CN211466685U

CN211466685U - Die-cut commentaries on classics of silica gel callus on sole pastes device

Info

Publication number: CN211466685U
Application number: CN201922305238.6U
Authority: CN
Inventors: 刘德培; 曾华锋; 曹宏勇
Original assignee: Suzhou Xintianyou Photoelectric Material Co ltd
Current assignee: Suzhou Xintianyou Photoelectric Material Co ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-09-11
Anticipated expiration: 2029-12-20

Abstract

The utility model relates to a coiled material preparation field discloses a die-cut commentaries on classics of silica gel callus on sole is pasted device, including five metals activity cutting die, unwinding mechanism and winding mechanism, five metals activity cutting die includes the mould, the lower mould, take off material device and station support, the station support is including dashing the material station and taking off the material station, the lower mould sets up on the station support, be provided with the horizontal power unit that the drive lower mould was stamped the material station and was taken off material station round trip movement on the station support, it just can be relatively towards the material station and reciprocate to go up the mould setting in the top of dashing the material station, it takes off flitch power unit including taking off the flitch that is located in the lower mould and being located the below of taking off the material station to take off the material device, it is located between unwinding mechanism and the winding mechanism to take off the. The punched product can be directly aligned and pushed to the coiled material to be pasted on the release film, the labor is saved, the efficiency is improved, the consistency is good, and the yield is high.

Description

Die-cut commentaries on classics of silica gel callus on sole pastes device

Technical Field

The utility model relates to a coiled material making devices, in particular to die-cut commentaries on classics of silica gel callus on sole subsides device.

Background

In some coil manufacturing, small part products are required to be transferred and pasted on a winding belt one by one so as to manufacture the coil belt for subsequent use. In the production of small-sized components, a large number of components are usually produced together on the same plate, and then the component products are punched and cut out one by one in subsequent operations. In the existing punching die, a large number of cutting tools matched with products are fixed on the die, and the distances between the tools are fixed, but in the production of spare parts, the distances among the spare parts distributed on a plate have errors, the distances among the spare part products are uneven, and the problem that the products are cut and cut off unevenly due to uneven product distances cannot be solved; the transfer section after the part product is punched and cut is generally pasted manually, and the efficiency is low. The yield is also not high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a die-cut commentaries on classics of silica gel callus on sole pastes device.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a die-cut commentaries on classics of silica gel callus on sole pastes device, includes five metals activity cutting die, unwinding mechanism and winding mechanism, five metals activity cutting die includes mould, lower mould, takes off material device and station support, the station support is including dashing the material station and taking off the material station, the lower mould sets up on the station support, be provided with the horizontal power unit of drive lower mould material station and taking off material station round trip movement on the station support, it reciprocates to go up the mould setting in the top of dashing the material station and can dash the material station relatively, take off the material device including the flitch of taking off that is located the lower mould and the flitch power unit of taking off that is located the below of taking off the material station, it is located between unwinding mechanism and the winding mechanism to take off the material station, be provided with the reference column on the lower mould, it. The punched product can be directly aligned and pushed to the coiled material to be pasted on the release film, the labor is saved, the efficiency is improved, the consistency is good, and the yield is high.

Further, the method comprises the following steps: the lower die comprises a cutting die fixing plate and a movable cutting die, a plurality of cutting die mounting concave stations are arranged on the cutting die fixing plate, and the movable cutting die is movably arranged in the cutting die mounting concave stations in an aligning mode. The tubular cutting die is movable, so that the sleeve product can easily enter the cutting die, the poor punching damage of the product due to the cutting damage caused by inconsistent space is avoided, the working hours of processing and production are saved, the production efficiency of punching products can be improved by automatically removing materials, and the reject ratio of the product is reduced.

Further, the method comprises the following steps: the inner side of the movable cutting die at the bottom of the cutting die accommodating concave table is provided with a penetrating stripping hole, two sides of the stripping hole at the bottom of the cutting die fixing plate are provided with two supporting blocks, a moving plate is arranged below the two supporting blocks, the stripping plate is arranged between the two supporting blocks above the moving plate, the stripping plate is provided with a plurality of stripping rods which correspond to the stripping hole one by one, the moving plate is provided with a driving hole which penetrates up and down in a position corresponding to the center of the stripping plate, the diameter of the driving hole is smaller than the side length of the stripping plate, the upper end of a stripping plate power mechanism is fixed with a driving rod, the upper end of the driving rod is provided with a circular pushing plate, the diameters of the driving rod and the circular pushing plate are both smaller than the diameter of the driving hole, two sides of the stripping plate power mechanism are provided with vertical fixing plates, and, the horizontal fixing plate is located above the stripper plate power mechanism, a through guide hole is formed in the position, corresponding to the transmission rod, of the horizontal fixing plate, and the transmission rod 330 is located in the guide hole. The stripping rod on the stripping plate stably pushes out the product in the movable cutting die upwards and sticks the product to the product winding belt.

Further, the method comprises the following steps: two parallel sliding bosses protruding horizontally are arranged on the inner sides of two side frames of the station support, concave platforms matched with the sliding bosses are arranged on two sides of the moving plate, and the horizontal power mechanism is connected with the rear end of the moving plate. Simple structure is firm, and the movable plate drives the lower mould and removes convenient stability.

Further, the method comprises the following steps: the movable clearance between the inner cavity surface of the cutting die mounting concave table and the outer surface of the movable cutting die is 0.30 mm. The movement in a small range is convenient, and the contraposition loading of products with unstable loading intervals is convenient.

Further, the method comprises the following steps: the upper end of the stripping rod is provided with a fillet. The product is protected from being scratched and cannot generate indentation due to stress.

Drawings

Fig. 1 is a cross-sectional view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view of the upper die, the lower die, the stripper device and the station support;

FIG. 4 is a top view of the lower die;

fig. 5 is a sectional view of the lower mold and the stripper plate.

Labeled as: the device comprises an upper die 100, a containing hole 101, a lower die 200, a positioning column 201, a cutting die fixing plate 210, a cutting die mounting concave table 211, a stripping hole 212, a movable cutting die 220, a supporting block 250, a moving plate 260, a driving hole 261, a stripping device 300, a stripping plate 310, a stripping rod 311, a stripping plate power mechanism 320, a transmission rod 330, a circular pushing plate 331, a vertical fixing plate 340, a horizontal fixing plate 341, a guiding hole 342, a station support 400, a horizontal power mechanism 410, a sliding boss 420, an unreeling mechanism 510 and a reeling mechanism 520.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1 to 3, a die-cut commentaries on classics of silica gel callus on sole is installed, including five metals activity cutting die, unwinding mechanism 510 and winding mechanism 520, five metals activity cutting die includes last mould 100, lower mould 200, takes off material device 300 and station support 400, station support 400 includes towards the material station and takes off the material station, lower mould 200 sets up on station support 400, be provided with the horizontal power unit 410 that drives lower mould 200 and expect the station round trip movement on station support 400, it just can dash the material station to reciprocate relatively to go up the mould 100 setting in the top of towards the material station, it includes the flitch 310 that takes off that is located lower mould 200 and the flitch power unit 320 that takes off that is located the below of taking off the material station to take off the material device 300, it is located between unwinding mechanism 510 and winding mechanism 520 to take off the material station, be provided with reference column 201 on the lower mould 200, the upper die 100 is provided with a receiving hole 101 at a position corresponding to the positioning post 201. The horizontal power mechanism 410 and the stripper plate power mechanism 320 are both cylinders, and may be other linear power mechanisms with linear driving functions, such as linear motors. The unwinding mechanism 510 and the winding mechanism 520 are both winding and unwinding mechanisms having a rated tension. Initially, the lower die 200 is located at a stripping station, a product plate alignment plate for fixing a plurality of products together is installed on the lower die 200 at the stripping station, the horizontal power mechanism 410 drives the lower die 200 to move to a punching station on the station support 400, the upper die 100 moves downwards to punch and cut the products and then reset, the horizontal power mechanism 410 drives the lower die 200 to move to the stripping station on the station support 400, a tape drawn between the unreeling mechanism 510 and the reeling mechanism 520 is located above the upper and lower dies at the stripping station, a limiting hole on an adhesive surface is aligned with the positioning post 201 to be pressed downwards by hands, the product plate for fixing the plurality of products together on the lower die is adhered to the tape, and the stripper plate power mechanism 320 located below the stripping station on the station support 400 moves upwards to drive the stripper plate 310 to move upwards to jack the product plate on the lower die 200 and the tape together to leave the lower die 200; after the coiled belt leaves the lower die with the adhered product plates, a new product plate without stamping is aligned and placed on the lower die 200, the horizontal power mechanism 410 drives the lower die 200 to move to a stamping station on the station support 400 for stamping by using the upper die, after the stamping is completed, the horizontal power mechanism 410 drives the lower die 200 to move to a stripping station on the station support 400, the coiled belt is moved by hand and aligned and pressed on the lower die by using a limit hole on the coiled belt to paste the product plate which is stamped, the stripping plate power mechanism 320 positioned below the stripping station on the station support 400 moves up to drive the stripping plate 310 to move up to jack the product plates on the lower die 200 and the coiled belt together to leave the lower die 200, and the product plates can be aligned and stuck on the coiled belt after being stamped one by one-to-one cycle operation. The punched product can be directly aligned and pushed to the coiled material to be pasted on the release film, the labor is saved, the efficiency is improved, the consistency is good, and the yield is high.

On the basis, as shown in fig. 3 to 5, the lower die 200 includes a cutting die fixing plate 210 and a movable cutting die 220, the cutting die fixing plate 210 is provided with a plurality of cutting die mounting concave stations 211, and the movable cutting die 220 is movably aligned in the cutting die mounting concave stations 211. The cutting die mounting concave 211 and the movable cutting die 220 are combined into a shape with a rectangle in the middle and semi-circles at two ends according to the shape of a product, and two stripping holes 212 are arranged at two ends of the cutting die mounting concave 211, which are not contacted with the movable cutting die 220. The fixed product board that is in the same place of a plurality of products is counterpointed and is placed cutting die arrangement concave station 211 position on cutting die fixed plate 210, the product board is removed repeatedly to the minim scope, make activity cutting die 220 place in cutting die arrangement concave station 211 move all counterpoint with every product on the product board and match, tubular cutting die is all movable, so set product entering cutting die is also very easy, avoid the product because the product that the interval nonconformity leads to cuts the bruise bad, save processing production man-hour, the automatic production efficiency that takes off the material and can improve the die product, reduce the product defective rate.

On the basis of the above, as shown in fig. 3 to 5, the inner side of the movable cutting die 220 at the bottom of the cutting die mounting concave table 211 is provided with a through stripper hole 212, two sides of the stripper hole 212 at the bottom of the cutting die fixing plate 210 are provided with two support blocks 250, a moving plate 260 is arranged below the two support blocks 250, the stripper plate 310 is arranged between the two support blocks 250 above the moving plate 260, the stripper plate 310 is provided with a plurality of stripper rods 311 corresponding to the stripper hole 212 one by one, the moving plate 260 is provided with a driving hole 261 penetrating up and down at a position corresponding to the center of the stripper plate 310, the diameter of the driving hole 261 is smaller than the side length of the stripper plate 310, the upper end of the stripper plate power mechanism 320 is fixed with a driving rod 330, the upper end of the driving rod 330 is provided with a circular pushing plate 331, and the diameters of the driving rod 330 and the circular pushing plate 331 are both smaller than the diameter, the two sides of the stripper plate power mechanism 320 are provided with vertical fixing plates 340, the upper end of each vertical fixing plate 340 is horizontally fixed with a horizontal fixing plate 341, the horizontal fixing plate 341 is positioned above the stripper plate power mechanism 320, a through guide hole 342 is formed in the horizontal fixing plate 341 at a position corresponding to the transmission rod 330, and the transmission rod 330 is positioned in the guide hole 342. The bottom of the cutting die fixing plate 210 is provided with a reinforced horizontal plate 213 for fixing the cutting die fixing plate 210, the reinforced horizontal plate 213 is also provided with a through hole which is the same as the stripping hole 212 at the position corresponding to the stripping hole 212, and two sides of the reinforced horizontal plate 213 are fixed on two supporting blocks 250. The diameter of the guiding hole 342 is slightly larger than that of the transmission rod 330, so that the transmission rod 330 can move up and down and limit the movement of the transmission rod 330 in the horizontal direction, and the vertical stability of the transmission rod 330 when moving up and down under the driving of the stripper plate power mechanism 320 is ensured. The stripping rods 311 on the stripping plate 310 stably eject and stick the product in the movable cutting die 220 upwards onto the product tape.

On the basis, as shown in fig. 1 to 3, two horizontal and convex sliding bosses 420 are arranged on the inner sides of two side frames of the station support 400, concave platforms matched with the sliding bosses 420 are arranged on two sides of the moving plate 260, and the horizontal power mechanism 410 is connected with the rear end of the moving plate 260. The station support 400 and the sliding bosses 420 are integrally formed metal frames, the moving plate 260 is of a metal plate structure, two sides of the moving plate 260 are matched with the two sliding bosses 420, the moving plate 260 moves along the two sliding bosses 420 and is restrained, the structure is simple and firm, and the moving plate 260 drives the lower die 200 to move conveniently and stably.

On the basis of the above, as shown in fig. 3 to 5, the movable gap between the inner cavity surface of the cutting die seating recess 211 and the outer surface of the movable cutting die 220 is 0.30 mm. The movement in a small range is convenient, and the contraposition loading of products with unstable loading intervals is convenient.

On the basis of the above, as shown in fig. 3 to 5, the upper end of the stripping rod 311 is provided with a round corner. The product is protected from being scratched and cannot generate indentation due to stress.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a die-cut commentaries on classics of silica gel callus on sole pastes device which characterized in that: including five metals activity cutting die, unwinding mechanism (510) and winding mechanism (520), five metals activity cutting die includes mould (100), lower mould (200), takes off material device (300) and station support (400), station support (400) are including dashing the material station and taking off the material station, lower mould (200) set up on station support (400), be provided with drive lower mould (200) on station support (400) and expect station and take off horizontal power unit (410) of material station round trip movement on station support (400), it just can dash the material station to reciprocate relatively to go up the setting of mould (100) in the top of dashing the material station, take off material device (300) including being located lower mould (200) take off flitch (310) and being located taking off flitch power unit (320) in the below of taking off the material station, it is located between unwinding mechanism (510) and winding mechanism (520) to take off the material station, the lower die (200) is provided with a positioning column (201), and the upper die (100) is provided with a containing hole (101) at a position corresponding to the positioning column (201).

2. The die-cut commentaries on classics of silica gel callus on sole of claim 1 pastes device which characterized in that: the lower die (200) comprises a cutting die fixing plate (210) and a movable cutting die (220), a plurality of cutting die mounting concave stations (211) are arranged on the cutting die fixing plate (210), and the movable cutting die (220) is movably arranged in the cutting die mounting concave stations (211) in an aligning mode.

3. The die-cut commentaries on classics of silica gel callus on sole of claim 2 pastes device which characterized in that: the inner side of a movable cutting die (220) at the bottom of the cutting die mounting concave table (211) is provided with a penetrating stripping hole (212), two supporting and supporting blocks (250) are arranged on two sides of the stripping hole (212) at the bottom of the cutting die fixing plate (210), a moving plate (260) is arranged below the two supporting and supporting blocks (250), the stripping plate (310) is arranged between the two supporting and supporting blocks (250) above the moving plate (260), a plurality of stripping rods (311) which correspond to the stripping hole (212) one by one are arranged on the stripping plate (310), a driving hole (261) which penetrates up and down is arranged at a position on the moving plate (260) corresponding to the center of the stripping plate (310), the diameter of the driving hole (261) is smaller than the side length of the stripping plate (310), a driving rod (330) is fixed at the upper end of the stripping plate power mechanism (320), and a circular pushing plate (331) is arranged at the upper end of the driving rod, the diameter of the transmission rod (330) and the diameter of the circular pushing plate (331) are smaller than the diameter of the driving hole (261), vertical fixing plates (340) are arranged on two sides of the stripper plate power mechanism (320), a horizontal fixing plate (341) is horizontally fixed at the upper end of the vertical fixing plate (340), the horizontal fixing plate (341) is located above the stripper plate power mechanism (320), a through guide hole (342) is formed in the horizontal fixing plate (341) and corresponds to the transmission rod (330), and the transmission rod (330) is located in the guide hole (342).

4. The die-cut commentaries on classics of silica gel callus on sole of claim 3 pastes device which characterized in that: two parallel sliding bosses (420) protruding horizontally are arranged on the inner sides of two side frames of the station support (400), concave platforms matched with the sliding bosses (420) are arranged on two sides of the moving plate (260), and the horizontal power mechanism (410) is connected with the rear end of the moving plate (260).

5. The die-cut commentaries on classics of silica gel callus on sole of claim 2 pastes device which characterized in that: the movable gap between the inner cavity surface of the cutting die mounting concave table (211) and the outer surface of the movable cutting die (220) is 0.30 mm.

6. The die-cut commentaries on classics of silica gel callus on sole of claim 3 pastes device which characterized in that: the upper end of the stripping rod (311) is provided with a round angle.