CN213976367U - Stacking device used after paper cutting - Google Patents

Abstract

The application relates to a stacking device used after paper cutting, which comprises a rack, a stacking module arranged on the rack and a pushing assembly used for moving the stacking module, wherein the stacking module comprises a fixed plate, a first clamping assembly and a second clamping assembly arranged on the fixed plate, a first driving assembly used for driving the first clamping assembly to move horizontally, a second driving assembly used for driving the second clamping assembly to move horizontally and a lifting driving assembly used for driving the second clamping assembly to move vertically; the first clamping assembly comprises a first vertical plate and a first plate unit perpendicular to the first vertical plate, and the first vertical plate is connected with the first driving assembly; the second clamping assembly comprises a second vertical plate and a second plate unit perpendicular to the second vertical plate; the first plate unit and the second plate unit are oppositely arranged; the workbench is provided with a bracket for inserting the first plate unit and the second plate unit; the supporting legs of the frame are provided with vertical telescopic cylinders. This application has the effect that improves the efficiency of stacking paper.

Description

Stacking device used after paper cutting

Technical Field

The application relates to the technical field of stacking, in particular to a stacking device used after paper cutting.

Background

In the production process of paper, after the raw material paper is cut into paper with a certain specification, the paper needs to be pushed onto the forklift plate, and when the paper on the forklift plate is stacked to a certain height, the forklift plate is transported away by a forklift.

At present, as shown in fig. 4, a raw paper is cut into sheets of a fixed size, moved to the end of the table 6, and then manually moved directly onto the forklift plate 7.

In view of the above-described related art, the inventors have considered that there is a drawback in that the stacking work efficiency is low due to manual unreliability and efficiency problems by manually carrying and stacking the sheets.

SUMMERY OF THE UTILITY MODEL

In order to improve stacking efficiency, the application provides a pile up neatly device after being used for paper cutting.

The application provides a be used for pile up neatly device after paper cutting adopts following technical scheme:

a stacking device used after paper cutting comprises a rack, a stacking module arranged on the rack and a pushing assembly used for moving the stacking module in a reciprocating mode along the horizontal direction, wherein the stacking module comprises a fixed plate, a first clamping assembly and a second clamping assembly which are arranged on the fixed plate, a first driving assembly used for driving the first clamping assembly to move horizontally, a second driving assembly used for driving the second clamping assembly to move horizontally and a lifting driving assembly used for driving the second clamping assembly to move vertically; the first clamping assembly comprises a first vertical plate and a first plate unit, the first vertical plate is vertically arranged, the first plate unit is vertically arranged at the bottom of the first vertical plate, and the top of the first vertical plate is connected with a first driving assembly; the second clamping assembly comprises a second vertical plate and a second plate unit, the second vertical plate is vertically arranged on the bottom of the second vertical plate, and the top of the second vertical plate is connected with the second driving assembly; the first plate unit and the second plate unit are oppositely arranged; the workbench is provided with a bracket for inserting the first plate unit and the second plate unit; and the supporting legs of the rack are provided with vertical telescopic cylinders for driving the rack to vertically lift.

By adopting the technical scheme, cut paper slides onto the workbench, the pushing assembly, the first driving assembly and the second driving assembly are started, so that the first plate unit and the second plate unit are inserted into the bracket, the height of the rack is adjusted, the first plate unit and the second plate unit are matched to lift the paper, the pushing assembly is started to move the first plate unit and the second plate unit to be right above the forklift plate, the height of the rack is reduced, and the first plate unit and the second plate unit are close to the forklift plate; the lifting driving assembly is started to enable the second plate unit to rise, the first plate unit is enabled to move towards the direction far away from the second plate unit when the first driving assembly is started, the first plate unit is pulled out from the bottom of the paper, one end of the paper falls on the forklift plate, the second driving assembly is restarted to enable the second plate unit to be pulled out from the bottom of the paper, the paper completely falls on the forklift plate, manual operation is replaced by automatic carrying, and therefore working efficiency is improved.

Optionally, the first driving assembly includes a first sliding block disposed on the fixed plate, a first lead screw vertically penetrating through the first sliding block, and a first motor for driving the first lead screw to rotate, the first sliding block is fixedly connected with the first vertical plate, and the fixed plate is provided with a first moving groove for the first vertical plate to slide; and the first screw rod is in threaded fit with the first sliding block.

Through adopting above-mentioned technical scheme, first riser can remove independently, and mechanical drive replaces artifical transport, and then has improved work efficiency.

Optionally, the second driving assembly includes a second sliding block disposed on the fixing plate, a second lead screw vertically penetrating through the second sliding block, and a second motor for driving the second lead screw to rotate; the second sliding block is in sliding fit with the fixed plate, and the second screw rod is in threaded fit with the second sliding block; a second moving groove for the second vertical plate to slide is formed in the fixing plate; the lifting driving assembly comprises a lifting motor arranged on the second sliding block and a lifting gear arranged on a motor shaft of the lifting motor; the second sliding block is worn to locate by the second riser, and a plurality of tooth's socket formation racks have been seted up to the one end that the second riser passed the second sliding block, lifting gear and rack toothing.

Through adopting above-mentioned technical scheme, the second riser can be adjusted according to actual need with the driving source relatively independent of first riser to mechanical drive replaces artifical transport, and then has improved work efficiency.

Optionally, the length of the second plate unit is smaller than the length of the first plate unit.

Through adopting above-mentioned technical scheme, when the second board unit risees, first board unit is taken out from the paper bottom, and paper one end falls on the fork truck board, then takes the second board unit out again, makes things convenient for taking out of second board unit after the second board unit shortens more.

Optionally, the first plate unit includes the diaphragm that is fixed in on the first riser and sets up the extension board in the diaphragm side, it is used for driving the third drive assembly of extension board along diaphragm length direction reciprocating motion to add on the first riser, extension board and diaphragm sliding fit.

Through adopting above-mentioned technical scheme, when first board unit need take out from, the extension board moves to the direction of keeping away from the second board unit earlier for the length of first board unit shortens, and the distance that first board unit required removal was then diminished when taking out from, thereby improves work efficiency.

Optionally, a supporting rod is arranged on the lateral side of the transverse plate, a sliding groove arranged along the length direction of the extending plate is formed in the lateral side, close to the transverse plate, of the extending plate, the supporting rod is inserted into the sliding groove, and the supporting rod is in sliding fit with the sliding groove.

Through adopting above-mentioned technical scheme, branch supports the extension board, makes things convenient for the removal of extension board.

Optionally, the third driving assembly comprises a third motor arranged on the vertical rod, a driving gear vertically fixed on an output shaft of the third motor and a driving rack arranged in the sliding groove, and the driving gear is meshed with the driving rack.

Through adopting above-mentioned technical scheme, rack and pinion can control the motion of extension board more stably.

Optionally, the pushing assembly comprises a mounting plate fixed at the top of the fixing plate, a pushing gear rotationally connected to the mounting plate, a pushing rack fixed on the frame and meshed with the pushing gear, and a pushing motor for driving the pushing gear to rotate; the mounting panel all is located the frame top with the promotion gear, and the rack is on a parallel with the straight line that first riser and second riser link.

Through adopting above-mentioned technical scheme, make the fixed plate that is fixed in on the mounting panel through the connecting block can be stable and accurate remove to the fork truck board directly over.

Optionally, lug plates are additionally arranged at the end parts, far away from the fixed plate, of the first vertical plate and the second vertical plate; the side of the ear plate on the first vertical plate facing the second vertical plate is flush with the side of the first vertical plate facing the second vertical plate, and the side of the ear plate on the second vertical plate facing the first vertical plate is flush with the side of the second vertical plate facing the first vertical plate.

Through adopting above-mentioned technical scheme, the otic placode helps paper alignment to make paper remain stable in handling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mechanical equipment replaces manual work to stack the paper, so that the working efficiency of paper stacking is improved;

2. by setting the first plate unit to be telescopic, the time for drawing the first plate unit away from the bottom of the paper is shortened, and therefore stacking efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of the overall construction of the palletizing module in the embodiment of the application;

FIG. 3 is an enlarged view of the portion A of FIG. 2;

fig. 4 is a schematic view of the overall structure of a table in the related art.

Description of reference numerals: 1. a frame; 11. a column; 111. a vertical expansion member; 112. a telescopic rod; 12. a longitudinal bar; 13. a cross bar; 2. a stacking module; 21. a fixing plate; 22. a first clamping assembly; 221. a first vertical plate; 222. a first plate unit; 2221. a transverse plate; 2222. an extension plate; 2223. a strut; 23. a second clamping assembly; 231. a second vertical plate; 2311. a tooth socket; 232. a second plate unit; 24. a first drive assembly; 241. a first slider; 242. a first lead screw; 243. a first motor; 25. a second drive assembly; 251. a second slider; 252. a second lead screw; 253. a second motor; 26. a lift drive assembly; 261. a lifting motor; 262. a lifting gear; 271. a first moving slot; 272. a second moving slot; 3. a pushing assembly; 31. pushing the rack; 32. mounting a plate; 33. a push motor; 34. a push gear; 4. connecting blocks; 5. an ear plate; 51. fixing grooves; 6. a work table; 61. a bracket; 62. a baffle plate; 7. a forklift plate; 8. a third drive assembly; 81. a third motor; 82. a drive gear; 83. a drive rack; 9. a chute.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a pile up neatly device after being used for paper cutting. Referring to fig. 1, the palletizing device comprises a frame 1, a palletizing module 2 arranged on the frame 1 and a pushing assembly 3. The rack 1 comprises four upright posts 11, two longitudinal rods 12 and two cross rods 13, wherein the two longitudinal rods 12 and the two cross rods 13 form a rectangle, the four upright posts 11 are vertically fixed on four corners of the rectangle, and the upright posts 11 are arranged perpendicular to the ground. Wherein, the one end that is close to ground of two stand 11 that the opposite angle set up is equipped with vertical extensible member 111, and vertical extensible member 111 sets up perpendicular to ground, and vertical extensible member 111 is the cylinder in this embodiment, and two other stand 11 that the opposite angle set up are set up as telescopic link 112.

The workbench 6 and the forklift plate 7 are both arranged right below a rectangle enclosed by the longitudinal rods 12 and the transverse rods 13. The side edge of the working table 6 is provided with a baffle 62 along the direction of the longitudinal rod 12, the baffle 62 is perpendicular to the working table 6, and the working table 6 is provided with a bracket 61 arranged along the direction of the longitudinal rod 12.

The pushing assembly 3 comprises pushing racks 31, mounting plates 32, pushing motors 33 and pushing gears 34, wherein the pushing racks 31 and the mounting plates 32 are arranged on the longitudinal rods 12, the pushing motors 33 are arranged on the mounting plates 32, the pushing gears 34 are vertically fixed on motor shafts of the pushing motors 33, the pushing racks 31 are arranged on the two longitudinal rods 12, two pushing motors 33 are arranged below the mounting plates 32, the pushing motors 33 are double-shaft motors, the pushing gears 34 are arranged on the two motor shafts of the pushing motors 33, and the pushing gears 34 are meshed with the pushing racks 31.

With reference to fig. 1 and 2, the pallet module 2 includes a fixed plate 21, a first clamping assembly 22 and a second clamping assembly 23 disposed on the fixed plate 21, a first driving assembly 24, a second driving assembly 25, and a lifting driving assembly 26 disposed on the fixed plate 21. A connecting block 4 is arranged between the fixing plate 21 and the mounting plate 32, and the fixing plate 21 and the mounting plate 32 are fixedly connected through the connecting block 4. The fixed plate 21 has a first moving groove 271 for the first clamping unit 22 to move and a second moving groove 272 for the second clamping unit 23 to move.

The first driving assembly 24 includes a first motor 243 fixed on the fixing plate 21, a first screw 242 rotatably connected to the fixing plate 21, and a first sliding block 241 disposed on the screw, the first motor 243 is a dual-axis motor and disposed perpendicular to the direction of the vertical rod 12, and two motor shafts of the first motor 243 are both provided with bevel gears. Two first screw rods 242 are provided, the two first screw rods 242 penetrate through two sides of the first motor 243 along the direction of the longitudinal rod 12, one end of the first screw rod 242 close to the first motor 243 is provided with bevel teeth, and the bevel teeth on the first motor 243 are meshed with the bevel teeth on the first screw rod 242. The first sliding block 241 is in sliding fit with the fixing plate 21, the first sliding block 241 is perpendicular to the first screw 242, and the first sliding block 241 is in threaded fit with the first screw 242. The first slider 241 is connected to the first clamping member 22. The first moving groove 271 is disposed between the two first lead screws 242.

The first clamping assembly 22 comprises a first vertical plate 221 and a first plate unit 222, the first vertical plate 221 is vertically arranged, the first vertical plate 221 is inserted into the first moving groove 271, and the first vertical plate 221 and the first moving groove 271 are in sliding fit. One end of the first vertical plate 221 passing through the first moving groove 271 is fixed to the first sliding block 241, and the other end of the first vertical plate 221 is horizontally disposed on the first plate unit 222.

The second driving assembly 25 includes a second motor 253, a second lead screw 252, and a second slide block 251. The second motor 253 is a dual-shaft motor and is arranged perpendicular to the direction of the vertical rod 12, and bevel teeth are fixed on motor shafts of the second motor 253. The number of the second screw rods 252 is two, the two second screw rods 252 are perpendicular to a motor shaft of the second motor 253 and are arranged on two sides of the second motor 253, one end of each second screw rod 252 close to the second motor 253 is provided with a bevel gear, and the bevel gears on the second motor 253 are meshed with the bevel gears on the second screw rods 252. The second sliding block 251 is in sliding fit with the fixing plate 21, the second screw rod 252 vertically penetrates through two ends of the second sliding block 251, and the second screw rod 252 is in threaded fit with the second sliding block 251.

The elevation driving assembly 26 includes an elevation motor 261 fixed to the top surface of the second slider 251 and an elevation gear 262 vertically fixed to a motor shaft of the elevation motor 261. The second vertical plate 231 is disposed through the second sliding block 251, and a tooth groove 2311 is disposed at one end of the second vertical plate 231 passing through the second sliding block 251, and the tooth groove 2311 is engaged with the lifting gear 262. The second moving groove 272 is disposed between the two second lead screws 252.

The second clamping assembly 23 comprises a second vertical plate 231 and a second plate unit 232, the second vertical plate 231 is inserted into the second moving groove 272, and the second vertical plate 231 and the second moving groove 272 are in sliding fit. The second riser 231 is vertically disposed and passes through the second moving slot 272. The second vertical plate 231 penetrates through the second sliding block 251, one end of the second vertical plate 231, which penetrates through the second sliding block 251, is provided with a plurality of tooth grooves 2311 to form racks, and the lifting gear 262 is meshed with the racks.

Referring to fig. 2, the first plate unit 222 includes a horizontal plate 2221 fixed to an end of the first vertical plate 221 and extension plates 2222 disposed on two sides of the horizontal plate 2221, and a third driving assembly 8 for driving the extension plates 2222 is disposed on a side of the first vertical plate 221 facing away from the horizontal plate 2221. Two supporting rods 2223 for supporting the extending plate 2222 are respectively added on the two side surfaces of the transverse plate 2221, and the supporting rods 2223 are perpendicular to the side surfaces of the transverse plate 2221. The two extending plates 2222 are disposed on two sides of the horizontal plate 2221, a sliding slot 9 corresponding to the supporting rod 2223 is disposed on a side surface of the extending plate 2222 close to the horizontal plate 2221, and the length of the supporting rod 2223 is greater than half of the width of the extending plate 2222.

With reference to fig. 2 and 3, the third driving assembly 8 includes a third motor 81 and a driving gear 82 fixed on a motor shaft of the third motor 81, the third motor 81 is a dual-shaft motor, and the driving gear 82 is vertically fixed on both motor shafts of the third motor 81. The upper side wall and the lower side wall of the sliding chute 9 are both provided with a driving rack 83, and the driving gear 82 is meshed with the driving rack 83.

Referring to fig. 2, the first vertical plate 221 and the second vertical plate 231 are respectively provided with an ear plate 5, the ear plate 5 is provided with a fixing groove 51 for installation, and the ear plate 5 is fixed on the first vertical plate 221 and the second vertical plate 231 through bolts. The side that is located on first riser 221 the otic placode 5 is close to the paper flushes with the side that first riser 221 is close to the paper, is located on the second riser 231 the side that the otic placode 5 is close to the paper flushes with the side that second riser 231 is close to the paper.

The implementation principle of the embodiment of the application is as follows: the paper is fed onto the table 6 after being cut by the cutter, and one side of the paper is aligned with the barrier 62, the vertical telescopic member 111 is adjusted and the pushing motor 33 is started, the fixing plate 21 is disposed right above the table 6, and the heights of the first plate unit 222 and the second plate unit 232 are identical to the height of the bracket 61. The first motor 243 is started to drive the first screw 242 to rotate, so that the first sliding block 241 moves towards the direction close to the second sliding block 251, the second motor 253 is started to drive the second screw 252 to rotate, so that the second sliding block 251 moves towards the direction close to the first sliding block 241, the first plate unit 222 and the second plate unit 232 are inserted into the bracket 61, and the side walls of the first vertical plate 221 and the second vertical plate 231 are tightly attached to the side edges of the paper. The third motor 81 is activated to rotate the driving gear 82, so that the two extending plates 2222 move toward the second plate unit 232.

Vertical telescoping member 111 is actuated to raise fixed plate 21 and push motor 33 is actuated to position fixed plate 21 directly above forklift truck deck 7, and then vertical telescoping member 111 is actuated to lower fixed plate 21, and movement of vertical telescoping member 111 is stopped when first plate unit 222 and second plate unit 232 are adjacent forklift truck deck 7. The lifting motor 261 is started to enable the second vertical plate 231 to drive the second plate unit 232 to ascend, one end of the paper is lifted by the second plate unit 232, the first motor 243 is started to enable the first sliding block 241 to drive the first vertical plate 221 to move towards the direction far away from the paper, and meanwhile the third motor 81 is started to enable the extension plate 2222 to move towards the direction far away from the second plate unit 232.

When the extension plate 2222 and the cross plate 2221 are pulled away from the bottom of the sheet, one end of the sheet falls on the fork plate 7. When the second motor 253 is activated at this time, the second slider 251 is moved in a direction away from the sheet, and when the second plate unit 232 is pulled away from the bottom of the sheet, the other end of the sheet also falls on the forklift plate 7, that is, the conveyance is completed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a be used for pile up neatly device behind paper cutting which characterized in that: the stacking device comprises a rack (1), a stacking module (2) arranged on the rack (1) and a pushing assembly (3) used for moving the stacking module (2) in a horizontal reciprocating mode, wherein the stacking module (2) comprises a fixed plate (21), a first clamping assembly (22) and a second clamping assembly (23) which are arranged on the fixed plate (21), a first driving assembly (24) used for driving the first clamping assembly (22) to move horizontally, a second driving assembly (25) used for driving the second clamping assembly (23) to move horizontally and a lifting driving assembly (26) used for driving the second clamping assembly (23) to move vertically; the first clamping assembly (22) comprises a first vertical plate (221) and a first plate unit (222), the first vertical plate (221) is vertically arranged at the bottom of the first vertical plate (221), and the top of the first vertical plate (221) is connected with the first driving assembly (24); the second clamping assembly (23) comprises a second vertical plate (231) and a second plate unit (232), the second vertical plate (231) is vertically arranged at the bottom of the second vertical plate (231), and the top of the second vertical plate (231) is connected with a second driving assembly (25); the first plate unit (222) and the second plate unit (232) are oppositely arranged; a bracket (61) for inserting the first plate unit (222) and the second plate unit (232) is arranged on the workbench (6); and vertical telescopic cylinders used for driving the rack (1) to vertically lift are arranged on the supporting legs of the rack (1).

2. A device for the post-cutting palletization of sheets according to claim 1, characterized in that: the first driving assembly (24) comprises a first sliding block (241) arranged on the fixing plate (21), a first screw rod (242) vertically penetrating through the first sliding block (241) and a first motor (243) for driving the first screw rod (242) to rotate, the first sliding block (241) is fixedly connected with a first vertical plate (221), and a first moving groove (271) for the first vertical plate (221) to slide is formed in the fixing plate (21); the first screw rod (242) is in threaded fit with the first sliding block (241).

3. A device for the post-cutting palletization of paper according to claim 2, characterized in that: the second driving assembly (25) comprises a second sliding block (251) arranged on the fixing plate (21), a second screw rod (252) vertically penetrating through the second sliding block (251) and a second motor (253) for driving the second screw rod (252) to rotate; the second sliding block (251) is in sliding fit with the fixed plate (21), and the second screw rod (252) is in threaded fit with the second sliding block (251); a second moving groove (272) for the second vertical plate (231) to slide is formed in the fixing plate (21); the lifting driving component (26) comprises a lifting motor (261) arranged on the second sliding block (251) and a lifting gear (262) arranged on a motor shaft of the lifting motor (261); the second vertical plate (231) penetrates through the second sliding block (251), one end, penetrating through the second sliding block (251), of the second vertical plate (231) is provided with a plurality of tooth grooves (2311) to form a rack, and the lifting gear (262) is meshed with the rack.

4. A device for the post-cutting palletization of paper according to claim 3, characterized in that: the second plate unit (232) has a length smaller than that of the first plate unit (222).

5. A palletizing device after paper cutting according to claim 4, characterized in that: the first plate unit (222) comprises a transverse plate (2221) fixed on a first vertical plate (221) and an extension plate (2222) arranged on the side edge of the transverse plate (2221), a third driving assembly (8) used for driving the extension plate (2222) to reciprocate along the length direction of the transverse plate (2221) is additionally arranged on the first vertical plate (221), and the extension plate (2222) is in sliding fit with the transverse plate (2221).

6. A palletizing device after paper cutting according to claim 5, characterized in that: the side of the transverse plate (2221) is provided with a supporting rod (2223), the side of the extending plate (2222) close to the transverse plate (2221) is provided with a sliding groove (9) arranged along the length direction of the extending plate (2222), the supporting rod (2223) is inserted into the sliding groove (9), and the supporting rod (2223) is in sliding fit with the sliding groove (9).

7. A palletizing device after paper cutting according to claim 6, characterized in that: the third driving assembly (8) comprises a third motor (81) arranged on the vertical rod, a driving gear (82) vertically fixed on an output shaft of the third motor (81) and a driving rack (83) arranged in the sliding groove (9), and the driving gear (82) is meshed with the driving rack (83).

8. A device for the post-cutting palletization of sheets according to claim 1, characterized in that: the pushing assembly (3) comprises a mounting plate (32) fixed at the top of the fixing plate (21), a pushing gear (34) rotationally connected to the mounting plate (32), a pushing rack (31) fixed on the rack (1) and meshed with the pushing gear (34), and a pushing motor (33) used for driving the pushing gear (34) to rotate; the mounting plate (32) and the pushing gear (34) are both located above the rack (1), and the rack is parallel to a straight line connected with the first vertical plate (221) and the second vertical plate (231).

9. A device for the post-cutting palletization of sheets according to claim 1, characterized in that: the end parts, far away from the fixing plate (21), of the first vertical plate (221) and the second vertical plate (231) are additionally provided with lug plates (5); one side, facing the second vertical plate (231), of the ear plate (5) on the first vertical plate (221) is flush with one side, facing the second vertical plate (231), of the first vertical plate (221), and one side, facing the first vertical plate (221), of the ear plate (5) on the second vertical plate (231) is flush with one side, facing the first vertical plate (221), of the second vertical plate (231).

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