 produces the change, slide the gloves that pile up on the top board 21 to roll in subassembly 5 below, owing to there is certain distance between roll in subassembly 5 and the delivery board 7, can make the gloves pile up and place in delivery board 7 top, and delivery board 7 passes through the motor rotation and connect between the opposite face of side bearer 6, gloves are carried to collection holder 4 department by the delivery board 7 rotation, because the surface of delivery board 7 begins to have a plurality of through-holes, when gloves roll through leveling roller 51, the gloves surface attached impurity, drop along the through-hole, through leveling roller 51 and delivery the edge of collection holder 4 with gloves, again in the collection holder 4 surface sets up the lower joint groove 43 collection.

The gloves are conveyed to the surface of the upper pressing plate 21 by the conveying belt 3, the pressure generated by the gloves enables the upper pressing plate 21 to drive the rotating block 22 to rotate on the surface of the fixed block 23, the rotating block 22 only can drive the upper pressing plate 21 to rotate in the same interval under the position limitation of the fixed block 23 and the special-shaped block 24, the upper pressing plate 21 is subjected to pressure inclination angle change and extrudes the base plate 27, the base plate 27 is bent and contracted, the gloves are stacked and placed conveniently, and along with the increase of the stacking quantity of the water jackets, the end face of the upper pressing plate 21 is contacted with the surface of the lower pressing plate 28, so that the gloves on the upper pressing plate 21 are slid to the surface of the conveying plate 7.

When gloves stacked on the surface of the upper pressing plate 21 are slipped onto the surface of the conveying plate 7, because the backing plate 27 is made of elastic materials, when the pressure applied to the upper pressing plate 21 disappears, the backing plate 27 is sprung to extend to drive the upper pressing plate 21 to reset, so that the gloves can be conveniently stacked and conveyed again, and the stacking efficiency is improved.

The stacked gloves are slid to the lower part of the leveling roller shaft 51 by the upper pressing plate 21, the gloves drive the leveling roller shaft 51 to rotate when being conveyed by the conveying plate 7, and the gloves are rolled by the leveling roller shaft 51, as the gloves are made of materials such as veil, cloth, rubber, leather and the like, when being rolled, the gloves are made of softer materials, so that the fit between the gloves is more compact, the fit degree of the gloves during stacking is improved, the gloves are flattened, and the deformation of the gloves caused by the wrinkles in the conveying process is avoided.

Because the glove thickness of different materials is different, the friction effect that produces with leveling roller 51 when contacting with leveling roller 51 is different for leveling roller 51 produces vibration including the inserted bar 57 surface, causes the extrusion to push away bullet frame 54, and promotes to strike frame 541 at vibrating plate 55 surface slip, makes the board 551 that opens and shuts produce the displacement along with striking frame 541 slip, improves the stability of roll-in subassembly 5.

The conveying plate 7 drives the gloves stacked on the surface of the conveying plate to slide below the leveling roller shaft 51, so that the pressing plate 512 is in contact with the surface of the gloves, and the gloves are rolled.

Push rod 542 drives the cover shell 5413 of arc 5415 top to the board 551 department that opens and shuts and remove, makes to strike board 5411 and extrudees the board 551, makes the board 551 receive the extrusion and laminate with extension board 553 in driving bullet pole 552, improves the stability of roll-in subassembly 5 when rolling the gloves, prevents that the gloves of piling up from taking place to empty, influences production efficiency.

The rolled gloves are conveyed to the limiting plate 44 by the rotary leveling roller shaft 51 and the conveying plate 7 and drop into the collecting box along the lower connecting groove 43, so that stacked gloves are collected, glove stacking is facilitated, and working efficiency is improved.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (4)

1. The utility model provides a glove pile up neatly equipment of preapring for an unfavorable turn of events, includes conveyer belt (3), the surface both sides rotation of conveyer belt (3) are connected with linking axle (1), the fixed surface of linking axle (1) is connected with side bearer (6), side bearer (6) are provided with two, two side bearer (6) use conveyer belt (3) as central symmetry, its characterized in that: a conveying plate (7) is rotationally connected between opposite surfaces of the side frames (6), a pressure conveying assembly (2) is fixedly connected to the upper surface of the conveying plate (7), the pressure conveying assembly (2) is fixedly connected to the inner surface of the side frames (6), a collecting clamping frame (4) is fixedly connected to the surface, far away from one side of the pressure conveying assembly (2), of the conveying plate (7), and the collecting clamping frame (4) is fixedly connected to the inner surface of the side frames (6);

the anti-deformation glove stacking equipment also comprises

The rolling assembly (5), the internal surface at side bearer (6) is fixed connection to rolling assembly (5), rolling assembly (5) are including vibrating plate (55), vibrating plate (55) are provided with two sets of, two sets of vibrating plate (55) all fixed connection are at the internal surface of side bearer (6), the surface sliding connection of vibrating plate (55) has bullet pushing frame (54), the lower surface fixedly connected with base (56) of bullet pushing frame (54), the upper surface intermediate part fixedly connected with support column (52) of base (56), support column (52) fixed connection is at the surface of side bearer (6);

the two sides of the outer surface of the base (56) are fixedly connected with fixing rings (53), the inner surface of each fixing ring (53) is penetrated with an inner inserting rod (57), the surface of each inner inserting rod (57) is sleeved with a flat roll shaft (51), the surface of each inner inserting rod (57) is sleeved with a collar (58), and the surface of each collar (58) is fixedly connected with the surface of the vibrating plate (55);

the leveling roll shaft (51) comprises elastic rings (511), two groups of elastic rings (511) are arranged, clamping plates (515) are fixedly connected to the surfaces of the two groups of elastic rings (511), six clamping plates (515) are arranged, clamping rods (516) are rotatably connected to the surfaces of the six clamping plates (515), and the clamping rods (516) are circumferentially distributed on the outer surface of the inner inserting rod (57);

the surface of the clamping plate (515) is fixedly connected with a pressing plate (512), the inner surface of the pressing plate (512) is connected with a sliding bead (513) in a sliding manner, and the surface of the pressing plate (512) close to one side of the sliding bead (513) is connected with an inner rotating bead (514) in a rotating manner;

the pushing and bouncing frame (54) comprises a friction outer rod (544), a bouncing block (543) is fixedly connected to the inner surface of the friction outer rod (544), a push rod (542) is fixedly connected to the surface of the bouncing block (543), and a knocking frame (541) is fixedly connected to the surface of the push rod (542);

the knocking frame (541) comprises arc plates (5415), two sides of the outer surface of each arc plate (5415) are fixedly connected with attaching blocks (5416), the upper surface of each arc plate (5415) is fixedly connected with extension rods (5414), the two extension rods (5414) are provided with two extension rods (5414) and are fixedly connected with a casing (5413), two sides of the outer surface of each casing (5413) are fixedly connected with connecting blocks (5412), and the surfaces of the connecting blocks (5412) are fixedly connected with knocking plates (5411);

the vibrating plate (55) comprises a support plate (553), the support plate (553) is fixedly connected to the inner surface of the side frame (6), a spring rod (552) is fixedly connected to the surface of the support plate (553), an opening and closing plate (551) is fixedly connected to the upper surface of the spring rod (552), and the opening and closing plate (551) is rotatably connected to the surface of the support plate (553).

2. A deformation-preventing glove palletizing apparatus as in claim 1, wherein: the pressure conveying assembly (2) comprises an upper pressing plate (21), a rotating block (22) is rotatably connected to the surface of the upper pressing plate (21), fixed blocks (23) are fixedly connected to the surface of the rotating block (22), two fixed blocks (23) are arranged, special-shaped blocks (24) are fixedly connected to the surface of the fixed blocks (23), and connecting blocks (25) are fixedly connected to the surface of the special-shaped blocks (24).

3. A deformation-preventing glove palletizing apparatus as in claim 2, wherein: the surface fixedly connected with axostylus axostyle (26) of connecting block (25), the surface rotation of axostylus axostyle (26) is connected with backing plate (27), the fixed block (23) is kept away from the surface fixedly connected with holding down plate (28) of top board (21) one side, holding down plate (28) fixed connection is at the upper surface of delivery plate (7).

4. A deformation-preventing glove palletizing apparatus as in claim 1, wherein: the collecting clamping frame (4) comprises connecting plates (42), fixing plates (41) are fixedly connected to two sides of the outer surface of each connecting plate (42), limiting plates (44) are fixedly connected to the surfaces of the fixing plates (41), lower connecting grooves (43) are formed in the surfaces of the limiting plates (44), and the limiting plates (44) are fixedly connected to the edges of the conveying plates (7).