A finished product stack push mechanism for an encapsulator

By designing a finished product stacking and pushing mechanism for the encapsulation machine, the problem of relying on manual labor for finished product stacking and transportation in lead-acid battery production was solved, achieving contactless stacking and convenient movement, and reducing damage and transportation costs.

CN224492764UActive Publication Date: 2026-07-14DONGGUAN KEWEI AUTOMATION EQUIP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN KEWEI AUTOMATION EQUIP
Filing Date
2025-09-15
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In the existing technology, the stacking and transportation of finished products in the production process of lead-acid batteries rely on manual labor, which leads to a high frequency of damage and high transportation costs, especially when transporting over long distances.

Method used

Design a finished product stacking and pushing mechanism for a sealing machine, including a limiting mechanism, a pushing mechanism, and a finished product placement frame. The limiting mechanism precisely controls the pushing position, and a foldable handle and locking mechanism are used to achieve contactless stacking. Combined with casters and brake pads, it can be moved easily, improving space utilization and conveying efficiency.

Benefits of technology

It enables contactless stacking of finished products, reduces the probability of damage, simplifies loading and unloading processes, improves frame changing efficiency, and reduces transportation costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of packaging engineering, and disclose a finished product stacking of packing machine pushes material mechanism, including packing machine, limiting mechanism, pushing material mechanism and finished product placing frame. The finished product stacking of packing machine pushes material mechanism, through setting limiting mechanism, can be more accurate control pushing material mechanism in and out finished product assembly area, avoid the displacement and cause assembly failure, when pushing material mechanism assembles, through the cooperation of foldable handle and locking mechanism, can fold the handle and store, avoid the handle to place in the equipment outside worker touch and cause pushing material mechanism movement problem, finished product placing frame with the aid of annular steel pipe and the arc inlay structure of stacking support piece, can realize many frames upward stacking, improve space utilization greatly, increase finished product storage capacity, and finished product between realizes non - contact type stacking placement through finished product placing frame, has reduced finished product friction damage's probability, the arc hook of placing frame can quickly joint finished product placing frame, simplifies the loading and unloading process, improves the efficiency of changing frame.
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Description

Technical Field

[0001] This utility model relates to the field of packaging engineering technology, specifically to a finished product stacking and pushing mechanism for a sealing machine. Background Technology

[0002] In the production process of lead-acid batteries, the encapsulation machine is a key piece of equipment in the plate assembly stage. It is mainly used to insulate and seal the plate assemblies after they have been matched and welded. Its core function is to achieve physical isolation between adjacent plates by wrapping them with special materials such as AGM separators and PVC insulating films, to prevent active materials from falling off, avoid short circuits between plates, and block the electrolyte from corroding the non-reactive areas of the plates.

[0003] However, in existing technologies, if finished products need to be stored, they mostly need to be stacked manually, and the stacking is mostly contact stacking, which may cause friction and damage between finished products. In addition, the transportation process relies heavily on manual handling. If finished products need to be transported to the next stage, they mostly rely on conveyor belts, but when the next stage is too far from the packaging stage, the cost of setting up conveyor belts will increase. In order to reduce the frequency of manual intervention, reduce the probability of friction between finished products, and save transportation costs, a finished product stacking and pushing mechanism for a packaging machine is designed. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] To overcome the aforementioned deficiencies of the prior art, this utility model provides a finished product stacking and pushing mechanism for a packaging machine, which solves the problems in the prior art:

[0006] The problems include high frequency of manual intervention, significant damage from contact stacking of finished products, and high transportation costs.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: a finished product stacking and pushing mechanism for a sealing machine, comprising a sealing machine, a limiting mechanism, a pushing mechanism, and a finished product placement frame. The sealing machine has a finished product assembly area on its left side. The limiting mechanism is located at the bottom of the right inner wall of the finished product assembly area. The pushing mechanism is located within the finished product assembly area, and the finished product placement frame is engaged with the top of the pushing mechanism. The pushing mechanism includes a frame, a placement frame, a foldable handle, and a locking mechanism. The placement frame is welded to the middle of the frame. The foldable handle is movably mounted on the outside of the frame through the cooperation of a fixing block and a pin. The locking mechanism is located on the left and right sides of the frame and the foldable handle.

[0009] Optionally, the finished product placement frame includes an annular steel pipe, an annular support frame, a placement plate, and stacking blocks. The finished product placement frame is snapped onto the top of the placement frame by the annular steel pipe. The annular support frame is located on the top of the annular steel pipe. The placement plate is located inside the annular support frame. Multiple stacking blocks are arranged in a ring shape on the top of the annular support frame. The top opening of the stacking blocks is an arc-shaped opening, which allows the annular steel pipe to fit perfectly.

[0010] Optionally, the frame is provided with casters at the four corners of the bottom for easy movement, and each caster is equipped with a press-type brake pad.

[0011] Optionally, the frame is a rectangular frame with an opening on the right side and multiple arc-shaped hooks arranged in a ring inside. The frame can be secured to the top of the finished product placement box by means of the arc-shaped hooks.

[0012] Optionally, the locking mechanism includes a movable connecting block, a locking body, and a hanging ring. The movable connecting block is located on the left and right sides of the foldable handle at the end furthest from the outside, and the end of the movable connecting block near the locking body is arc-shaped. The locking body is located at the top of the left and right sides of the frame, and the hanging ring is located on the locking body.

[0013] Optionally, the top of the placement plate is provided with a plurality of ventilation holes evenly distributed.

[0014] (III) Beneficial Effects

[0015] This utility model provides a finished product stacking and pushing mechanism for a packaging machine, which has the following beneficial effects:

[0016] The finished product stacking and pushing mechanism of this packaging machine, through the setting of a limit mechanism, can accurately control the pushing mechanism to enter and exit the finished product assembly area, avoiding displacement that could lead to assembly failure. When the pushing mechanism is assembling, the foldable handle and locking mechanism work together to fold and store the handle, preventing workers from touching the handle outside the equipment and causing the pushing mechanism to move. The finished product placement frame, with its arc-shaped interlocking structure of a ring steel pipe and stacking blocks, can achieve multiple frames stacked upwards, significantly improving space utilization and increasing finished product storage capacity. Furthermore, the finished products are stacked without contact through the finished product placement frame, reducing the probability of friction damage. The arc-shaped hooks of the placement frame can quickly engage the finished product placement frame, simplifying the loading and unloading process and improving frame changing efficiency. When it is necessary to transport the finished product to the next stage and the distance is far, the press-type brake pads can be released, the casters can be released, and the foldable handle can be unfolded through the locking mechanism to push the equipment to the next stage. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This utility model Figure 1 A schematic diagram of the structure after cross-section;

[0019] Figure 3 This is a schematic diagram of the pusher mechanism of this utility model during its working movement;

[0020] Figure 4 This utility model Figure 3 A schematic diagram of the structure after removing the finished product placement frame;

[0021] Figure 5 This is a schematic diagram of the structure of the finished product placement frame of this utility model;

[0022] Figure 6 This utility model Figure 4 A magnified structural diagram of point A in the middle.

[0023] In the diagram: 1. Sealing machine; 11. Finished product assembly area; 2. Limiting mechanism; 3. Pushing mechanism; 4. Finished product placement frame; 31. Frame; 311. Casters; 312. Press-type brake pads; 32. Placement frame; 321. Arc hook; 33. Foldable handle; 331. Fixing block; 332. Pin; 34. Locking mechanism; 341. Movable connecting block; 342. Locking body; 343. Hanging ring; 41. Circular steel pipe; 42. Circular support frame; 43. Placement plate; 431. Ventilation hole; 44. Stacking support block. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model. Example

[0025] Please see Figures 1 to 6 This utility model provides a technical solution: a finished product stacking and pushing mechanism for a packaging machine. In order to ensure that the pushing mechanism 3 can be placed more accurately at the discharge port, a packaging machine 1 and a limiting mechanism 2 are provided.

[0026] The sealing machine 1 has a finished product assembly area 11 on its left side. The limiting mechanism 2 is located at the bottom of the inner right wall of the finished product assembly area 11. The finished product assembly area 11 is the position where the equipment discharges finished products. Through the limiting mechanism 2, when the pushing mechanism 3 is pushed into the finished product assembly area 11, the limiting mechanism 2 can limit the position of the pushing mechanism 3, ensuring that the pushing mechanism 3 can enter the finished product assembly area 11 more accurately, preventing the pushing mechanism 3 from deviating from its position and causing assembly failure, resulting in the finished product falling and being damaged. Example

[0027] To facilitate the placement and stacking of finished products, a finished product placement frame 4 is provided;

[0028] The finished product placement frame 4 is snapped onto the top of the pushing mechanism 3. The finished product placement frame 4 includes an annular steel pipe 41, an annular support frame 42, a placement plate 43, and stacking blocks 44. The finished product placement frame 4 is snapped onto the top of the placement frame 32 via the annular steel pipe 41. The annular support frame 42 is set on top of the annular steel pipe 41. The placement plate 43 is set inside the annular support frame 42 for placing the packaged finished product. Multiple stacking blocks 44 are arranged in a ring shape on the top of the annular support frame 42. The top opening of the stacking blocks 44 is an arc-shaped opening, which allows the annular steel pipe 41 to fit perfectly. Through the cooperation between the stacking blocks 44 and the annular steel pipe 41, multiple finished product placement frames 4 can be set and stacked upwards. Multiple ventilation holes 431 are evenly opened on the top of the placement plate 43 for venting the packaged finished product placed on the top of the placement plate 43. The finished products undergo heat dissipation. Both the annular steel pipe 41 and the annular support frame 42 are annular structures of the same size. The annular steel pipe 41 is designed so that the finished product placement frame 4 can be snapped onto the top of the pushing mechanism 3. The annular steel pipe 41 can also cooperate with the stacking block 44, allowing multiple finished product placement frames 4 to be stacked, greatly improving the space for placing finished products. Each finished product is separated to avoid friction damage caused by stacking and contact placement. The inner wall of the annular support frame 42 is provided with a silicone pad to prevent the finished products from bumping. The placement plate 43 is a support plate for placing finished products. It is made of silicone material, which is non-slip and can also prevent the finished products from bumping. The surface of the placement plate 43 has multiple ventilation holes 431 to provide a dry and ventilated environment for the placement of finished products. Example

[0029] In order to move the finished product, a pushing mechanism 3 is provided;

[0030] The pushing mechanism 3 is located in the finished product assembly area 11. The pushing mechanism 3 includes a frame 31, a mounting frame 32, a foldable handle 33, and a locking mechanism 34. The frame 31 is the main body of the pushing mechanism 3. The mounting frame 32 is welded to the middle of the frame 31. The foldable handle 33 is movably mounted on the outside of the frame 31 through the cooperation of a fixing block 331 and a pin 332. The locking mechanism 34 is located on the left and right sides of the frame 31 and the foldable handle 33. The four corners of the bottom of the frame 31 are equipped with casters 311 for easy movement, and each caster 311 is equipped with a press-type brake pad 312. When the pushing mechanism 3 needs to move, releasing the press-type brake pad 312 facilitates movement. When the pushing mechanism 3 is placed in the finished product assembly area 11 and needs to be loaded... When loading, the universal wheel 311 can be fixed by pressing the press-type brake pad 312 to ensure stability. The frame 32 is a rectangular frame with an opening on the right side and multiple arc-shaped hooks 321 arranged in a ring inside. The finished product placement frame 4 can be snapped onto its top by the arc-shaped hooks 321. The locking mechanism 34 includes a movable connecting block 341, a locking body 342 and a hanging ring 343. The movable connecting block 341 is located on the left and right sides of the foldable handle 33 and is away from the outside. The end of the movable connecting block 341 near the locking body 342 is arc-shaped. The locking body 342 is located at the top of the left and right sides of the frame 31. The hanging ring 343 is located on the locking body 342. The movable connecting block 341 can be fixed by pressing the brake pad 312 to secure the universal wheel 311. 41 locks and releases the locking body 342. The pushing mechanism 3 is restricted from entering and exiting the finished product assembly area 11 by the limiting mechanism 2 and cannot move arbitrarily. When the pushing mechanism 3 needs to move, the foldable handle 33 can be fixed in the working state by the locking mechanism 34. The frame 31 is the main part of the pushing mechanism 3. A placement frame 32 is provided on one side for placing the finished product placement frame 4. The placement frame 32 is welded to the finished product frame 31 to ensure stability. The foldable handle 33 is movably installed on the outer top of the frame 31 through the fixing block 331 and the pin 332. The fixing block 331 has two parts, one part is set at the bottom of the foldable handle 33 and the other part is set at the outer top of the frame 31. The two parts of the fixing block 331 are connected by the pin 33. 2. The locking mechanism 34 is designed to keep the foldable handle 33 in an open and fixed position when the pushing mechanism 3 needs to move, making it convenient for the user to hold and push the device. The locking mechanism 34 includes a movable connecting block 341, a locking body 342, and a hanging ring 343. The locking mechanism 34 locks and releases by lifting or pressing the locking body 342. When the foldable handle 33 needs to be fixed, first manually lift the foldable handle 33 so that it is perpendicular to the frame 31, then lift the locking body 342, place the hanging ring 343 at the arc-shaped end of the movable connecting block 341, and then press the locking body 342. The hanging ring 343 hooks onto the movable connecting block 341, achieving a fixing effect. When the foldable handle 33 needs to be lowered...Lifting the locking body 342 releases the foldable handle 33. The casters 311 are located at the four corners of the frame 31, and each caster 311 is equipped with a press-type brake pad 312. When the pushing mechanism 3 is placed in the finished product assembly area 11 awaiting assembly, pressing the brake pad will fix the caster 311, preventing it from moving and ensuring stability during assembly. To move it, simply lift the brake pad. The inner wall of the frame 32 has multiple arc-shaped hooks 321 for placing the first finished product placement frame 4. Subsequent finished product placement frames 4 can be stacked upwards by engaging the annular steel pipe 41 with the stacking support block 44.

[0031] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A finished product stacking and pushing mechanism for a packaging machine, comprising a packaging machine (1), a limiting mechanism (2), a pushing mechanism (3), and a finished product placement frame (4), characterized in that: The sealing machine (1) has a finished product assembly area (11) on its left side; the limiting mechanism (2) is located at the bottom of the inner wall of the right side of the finished product assembly area (11); the pushing mechanism (3) is located in the finished product assembly area (11); the finished product placement frame (4) is snapped onto the top of the pushing mechanism (3); the pushing mechanism (3) includes a frame (31), a placement frame (32), a foldable handle (33) and a locking mechanism (34); the placement frame (32) is welded to the middle of the frame (31); the foldable handle (33) is movably installed on the outside of the frame (31) through the cooperation of the fixing block (331) and the pin (332); the locking mechanism (34) is located on the left and right sides of the frame (31) and the foldable handle (33).

2. The finished product stacking and pushing mechanism of a packaging machine according to claim 1, characterized in that: The finished product placement frame (4) includes an annular steel pipe (41), an annular support frame (42), a placement plate (43), and stacking blocks (44). The finished product placement frame (4) is snapped onto the top of the placement frame (32) by the annular steel pipe (41). The annular support frame (42) is set on the top of the annular steel pipe (41). The placement plate (43) is set inside the annular support frame (42). Multiple stacking blocks (44) are arranged in an annular shape on the top of the annular support frame (42). The top opening of the stacking blocks (44) is an arc-shaped opening, which allows the annular steel pipe (41) to fit perfectly.

3. The finished product stacking and pushing mechanism of a packaging machine according to claim 1, characterized in that: The frame (31) is provided with casters (311) at the four corners of the bottom, and each caster (311) is equipped with a press-type brake pad (312).

4. The finished product stacking and pushing mechanism of a packaging machine according to claim 1, characterized in that: The placement frame (32) is a rectangular frame with an opening on the right side and multiple arc hooks (321) arranged in a ring inside. The placement frame (32) can attach the finished product placement frame (4) to its top through the arc hooks (321).

5. The finished product stacking and pushing mechanism of a packaging machine according to claim 1, characterized in that: The locking mechanism (34) includes a movable connecting block (341), a locking body (342), and a hanging ring (343). The movable connecting block (341) is located on the left and right sides of the foldable handle (33) and at the end away from the outside. The end of the movable connecting block (341) near the locking body (342) is arc-shaped. The locking body (342) is located at the top of the left and right sides of the frame (31). The hanging ring (343) is located on the locking body (342).

6. The finished product stacking and pushing mechanism of a packaging machine according to claim 2, characterized in that: The top of the placement plate (43) is evenly provided with multiple ventilation holes (431).