CN116968997B - Board baling press with function is piled up in alignment - Google Patents

Abstract

The application relates to the technical field of plate packing, in particular to a plate packing machine with an alignment stacking function; comprises a correction component, a stretching and descending component and a supporting plate component; according to the application, the distance adjusting modules on two sides are adjusted by the correction assembly to adapt to plates with different sizes, and the plates can smoothly and regularly enter the rectangular leakage groove to be stably stacked and packed through the arc outward expansion structure of the guide plate and the limiting plate; and the lower end of the U-shaped claw is abutted against the fork arm of the forklift through the spring to lock and limit in the carrying process, so that the stacked plates can be prevented from overturning in the transferring process.

Description

Board baling press with function is piled up in alignment

Technical Field

The application relates to the technical field of plate packing, in particular to a plate packing machine with an alignment stacking function.

Background

In the process of producing the plates in factories, the formed plates are required to be cut according to a certain specification and then stacked and packed, the purpose of stacking and packing is to save the occupied area and improve the space utilization rate, and the stacked plates are also convenient for bulk transportation by a forklift.

After the existing plates are produced on a production line according to certain specifications, the plates are required to be stacked and packed by using a packer; however, the current packer mainly has the following problems in the process of stacking and packing the plates: firstly, the stacked and packed plates are difficult to keep stable, and dislocation deviation is easy to generate between the upper and lower adjacent plates, so that the stacked plates are easy to incline after reaching a certain height or easy to collapse in the transferring process; secondly, the problems of material clamping, dislocation, blockage and the like can occur in the feeding process of stacking and packaging the plates, so that production is interrupted or stacking is abnormal; finally, the stacked and packed plates lack a certain fixation between the forklift and the stacked and packed plates in the process of transferring through the forklift, and the stacked plates are easily overturned due to the fact that the gravity of the stacked plates is completely pressed on the fork arms of the forklift.

Therefore, in order to improve the stability of stacking and packing the sheets and prevent the stacked sheets from overturning in the transferring process, the application provides a sheet packing machine with an alignment stacking function.

Disclosure of Invention

In view of the above problems, the embodiment of the application provides a plate packer with an alignment stacking function, so as to solve the problems that stacked plates of the packer are easy to deviate and unstable and the stacked and packed plates are easy to topple in the process of transferring by a forklift in the related art. In order to achieve the above object, an embodiment of the present application provides a plate packing machine with an alignment stacking function, including a correction assembly, a stretching and lowering assembly, and a pallet assembly; the correcting component is obliquely arranged on the ground through a bracket, the stretching and descending components are arranged on two sides of the correcting component, and the lower end of the stretching and descending component is in sliding connection with a supporting plate component.

The correction assembly comprises a material conveying frame obliquely arranged at the upper end of the support, the top of the material conveying frame and one side of the material conveying frame, which is close to the tail end of the production line, are in an opening shape, rectangular material leakage grooves are formed in the middle of the bottom wall of the material conveying frame, distance adjusting modules for adjusting the size of the rectangular material leakage grooves are slidably arranged on the two sides of the rectangular material leakage grooves, strip-shaped material guide grooves which are mutually communicated with the rectangular material leakage grooves are formed in the bottom wall of the material conveying frame, the strip-shaped material guide grooves are close to the tail end of the production line, and pushing modules for pushing plates are arranged in the strip-shaped material guide grooves.

The supporting plate component comprises a material supporting plate with a limit groove on the side wall; an iron block matched with the strong magnetic attraction stone is arranged in the limit groove of the material bearing support plate; when the pallet assembly is lapped at the accurate position between the step lapping platforms at the two sides, the strong magnetic stone and the iron block are matched to drive the dynamic pressure plate to rotate, so that the pressure head of the pressure plate is pressed in the limiting groove of the material bearing pallet to fixedly limit the material bearing pallet; the middle part symmetry of holding the material layer board is provided with the rectangle jack that is convenient for fork truck to insert and remove the material layer board, is located the inside of rectangle jack and is provided with the L type slide hole rather than the intercommunication, is located the inside slip of L type slide hole and is provided with the inconsistent U type jack catch of two vertical section length, and the inside of rectangle jack is located to the short vertical section tip of U type jack catch under initial condition, and the long vertical section tip of U type jack catch is located the lower extreme outside of holding the material layer board under initial condition.

According to an advantageous embodiment, the distance adjusting module comprises two side limiting plates symmetrically arranged on the inner side wall of the rear end of the material conveying frame in a sliding fit mode, wherein each side limiting plate consists of a guide plate and a straight side plate; the straight side plate is in sliding connection with the inner side wall at the rear end of the material conveying frame, and the guide plate is connected with the straight side plate in a hinging manner; the rear ends of the two straight side plates are connected through a bidirectional screw rod, and the bidirectional screw rod is arranged on the inner wall of the rear side of the material conveying frame in a rotating connection mode.

According to an advantageous embodiment, the opposite ends of the two straight side plates are uniformly provided with sliding grooves, an upper limiting plate is arranged in the sliding groove of each straight side plate in a sliding manner, one end of the upper limiting plate is of an arc-shaped structure convenient for feeding plates, and the inner concave surface of the arc-shaped structure faces upwards; one of the sliding grooves in the same straight side plate is internally provided with a threaded screw rod in a rotating mode, and the threaded screw rod is in threaded connection with the upper limiting plate.

According to an advantageous embodiment, the pushing module comprises two rotating rollers which are arranged in the strip-shaped guide groove in a rotating manner, a conveyor belt is arranged between the two rotating rollers in a tensioning manner, and a pushing plate capable of shifting a plate is arranged at the upper end of the conveyor belt; one end shaft head of any one rotating roller is fixedly connected with an output shaft of the driving motor.

According to an advantageous embodiment, the stretching and lowering assembly comprises a limiting frame arranged on the side wall of the material conveying frame, a rack plate sliding up and down is arranged in the limiting frame, a step lapping platform is arranged at the lower end of the rack plate, an executing motor is arranged on the outer wall of the limiting frame through a motor seat, a driving gear is connected to an output shaft of the executing motor, and the driving gear is meshed with teeth on the outer wall of the rack plate; a cavity is formed in the step lapping platform, a pressing plate is rotatably arranged in the cavity through a torsion spring, and a strong magnetic attraction stone is arranged at one end of a pressing head of the pressing plate; and a distance adjusting bolt vertical to the bottom wall of the material conveying frame is further spirally arranged in the step lapping platform.

According to an advantageous embodiment, the short vertical section end of the U-shaped claw is a sloping structure for facilitating the insertion of the fork truck; the inside spring that is provided with of L type slide hole contradicts U type jack catch, and the inside auxiliary rod that still is provided with of L type slide hole slides the inside that sets up at U type jack catch.

Compared with the prior art, the plate packing machine with the alignment stacking function has the following beneficial effects:

the correction component provided by the application can be used for adapting to plates with different sizes by adjusting the distance adjusting modules at two sides, the plates can be ensured to smoothly and regularly enter the rectangular leakage groove to be stably stacked and packed by virtue of the arc-shaped structures of the guide plates and the limiting plates, and the arc-shaped structures of the limiting plates can also be used for preventing the plates from jumping up and down in the pushing process by the pushing module; further ensuring the stability of plate packing; the plates can fall into the rectangular material leakage grooves accurately to be stacked, and deflection between the upper plate and the lower plate is prevented.

According to the application, the spring is abutted against the lower end of the U-shaped claw to lock and limit the fork arm of the forklift, so that the stacked plates can be prevented from overturning in the transferring process, and the U-shaped claw is unlocked from the fork arm of the forklift by pressing down the U-shaped claw by the gravity of the stacked plates when the stacked plates are placed on the ground by the forklift when the stacked plates are transferred to a designated position, and the fork arm of the forklift is convenient to withdraw.

When the plates are packed and stacked one by one, the application adopts the execution motor to control the rack plate to move downwards to further control the support plate assembly to move downwards, and the interval between the plates which fall from the material conveying frame to the upper end of the support plate assembly is consistent when the plates are stacked each time, so that the deflection of the plates caused by overlarge fall in the stacking and packing process is avoided.

Drawings

Fig. 1 is a schematic perspective view of a sheet packer.

Fig. 2 is a schematic perspective view of a sheet baling press from the bottom view.

Fig. 3 is a top view of the sheet baling press.

Fig. 4 is an M-M cross-sectional view of fig. 3 in accordance with the present application.

Fig. 5 is an enlarged view of a portion of fig. 4 at a in accordance with the present application.

Fig. 6 is an enlarged view of a portion of fig. 4 at B in accordance with the present application.

Fig. 7 is a schematic perspective view of the U-shaped claw of the present application.

Reference numerals: 1. a corrective component; 2. an extension and lowering assembly; 21. a limit frame; 22. rack plate; 23. step lapping; 24. a drive gear; 25. a pressing plate; 26. a distance adjusting bolt; 27. strong magnetic stone absorption; 3. a pallet assembly; 11. a material conveying frame; 12. a distance adjusting module; 121. a side limiting plate; 122. an upper limiting plate; 13. a pushing module; 131. a rotating roller; 132. a conveyor belt; 133. a push plate; 31. a material bearing support plate; 32. iron blocks; 33. u-shaped clamping jaws; 34. an L-shaped slide hole; 35. an auxiliary lever; 36. a spring; 111. rectangular material leakage grooves; 112. a strip-shaped guide groove; 311. a limit groove; 312. rectangular jacks; 123. a bidirectional screw rod; 124. a threaded screw rod; 20. and executing the motor.

Detailed Description

The present application is described in further detail below with reference to FIGS. 1-7.

The embodiment of the application discloses a plate packing machine with an alignment stacking function, in particular to a plate packing machine with an alignment stacking function, which is mainly applied to plate stacking and packing, and can accurately calibrate the position deflection of plates in the conveying process by performing circumferential limit adjustment before stacking, and can adapt to plates with different thicknesses by adjusting the height of an upper limiting plate 122; when stacking and packing the plates one by one, the falling heights of the plates are the same through controlling the falling heights of the plates, the plate deflection caused by the fall in the process of stacking the plates can be reduced, and the fork arms of the forklift can be automatically locked and unlocked through the U-shaped clamping claws 33, so that the forklift is convenient to maintain the stability of the stacked plates in the moving process.

Referring to fig. 1 and 2 in combination, a sheet material baler with aligned stacking function, comprising: the correcting component 1, the stretching and descending component 2 and the supporting plate component 3; the correcting component 1 is obliquely arranged on the ground through a bracket, the stretching and descending components 2 are arranged on two sides of the correcting component 1, and the lower ends of the stretching and descending components 2 are in sliding connection with a supporting plate component 3.

By placing the application at the tail end of a production line, the produced plates can be directly conveyed into the correction assembly 1, the correction is carried out through the correction assembly 1, the corrected plates fall into the upper end of the supporting plate assembly 3 for stacking and packing, and the supporting plate assembly 3 can be controlled to descend through the stretching assembly 2 in the process of stacking and packing the plates one by one, so that the falling interval of each plate is ensured to be certain, and the deflection of the plates is prevented.

Referring to fig. 1 in combination, the correction assembly 1 includes a material conveying frame 11 obliquely disposed at an upper end of the support, a top of the material conveying frame 11 and one side of the material conveying frame 11 near an end of the production line are in an opening shape, a rectangular material leakage groove 111 is disposed at a middle position of a bottom wall of the material conveying frame 11, distance adjusting modules 12 for adjusting the size of the rectangular material leakage groove 111 are slidably disposed at two sides of the rectangular material leakage groove 111, a strip material guiding groove 112 communicated with the rectangular material leakage groove 111 is disposed at a bottom wall of the material conveying frame 11, the strip material guiding groove 112 is near an end of the production line, and a pushing module 13 for pushing plates is disposed inside the strip material guiding groove 112.

Referring to fig. 1 in combination, the distance adjusting module 12 includes two side limiting plates 121 symmetrically disposed on the inner side wall of the rear end of the material conveying frame 11 in a sliding fit manner, and the side limiting plates 121 are composed of a guiding plate and a straight side plate; the straight side plate is in sliding connection with the inner side wall of the rear end of the material conveying frame 11, and the guide plate is connected with the straight side plate in a hinged manner; the rear ends of the two straight side plates are connected through a bidirectional screw rod 123, and the bidirectional screw rod 123 is arranged on the rear inner wall of the material conveying frame 11 in a rotating connection mode.

Referring to fig. 1 and 3 in combination, opposite ends of the two straight side plates are uniformly provided with sliding grooves, an upper limiting plate 122 is arranged in the sliding groove of each straight side plate in a sliding manner, one end of the upper limiting plate 122 is of an arc-shaped structure convenient for feeding plates, and the inner concave surface of the arc-shaped structure faces upwards; a threaded screw rod 124 is rotatably arranged in one of the sliding grooves in the same straight side plate, and the threaded screw rod 124 is in threaded connection with the upper limiting plate 122.

Referring to fig. 3 in combination, the pushing module 13 includes two rotating rollers 131 rotatably disposed inside the strip-shaped guide groove 112, a conveyor belt 132 is disposed between the two rotating rollers 131 in a tensioning manner, and a pushing plate 133 capable of pushing a plate is disposed at the upper end of the conveyor belt 132; one end shaft head of any one rotary roller 131 is fixedly connected with the output shaft of the driving motor.

When the sheet is subjected to position correction through the correction assembly 1, the bidirectional screw rod 123 is operated according to the size of the sheet to control the two flat side plates to perform relative movement, so that the distance between the two flat side plates is matched with the size of the sheet, then the height of the upper limiting plate 122 is adjusted according to the height of the sheet, when the sheet is conveyed to the upper end of the material conveying frame 11, the conveying belt 132 is driven by the driving motor to rotate, on one hand, the conveying belt 132 can assist in conveying the sheet which is put on the upper end, on the other hand, the conveying belt 132 rotates to drive the push plate 133 to move, the tail end of the sheet is pushed through the action of the push plate 133, and the sheet falls into the rectangular material leakage groove 111 and then is stacked and packed on the upper end of the supporting plate assembly 3.

Referring to fig. 2, 4 and 5 in combination, the stretching and lowering assembly 2 includes a limit frame 21 disposed on a side wall of the material conveying frame 11, a rack plate 22 sliding up and down is disposed in the limit frame 21, a step abutment 23 is mounted at a lower end of the rack plate 22, an outer wall of the limit frame 21 is provided with an execution motor 20 through a motor seat, an output shaft of the execution motor 20 is connected with a driving gear 24, and the driving gear 24 is meshed with teeth on an outer wall of the rack plate 22; a cavity is formed in the step lapping platform 23, a pressing plate 25 is rotatably arranged in the cavity through a torsion spring, and a strong magnetic attraction stone 27 is arranged at one end of a pressing head of the pressing plate 25; the distance adjusting bolts 26 perpendicular to the bottom wall of the material conveying frame 11 are further spirally arranged in the step lapping platform 23, and the distance between the upper end face of the rectangular material leakage groove 111 and the step face of the step lapping platform 23 is adjusted through the distance adjusting bolts 26 so as to adapt to plates with different thicknesses.

Before stacking and packing the plates, firstly, operating the distance adjusting bolt 26 according to the thickness of the plates, so that the upper end of the distance adjusting bolt 26 is abutted against the outer wall of the bottom end of the material conveying frame 11, and at the moment, the distance between the outer wall of the upper end of the material bearing supporting plate 31 and the outer wall of the bottom end of the material conveying frame 11 is equal to the thickness of the plates; when the plates leak into the upper end of the material bearing supporting plate 31 from the rectangular material leakage groove 111, the received fall is only the depth of the rectangular material leakage groove 111, so that the problem of plate deflection caused by the fall generated in the stacking process of the plates can be greatly reduced; when the first plate falls on the upper end of the material bearing supporting plate 31, the execution motor 20 drives the rack plate 22 to descend, further drives the material bearing supporting plate 31 to descend by one plate thickness, and the plate stacking and packaging work is continuously repeated.

Referring to fig. 5, 6 and 7, the pallet assembly 3 includes a material supporting plate 31 with a limiting slot 311 on a side wall thereof; the front end of the limit groove 311 is of a closed structure, the rear end of the limit groove 311 is of an open structure (as shown in fig. 1), and an iron block 32 matched with the strong magnetic attraction stone 27 is arranged in the limit groove 311 of the material bearing supporting plate 31; when the pallet assembly 3 is lapped at the accurate position between the step lapping platforms 23 on the two sides, the strong magnetic attraction stone 27 is matched with the iron block 32 to drive the movable pressing plate 25 to rotate, so that the pressing head of the movable pressing plate 25 is pressed in the limiting groove 311 of the material bearing pallet 31 to fixedly limit the material bearing pallet 31; the middle part of the material bearing support plate 31 is symmetrically provided with a rectangular jack 312 which is convenient for a forklift to insert and remove the material bearing support plate 31, an L-shaped sliding hole 34 communicated with the rectangular jack 312 is arranged in the rectangular jack 312, two U-shaped clamping claws 33 with different vertical section lengths are arranged in the L-shaped sliding hole 34 in a sliding manner, the short vertical section ends of the U-shaped clamping claws 33 are positioned in the rectangular jack 312 in an initial state, the long vertical section ends of the U-shaped clamping claws 33 are positioned outside the lower end of the material bearing support plate 31 in the initial state, and the short vertical section ends of the U-shaped clamping claws 33 are of an inclined structure which is convenient for the forklift to insert; the inside spring 36 that is provided with of L type slide hole 34 is contradicted U type jack catch 33, and the inside auxiliary rod 35 that still is provided with of L type slide hole 34 slides the inside setting at U type jack catch 33.

Before stacking the plates, inserting the material bearing support plate 31 between the two step lapping platforms 23, and when the material bearing support plate 31 is completely inserted, driving the pressing plate 25 to perform angle overturning under the action of the strong magnetic attraction stone 27 and the iron block 32, so that the pressing plate 25 can press the material bearing support plate 31 to fix the material bearing support plate 31, and vibration deflection generated when stacking the plates due to suspension of the material bearing support plate 31 in the process of stacking the plates can be avoided; when the plates at the upper end of the material bearing supporting plate 31 are stacked to a specified height, the fork arms of the forklift enter the rectangular insertion holes 312, and the U-shaped clamping claws 33 are abutted against each other under the action of the springs, so that one end of the U-shaped clamping claws 33 and the fork arms of the forklift are locked and limited, and the forklift is convenient to carry the stacked plates; the stacked and packed plates are prevented from overturning due to relative shaking between the material bearing supporting plate 31 and the fork arms; when the forklift carries the forklift to a designated position and places the forklift on the ground; the other end of the U-shaped claw 33 is acted on the ground to enable the U-shaped claw 33 to be separated from the fork arm, so that the fork arm is convenient to move away.

The foregoing description is only illustrative of the present application and is not intended to limit the scope of the application, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present application.

Claims (5)

1. A sheet material baler with aligned stacking function, comprising: the correcting component (1), the stretching and descending component (2) and the supporting plate component (3); the method is characterized in that; the correcting component (1) is obliquely arranged on the ground through a bracket, the extending and descending components (2) are arranged on two sides of the correcting component (1), and the lower end of the extending and descending component (2) is in sliding insertion connection with the supporting plate component (3); wherein:

the correcting assembly (1) comprises a material conveying frame (11) obliquely arranged at the upper end of the support, the top of the material conveying frame (11) and one side of the material conveying frame (11) close to the tail end of the production line are in an opening shape, a rectangular material leakage groove (111) is arranged in the middle of the bottom wall of the material conveying frame (11), distance adjusting modules (12) for adjusting the size of the rectangular material leakage groove (111) are slidably arranged on two sides of the rectangular material leakage groove (111), a strip material guide groove (112) communicated with the rectangular material leakage groove is arranged on the bottom wall of the material conveying frame (11), the strip material guide groove (112) is close to the tail end of the production line, and a pushing module (13) for pushing plates is arranged in the strip material guide groove (112);

the supporting plate component (3) comprises a material supporting plate (31) with a limit groove (311) on the side wall; an iron block (32) matched with the strong magnetic stone (27) is arranged in the limit groove (311) of the material bearing support plate (31); when the pallet assembly (3) is overlapped at the accurate position between the step lapping platforms (23) at the two sides, the strong magnetic stone (27) is matched with the iron block (32) to drive the pressing plate (25) to rotate, so that the pressing head of the pressing plate (25) presses the inside of the limiting groove (311) of the material bearing pallet (31) to fixedly limit the material bearing pallet (31); rectangular insertion holes (312) which are convenient for a forklift to insert and remove the material bearing support plate (31) are symmetrically formed in the middle of the material bearing support plate (31), L-shaped sliding holes (34) which are communicated with the rectangular insertion holes are formed in the rectangular insertion holes (312), two U-shaped clamping claws (33) with different vertical section lengths are arranged in the L-shaped sliding holes (34) in a sliding mode, the short vertical section ends of the U-shaped clamping claws (33) are located in the rectangular insertion holes (312) in an initial state, and the long vertical section ends of the U-shaped clamping claws (33) are located outside the lower end of the material bearing support plate (31) in the initial state;

the stretching and lowering assembly (2) comprises a limiting frame (21) arranged on the side wall of the material conveying frame (11), a rack plate (22) sliding up and down is arranged in the limiting frame (21), a step lapping platform (23) is arranged at the lower end of the rack plate (22), an execution motor (20) is arranged on the outer wall of the limiting frame (21) through a motor seat, a driving gear (24) is connected with an output shaft of the execution motor (20), and the driving gear (24) is meshed with teeth on the outer wall of the rack plate (22); a cavity is formed in the step lapping platform (23), a pressing plate (25) is rotatably arranged in the cavity through a torsion spring, and a strong magnetic attraction stone (27) is arranged at one end of a pressing head of the pressing plate (25); and a distance adjusting bolt (26) vertical to the bottom wall of the material conveying frame (11) is further spirally arranged in the step lapping platform (23).

2. The plate packing machine with the alignment stacking function according to claim 1, wherein the distance adjusting module (12) comprises two side limiting plates (121) symmetrically arranged on the inner side wall of the rear end of the material conveying frame (11) in a sliding fit mode, and the side limiting plates (121) consist of a guide plate and a straight side plate; the straight side plate is in sliding connection with the inner side wall of the rear end of the material conveying frame (11), and the guide plate is connected with the straight side plate in a hinged manner; the rear ends of the two straight side plates are connected through a bidirectional screw rod (123), and the bidirectional screw rod (123) is arranged on the inner wall of the rear side of the material conveying frame (11) in a rotating connection mode.

3. The plate packing machine with the alignment stacking function according to claim 2, wherein the opposite ends of the two straight side plates are uniformly provided with sliding grooves, an upper limiting plate (122) is arranged in the sliding groove of each straight side plate in a sliding way, one end of the upper limiting plate (122) is of an arc-shaped structure convenient for plate feeding, and the inner concave surface of the arc-shaped structure faces upwards; a threaded screw rod (124) is rotatably arranged in one sliding groove in the same straight side plate, and the threaded screw rod (124) is in threaded connection with the upper limiting plate (122).

4. The plate packing machine with the alignment stacking function according to claim 1, wherein the pushing module (13) comprises two rotating rollers (131) which are rotatably arranged in the strip-shaped guide groove (112), a conveyor belt (132) is arranged between the two rotating rollers (131) in a tensioning mode, and a pushing plate (133) capable of pushing plates to move is arranged at the upper end of the conveyor belt (132); one end shaft head of any one rotating roller (131) is fixedly connected with an output shaft of the driving motor.

5. The sheet material baler with aligned stacking function according to claim 1, characterized in that the short vertical section ends of the U-shaped jaws (33) are inclined structures for facilitating the insertion of a forklift; the inside spring that is provided with of L type slide hole (34) is contradicted U type jack catch (33), and the inside auxiliary rod (35) that still is provided with of L type slide hole (34) slides the inside setting at U type jack catch (33).