CN214649324U

CN214649324U - Packagine machine piles up device

Info

Publication number: CN214649324U
Application number: CN202120265670.1U
Authority: CN
Inventors: 陈圣禹; 谢世晨; 苏宗荣; 陈祥龙
Original assignee: Zhejiang Chengda Machinery Co ltd
Current assignee: Zhejiang Chengda Machinery Co ltd
Priority date: 2021-01-31
Filing date: 2021-01-31
Publication date: 2021-11-09
Anticipated expiration: 2031-01-31

Abstract

The utility model discloses a stacking device of a packing machine, which comprises a conveying belt, a first stacking rack, a second stacking rack, a first push plate and a second push plate, wherein the conveying belt is arranged at a first material pushing station; the first stacking rack is arranged in a front-back open mode, and the first stacking rack and the second stacking rack are respectively provided with a plurality of first stacking cavities and second stacking cavities; the first push plate is arranged behind the conveying belt; the second push pedal is equipped with the scarce groove that a plurality of is vertical to be equipped with, it corresponds the setting around groove and the baffle to lack, the second push pedal sets up and pushes away the material station at the second, the second pushes away the material station setting and pushes away the below of material station at first. The first push plate pushes the materials on the conveying belt into the first stacking cavity, the first stacking rack moves down by a height, the first push plate pushes the materials for the second time, the second layer of materials are stacked above the first layer of materials, and therefore the materials are stacked repeatedly, and similarly, the second stacking rack is also stacked.

Description

Packagine machine piles up device

Technical Field

The utility model relates to a packagine machine piles up device is applicable to battery equipment for packing, moist lip equipment for packing etc.

Background

The battery package is that several batteries are put in a bulb case, covered with paper board and sealed into a plate, and then the batteries are packed into a box after being stacked. The existing battery packaging mainly adopts manual stacking and manual boxing, and the manual packaging has the problems of low efficiency and high cost.

Disclosure of Invention

In view of the technical problem who exists among the background art, the utility model aims at providing a packagine machine's device that piles up, realizes piling up the automation of material.

In order to solve the technical problem, the utility model discloses a following technical scheme: the stacking device of the packing machine is characterized by comprising

A frame;

the conveying belt is arranged at the first material pushing station;

the stacking device comprises a first stacking rack which can be lifted up and down, wherein the first stacking rack is arranged in a front-back open mode and is provided with a plurality of vertically arranged partition plates, the first stacking rack is divided into a plurality of first stacking cavities by the partition plates, a supporting plate is arranged at the bottom of each first stacking cavity, and a longitudinal notch is formed in the middle of the supporting plate;

the second stacking frame is lifted up and down and also provided with a plurality of second stacking cavities, and the number of the second stacking cavities is consistent with that of the first stacking cavities and is arranged in a front-back corresponding mode;

the first push plate moves back and forth and is arranged behind the conveying belt;

and the second push plate is vertically arranged and is provided with a plurality of vertically arranged notches, the notches are arranged in a front-back corresponding manner with the partition plate, the second push plate is arranged at a second material pushing station, and the second material pushing station is arranged below the first material pushing station.

The utility model discloses a material propelling movement on the conveyer belt of first push pedal is to first pile intracavity, and this material is the first layer, and first pile up the frame this moment moves down a height, first push pedal carries out the propelling movement for the second time, and second floor material gets into first pile up the intracavity and piles up in the top of first layer material, so piles up repeatedly, treats that the material of first pile intracavity piles up when setting for the height, the second push pedal piles up the intracavity with the material propelling movement of first pile intracavity to the second, the second pile up the frame and also carries out the operation of piling up equally, so realize piling up of material. The utility model discloses the structure is retrencied, and the operation is convenient, pile up fast, efficient.

Preferably, the stacking device further comprises

The storage rack is arranged in a manner of opening front and back, the storage rack is divided into a plurality of storage cavities by partition plates on the storage rack, and the storage cavities and the second stacking cavities are correspondingly arranged front and back at a third material pushing station;

and the third push plate is vertically arranged and is provided with a plurality of vertically arranged notch II, the notch II is arranged in front of and behind the partition plate correspondingly, the third push plate is arranged at a third material pushing station, and the third material pushing station is arranged below the second material pushing station.

Preferably, the rack is provided with a transversely arranged linear guide rail, the linear guide rail is provided with a sliding seat, the sliding seat is installed on the storage rack, and a material pushing plate moving back and forth is arranged behind the storage rack at a material discharging station. The material in the material storage cavity is pushed out one by the material pushing plate, after the material in each material storage cavity is sent out, the material storage frame moves one position along the linear guide rail until all the materials are sent out, and the material storage frame returns to the third material pushing station along the linear guide rail again.

Preferably, transition frames are arranged between the conveying belt and the first stacking frame, between the first stacking frame and the second stacking frame, and between the second stacking frame and the storage frame, and each transition frame is provided with a transition cavity which is through from front to back. The transition frame enables the distance among the conveying belt, the first stacking frame, the second stacking frame and the storage frame to be enlarged, and therefore maintenance operation of components is utilized more.

Drawings

Fig. 1 is a schematic structural diagram 1 of the present invention.

Fig. 2 is a schematic structural diagram 2 of the present invention.

Detailed Description

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings. Referring to fig. 1, the X-axis is the longitudinal direction, also the front-back direction, the Y-axis is the vertical direction, also the up-down direction, and the Z-axis is the horizontal direction, also the left-right direction. The stacking device of the packaging machine comprises a rack 16, a conveying belt 5, a first stacking rack 8 and a second stacking rack 9 which can be lifted up and down, a first push plate 1 and a second push plate 7 which can move back and forth, wherein the first stacking rack and the second stacking rack can be lifted up and down by adopting an air cylinder or a lead screw mechanism, and the first push plate and the second push plate can also be driven by adopting an air cylinder or a lead screw mechanism to move back and forth; the conveying belt 5 is arranged at a first material pushing station, the first push plate 1 is arranged behind the conveying belt, the first stacking rack 8 is arranged in a front-back open mode, the first stacking rack is provided with a plurality of vertically arranged partition plates 17, the first stacking rack 8 is divided into a plurality of first stacking cavities by the partition plates, the bottom of each first stacking cavity is provided with a supporting plate 4, and a longitudinal notch is formed in the middle of each supporting plate; the second stacking rack 9 and the first stacking rack 8 have substantially the same structure, the second stacking rack 9 is arranged in a front-back open manner and is provided with a plurality of vertically arranged partition plates, the partition plates divide the second stacking rack 9 into a plurality of second stacking cavities, the number of the second stacking cavities is the same as that of the first stacking cavities, the second stacking cavities are arranged in a front-back corresponding manner, in order to hold materials, the bottom of each second stacking cavity is also provided with a supporting plate 4, but if a gap needs to be formed in the middle of each supporting plate, the gap is set according to needs, and in this embodiment, the supporting plate 4 is provided with a longitudinal gap; the second push plate 4 is vertically arranged, the second push plate is provided with a plurality of vertically arranged notches 6, the notches are arranged in a front-back corresponding manner with the partition plate 17, the second push plate 7 is arranged at a second material pushing station, and the second material pushing station is arranged below the first material pushing station; in this embodiment, two sets of stacking racks are provided, namely a first stacking rack 8 and a second stacking rack 9, the first pushing plate 1 can push the material 2 on the conveyor belt 5 into the first stacking cavity, and if the conveyor belt has no partition plate, the first pushing plate 1 can be a flat plate with a certain thickness to push the material into the first stacking cavity; the second push plate 7 is to push the material in the first stacking cavity into the second stacking cavity, so that the second push plate has a notch 6 corresponding to the partition plate, and the support plate 4 has a notch corresponding to the push plate, so that the second push plate 7 can pass through the first stacking cavity to push the material into the second stacking cavity. According to the requirement, the stacking rack can be provided with three or four groups, if three groups are provided, the first two groups of stacking racks have the same structure as the first stacking rack, and the third group of stacking racks have the same structure as the second group of stacking racks, in this embodiment, only the first stacking rack 8 and the second stacking rack 9 are provided. The first push plate 1 of the utility model pushes the material 2 on the conveyer belt into the first stacking cavity, the material is the first layer, after the first layer material enters the first stacking cavity, the first stacking rack 8 moves downwards by a height, the height is the height of the first layer material, the first push plate 1 pushes for the second time, the second layer material enters the first stacking cavity and is stacked above the first layer material, the first stacking cavity moves downwards by a height again, the stacking is repeatedly carried out, when the material in the first stacking cavity is stacked to the set height, namely the first stacking rack 8 moves downwards to the second material pushing station, the second push plate passes through the first stacking rack 8 to push the stacked material in the first stacking cavity into the second stacking cavity, along with the entry of the stacked material into the second stacking cavity, the second stacking rack 9 also descends by a height, the height is the height of the stacked material of the first stacking rack 8, the material is piled up for the second time through the second piling rack 9, the second piling rack carries out the same piling operation as the first piling rack, the operation is repeated until the material is piled up to the set height in the second piling cavity, and finally the piled material is sent to the next procedure after the stacking is finished.

The stacking device further comprises a storage rack 12 which moves transversely and a third push plate 18 which moves back and forth, the storage rack can be driven by an air cylinder, a screw mechanism, a transmission belt and the like to move, the storage rack is arranged in a front-back open mode, the storage rack is divided into a plurality of storage cavities by partition plates 19 on the storage rack, and the storage cavities and the second stacking cavities are correspondingly arranged in the front-back direction at a third material pushing station; the third push plate 18 is arranged at a third material pushing station, the third material pushing station is arranged below the second material pushing station, namely when the second stacking frame 9 moves downwards to the third material pushing station, material stacking is completed, at the moment, the third push plate 18 pushes the materials in the second stacking cavity to the material storage cavity, so that the second stacking frame 9 is free, and material stacking operation is continued after the third push plate moves upwards and resets. A linear guide rail 14 which is transversely arranged is arranged on the rack 16, a sliding seat 13 is arranged on the linear guide rail, the sliding seat is arranged on the storage rack 12, and at a discharging station, namely the side of the second stacking frame 9, a material pushing plate 15 which moves back and forth is arranged behind the material storage frame, after the material enters the material storage cavity, the material storage frame 12 moves horizontally to a position, so that the first material storage cavity moves to the discharging station, the material pushing plate 15 pushes out the material in the material storage cavity of the discharging station, the material enters the next working procedure, after the material pushing is completed, the material pushing plate 15 moves reversely and resets, the material storage rack 12 continues to move to a position, so that the next material storage cavity moves to the discharging station, the material pushing plate pushes the material in the material storage cavity out again, so relapse, until the material in all storage chambeies all is seen off the back, storage frame 12 is followed linear guide reverse movement and is reset, receives and is piled up the good material by piling up on the second stacking frame.

In order to facilitate maintenance of each component, transition frames are respectively arranged between the conveying belt 5 and the first stacking frame 8, between the first stacking frame and the second stacking frame 9 and between the second stacking frame and the storage frame 12 and are respectively a first transition frame 3, a second transition frame 10 and a third transition frame 11, each transition frame is provided with a transition cavity which is communicated with the front and the back, namely, the transition cavities are separated by partition plates to form the transition cavity, the first push plate 1 horizontally pushes the material into the first stacking cavity, so that the bottom of the first transition frame 3 can be a plane, and the bottoms of the second transition frame 10 and the third transition frame 11 are provided with longitudinal notches II which are respectively penetrated by the second push plate 7 or the third push plate 18. First push pedal 1 promotes 2 of material on the conveyer belt 5 and is arranging first pile up the intracavity in earlier through first transition frame 3 back, and is same, and second push pedal 7 promotes the material of first pile up the intracavity and arranges the second in earlier through 10 framves of second transition again in the intracavity, and the third push pedal is to the material of second pile up the intracavity and arrange the storage intracavity in earlier through third transition frame 11 again, the transition frame makes the interval grow between conveyer belt 5, first pile up frame 8, second pile up frame 9 and the storage frame 12, more utilizes the maintenance operation of part like this.

Claims

1. A stacking device of a packing machine is characterized by comprising

A frame;

the conveying belt is arranged at the first material pushing station;

the stacking device comprises a first stacking rack which can be lifted up and down, wherein the first stacking rack is arranged in a front-back open mode and is provided with a plurality of vertically arranged partition plates, the partition plates divide the first stacking rack into a plurality of first stacking cavities, a supporting plate is arranged at the bottom of each first stacking cavity, and a longitudinal notch is formed in the middle of the supporting plate;

2. The stacking device of a packaging machine as claimed in claim 1, wherein said stacking device further comprises

3. The stacking device of the packing machine as claimed in claim 2, wherein the frame is provided with a transversely arranged linear guide rail, the linear guide rail is provided with a slide carriage, the slide carriage is arranged on the storage rack, and a pushing plate moving back and forth is arranged behind the storage rack at the discharging station.

4. The stacking device of the packaging machine according to claim 2, wherein transition frames are respectively arranged between the conveyor belt and the first stacking frame, between the first stacking frame and the second stacking frame, and between the second stacking frame and the storage frame, the transition frames are respectively a first transition frame, a second transition frame and a third transition frame, the transition frames are provided with transition cavities which are through from front to back, and the bottoms of the second transition frame and the third transition frame are provided with second longitudinal notches through which the second push plate or the third push plate respectively passes.