CN218664102U - Bidirectional full-automatic unstacker - Google Patents

Abstract

A bidirectional full-automatic unstacker relates to the technical field of unstacking, in particular to a bidirectional full-automatic unstacker, which is provided with a pushing groove, a plate placing groove and a bracket, wherein the pushing groove is arranged at the lower end of the bracket, and the plate placing groove is arranged at the upper end of the bracket; the push groove is internally provided with a push main body and a lifting main body, the lifting main body is vertically arranged at the inner side of the push groove, and the push main body is transversely arranged at the lower end of the inner side of the push groove. This design can reduce the intensity of labour of breaking a jam, promote the efficiency of breaking a jam, can go out the buttress board in two directions at the in-process of breaking a jam, need not add the position of adjustment unstacker more, can realize the breaking a jam of two directions to adopt the drive of cylinder, the automatic taking out the buttress board, it is very simple to use, the setting of gear and buffering main part is adopted in the lift of buttress board, the stability of buttress board has been guaranteed, be difficult to drop, the reliability of work efficiency and unstacker has been improved.

Description

Bidirectional full-automatic unstacker

Technical Field

The utility model relates to an unstacking technical field, especially a two-way full-automatic unstacker.

Background

At present, materials used in various production workshops are transported after being packed, and the core step of packing is to store the materials in a special material box, then the materials are stacked on a freight stack plate in multiple boxes and transported to a manufacturer for production and use. At present, a lot of main places are all to transport the material box to the turnover vehicle through manual unstacking material box on the freight card board, lead to intensity of labour high, low in production efficiency, some goods storage and transportation in-process have generally adopted automatic pile up neatly system, can directly stack the goods to the tray, then utilize fork truck or AGV dolly to transport the warehouse with the tray, but the direction of the play buttress board of unstacker is single, different positions use the direction of placing that needs to unstacker and adjust, it is very troublesome to use, the degree of difficulty is big, low efficiency, the reliability is not high, and easily drop when the in-process high-speed motion of unstacker, it is very difficult.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, a two-way full-automatic unstacker is provided, the main objective reduces the intensity of labour of unstacking, promote the efficiency of unstacking, can go out the buttress board in two directions at the in-process of unstacking, do not need to add the position of adjusting unstacker more, can realize the unstacking of two directions, and adopt the drive of cylinder, the automatic taking out the buttress board, it is very simple to use, the lift of buttress board adopts the setting of gear and buffering main part, the stability of buttress board has been guaranteed, be difficult to drop, the reliability of work efficiency and unstacker has been improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the plate placing device is provided with a pushing groove 1, a plate placing groove 2 and a bracket 3, wherein the pushing groove 1 is arranged at the lower end of the bracket 3, and the plate placing groove 2 is arranged at the upper end of the bracket 3; the push groove 1 is internally provided with a push main body 11 and a lifting main body 12, the lifting main body 12 is vertically arranged at the inner side of the push groove 1, and the push main body 11 is transversely arranged at the lower end of the inner side of the push groove 1.

The pushing body 11 is provided with a pushing block 111, an air cylinder 112, a chain 113 and a pushing rod 114, the air cylinder 112 is in control connection with the pushing block 111 through the chain 113, the chain 113 can be driven by a gear 124 to move under the action of the air cylinder 112, and the pushing block 111 starts to reciprocate under the action of the chain 113; the cylinder 112 is connected with the lifting body 12 in a control way through the push rod 114, the action of the cylinder 112 also drives the push rod 114 to move, and the movement of the push rod 114 drives the lifting body 12 to move up and down; the pushing block 111 is provided with a pushing claw 1111 and a fixing block 1112, the pushing claw is convenient for fixing the stacking plate 21, so that the stacking plate 21 can be kept stable in the pushing process, the pushing claw 1111 is movably connected to the pushing rod 114 through the fixing block 1112, the pushing rod 114 can drive the pushing claw 1111 to move, the efficiency and stability in the process of pushing the stacking plate 21 are ensured, and the automatic operation in the whole process is convenient.

The lifting body 12 is provided with a buffer body 121, a sliding rod 122, an overhead rod 123 and a gear 124, the buffer body 121 is arranged at the upper end of the sliding rod 122, the stack plate 21 can stably fall to a required position due to the effect of the buffer body 121 in the falling process, the overhead rod 123 is movably connected to two ends of the pushing rod 114 through the gear 124, the overhead rod 123 can move at two ends under the driving of the pushing rod 114, the stack plate 21 is conveniently dragged, the sliding rod 122 is vertically fixed on the support 3, the whole sliding process is more stable, and the sliding rod 122 is provided with a sliding hole 1221. The sliding holes 1221 facilitate control of the position of the descent of the stacking plate 21, and facilitate extraction of stacking plates at different positions and different heights.

A plurality of stacking plates 21 are arranged in the plate placing groove 2, and a plurality of empty grooves and solid plates 22 are fixedly arranged on the stacking plates 21. The design of the empty groove is convenient for the pushing claw 1111 to push the whole stacking plate 21, and is also convenient for the stacking plate 21 to fall when the sliding rod 122 contracts, and the solid plate 22 is convenient for the overhead rod 123 to lift the stacking plate 21, so that the use is convenient.

The top rod 123 is provided with the insections 1231, the insections 1231 are meshed with the gear 124, and the air cylinder 112 drives the top rod 123 to ascend or descend by controlling the rotation of the gear 124. The insections 1231 allow the overhead rod 123 to be raised or lowered to a designated position as required, thereby facilitating the pushing of the pushing block 111.

The stack plate 21 moves left and right in the direction of movement of the push rod 114. The stacking plate 21 can be pushed to the right under the action of the pushing block 111 on the left side, and can also be pushed to the left under the action of the pushing block 111 on the right side, so that pushing in two directions is finally realized, taking of the stacking plate 21 in different directions is facilitated, the labor intensity of unstacking is reduced, and the unstacking efficiency is improved.

The utility model discloses a theory of operation: in the using process, a plurality of stacking plates 21 are firstly placed in the plate placing groove 2 to wait for unstacking, when the stacking plates are extracted, the air cylinder 112 starts to act to drive the gear 124 to rotate, and the chain 113 starts to rotate under the action of the gear 124 to drive the sliding rod 122 to move up and down; meanwhile, the pushing rod 114 is driven to move by the action of the air cylinder 112, the pushing rod 114 drives the ejector rod 123 to move, the stacking plate 21 starts to fall down, after the stacking plate falls to a proper position, the pushing main body 11 pushes the stacking plate, the push claws 1111 are inserted into empty grooves in the stacking plate 21 to push the stacking plate, the pushing main bodies 11 on the left side and the right side can push the stacking plate 21 along with the command of an operator, the stacking plate 21 can be pushed out for use, the efficiency is improved, and the time is saved.

After the technical scheme is adopted, the utility model discloses beneficial effect does: the utility model discloses the in-process that uses not only can reduce the intensity of labour who breaks a jam, promote the efficiency of breaking a jam, and can two directions go out buttress board 21 at the in-process of breaking a jam, do not need to add the position of adjusting the unstacker more, can realize the breaking a jam of two directions, and adopt the drive of cylinder 112, the automatic taking out buttress board 21, it is very simple to use, gear 124 and buffering main part 121's setting is adopted in the lift of buttress board 21, the stability of buttress board 21 has been guaranteed, be difficult to drop, the reliability of work efficiency and unstacker has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic view of a bi-directional, fully automatic unstacker;

FIG. 2 is a schematic view taken along line B-B of FIG. 1;

FIG. 3 isbase:Sub>A schematic view taken from the direction A-A of FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 1;

FIG. 5 is a bottom view of a bi-directional, fully automatic unstacker;

description of reference numerals: the plate lifting device comprises a pushing groove 1, a pushing body 11, a pushing block 111, a pushing claw 1111, a fixing block 1112, an air cylinder 112, a chain 113, a pushing rod 114, a lifting body 12, a buffering body 121, a sliding rod 122, a sliding hole 1221, a top-set rod 123, a toothed pattern 1231, a gear 124, a plate placing groove 2, a stacking plate 21, a solid plate 22 and a support 3.

Detailed Description

Referring to fig. 1 to 5, the technical solution adopted by the present embodiment is: the plate placing device is provided with a pushing groove 1, a plate placing groove 2 and a bracket 3, wherein the pushing groove 1 is arranged at the lower end of the bracket 3, and the plate placing groove 2 is arranged at the upper end of the bracket 3; a plurality of stacking plates 21 are arranged in the plate placing grooves 2, and a plurality of empty grooves and solid plates 22 are fixedly arranged on the stacking plates 21. The design of the empty groove is convenient for the pushing claw 1111 to push the whole stacking plate 21, and is also convenient for the stacking plate 21 to fall when the sliding rod 122 contracts, and the solid plate 22 is convenient for the overhead rod 123 to lift the stacking plate 21, so that the use is convenient.

A pushing body 11 and a lifting body 12 are arranged in the pushing groove 1, a pushing block 111, an air cylinder 112, a chain 113 and a pushing rod 114 are arranged on the pushing body 11, the air cylinder 112 is connected with the pushing block 111 through the control of the chain 113, the chain 113 can be driven by a gear 124 to move under the action of the air cylinder 112, and the pushing block 111 starts to reciprocate under the action of the chain 113; the cylinder 112 is connected with the lifting body 12 in a control way through the push rod 114, the action of the cylinder 112 also drives the push rod 114 to move, and the movement of the push rod 114 drives the lifting body 12 to move up and down; the pushing block 111 is provided with a pushing claw 1111 and a fixing block 1112, the pushing claw is convenient for fixing the stacking plate 21, so that the stacking plate 21 can be kept stable in the pushing process, the pushing claw 1111 is movably connected to the pushing rod 114 through the fixing block 1112, the pushing rod 114 can drive the pushing claw 1111 to move, the efficiency and stability in the process of pushing the stacking plate 21 are ensured, and the automatic operation in the whole process is convenient.

The lifting body 12 is erected inside the pushing groove 1, a buffering body 121, a sliding rod 122, an overhead rod 123 and a gear 124 are arranged on the lifting body 12, the buffering body 121 is arranged at the upper end of the sliding rod 122, the stacking plate 21 can stably fall to a required position due to the effect of the buffering body 121 in the falling process, the overhead rod 123 is movably connected to two ends of the pushing rod 114 through the gear 124, the overhead rod 123 can move at two ends along with the driving of the pushing rod 114, the stacking plate 21 is conveniently dragged, the sliding rod 122 is erected and fixed on the support 3, the whole sliding process is more stable, and a sliding hole 1221 is formed in the sliding rod 122. The sliding holes 1221 facilitate control of the position of the descent of the stacking plate 21, and facilitate extraction of stacking plates of different positions and heights. The stack plate 21 moves left and right in the direction of movement of the push rod 114. The stacking plate 21 can be pushed to the right under the action of the pushing block 111 on the left side, and can also be pushed to the left under the action of the pushing block 111 on the right side, so that pushing in two directions is finally realized, taking of the stacking plate 21 in different directions is facilitated, the labor intensity of unstacking is reduced, and the unstacking efficiency is improved.

The pushing body 11 is horizontally arranged at the lower end of the inner side of the pushing groove 1. The top rod 123 is provided with the insections 1231, the insections 1231 are meshed with the gear 124, and the air cylinder 112 drives the top rod 123 to ascend or descend by controlling the rotation of the gear 124. The insections 1231 allow the overhead rod 123 to be raised or lowered to a designated position as required, thereby facilitating the pushing of the pushing block 111.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. The utility model provides a full-automatic unstacker of two-way which characterized in that: the plate placing device is provided with a pushing groove (1), a plate placing groove (2) and a bracket (3), wherein the pushing groove (1) is arranged at the lower end of the bracket (3), and the plate placing groove (2) is arranged at the upper end of the bracket (3); a pushing body (11) and a lifting body (12) are arranged in the pushing groove (1), the lifting body (12) is erected on the inner side of the pushing groove (1), and the pushing body (11) is transversely arranged at the lower end of the inner side of the pushing groove (1).

2. A bi-directional, fully automatic unstacker according to claim 1, characterised in that: the pushing body (11) is provided with a pushing block (111), an air cylinder (112), a chain (113) and a pushing rod (114), the air cylinder (112) is in control connection with the pushing block (111) through the chain (113), and the air cylinder (112) is in control connection with the lifting body (12) through the pushing rod (114); the pushing block (111) is provided with a pushing claw (1111) and a fixing block (1112), and the pushing claw (1111) is movably connected to the pushing rod (114) through the fixing block (1112).

3. A bi-directional, fully automatic unstacker according to claim 1, characterised in that: the lifting main body (12) is provided with a buffering main body (121), a sliding rod (122), an overhead rod (123) and a gear (124), the buffering main body (121) is arranged at the upper end of the sliding rod (122), the overhead rod (123) is movably connected to the two ends of a pushing rod (114) through the gear (124), the sliding rod (122) is vertically fixed on a support (3), and the sliding rod (122) is provided with a sliding hole (1221).

4. A bi-directional, fully automatic unstacker according to claim 1, characterised in that: a plurality of stacking plates (21) are arranged in the plate placing grooves (2), and a plurality of empty grooves and solid plates (22) are fixedly arranged on the stacking plates (21).

5. A bi-directional, fully automatic unstacker according to claim 3, characterised in that: the overhead rod (123) is provided with the insections (1231), the insections (1231) are meshed with the gear (124), and the air cylinder (112) drives the overhead rod (123) to ascend or descend by controlling the rotation of the gear (124).

6. A bi-directional, fully automatic unstacker according to claim 4, characterised in that: the stacking plate (21) moves left and right along the movement direction of the push rod (114).

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