Cover plate assembly inspection apparatus film welding auxiliary platform
By using multi-station parallel operation of rotating and clamping components, the problem of long idle time of single-station equipment is solved, improving film welding efficiency and quality, and reducing production cycle.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI QINGYING AUTOMATION EQUIPMENT CO LTD
- Filing Date
- 2025-08-13
- Publication Date
- 2026-07-14
AI Technical Summary
Existing thin-film welding equipment suffers from long idle times and low utilization due to its single-station structure, making it difficult to meet order demands.
The rotating assembly and four clamping assemblies work together to achieve multi-station parallel operation. The clamping assemblies are in four different working states: loading, welding, inspection and unloading. The rotating assembly drives the worktable to rotate, so that each clamping assembly can enter the next process.
It improves welding efficiency and quality, reduces enterprise production cycle, and enhances the practicality and flexibility of equipment.
Smart Images

Figure CN224490139U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of welding technology, and in particular to a thin-film welding auxiliary platform for cover plate assembly and testing equipment. Background Technology
[0002] In modern industrial production, film welding of cover plate assembly and testing equipment is a key process in the fields of electronics, new energy, and packaging. Taking the welding of new energy battery cover plates and explosion-proof films as an example, the quality of film welding directly affects the battery's sealing performance, safety, and service life. In the field of electronic products, the welding precision of cover plates and protective films determines the waterproof and dustproof performance and appearance quality of products. With the increasing market demand for product miniaturization and precision, film welding processes are facing higher requirements for efficiency and precision.
[0003] Currently, most of the film welding auxiliary platforms widely used in the market adopt a single-station structure. In practical applications, this type of traditional platform seriously restricts the improvement of production efficiency and product quality. Firstly, when performing film welding, a single-station platform must wait for a single cover plate component to complete a series of processes such as loading, welding, cooling, and unloading before it can process the next product. This operation mode results in a large amount of idle time for the equipment. Especially during the process of waiting for the product to cool down after welding, the welding head and other equipment components are in an idle state, which greatly reduces the utilization rate of the equipment. According to industry research, the effective working time of a single-station platform during continuous production is less than 40%, which leads to an extension of the production cycle for enterprises and makes it difficult to meet the ever-increasing order demand. Utility Model Content
[0004] The purpose of this utility model is to at least solve one of the technical problems existing in the prior art, and to provide a film welding auxiliary platform for cover plate assembly and testing equipment. This platform can solve the problem that when a single-station platform is performing film welding, it is necessary to wait for a single cover plate component to complete a series of processes such as loading, welding, cooling, and unloading before the next product can be processed. This operation mode results in a lot of idle time for the equipment, especially during the process of waiting for the product to cool down after welding. The welding head and other equipment components are in an idle state, which greatly reduces the utilization rate of the equipment. According to industry research, the effective working time of a single-station platform during continuous production is less than 40%, which leads to the extension of the production cycle for enterprises and makes it difficult to meet the ever-increasing order demand.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a film welding auxiliary platform for cover plate assembly and testing equipment, including an auxiliary base and a worktable, wherein a rotating component is provided on the auxiliary base and four clamping components are provided on the worktable;
[0006] The rotating assembly includes a rotating base, a large rotating gear, and a motor. The upper surface of the auxiliary base has a mounting groove for the large rotating gear, which is rotatably mounted inside the mounting groove. The upper surface of the auxiliary base has a mounting groove for the motor, which is fixedly mounted inside the mounting groove. A small rotating gear is fixedly mounted on the output end of the motor.
[0007] The lower surface of the rotating seat is fixedly connected to the upper surface of the large rotating gear. Two T-blocks are fixedly connected to the lower surface of the worktable. Two T-block slots are opened on the upper surface of the rotating seat. Fixing bolt slots are opened in the grooves at the front end of the two T-block slots. Fixing bolts are threadedly connected to the outer walls of the protrusions at the front end of the two T-blocks.
[0008] Preferably, the interior of the large rotating gear mounting slot is connected to the interior of the motor mounting slot, and the teeth on the outer wall of the small rotating gear mesh with the teeth on the outer wall of the large rotating gear.
[0009] The outer walls of the two T-blocks are slidably connected to the interior of the corresponding T-block grooves.
[0010] Preferably, the outer walls of the front protrusions of the two T-blocks are slidably connected to the interior of the front groove of the corresponding T-block slot;
[0011] The ends of the two fixing bolts near the fixing bolt slots are threaded into the front groove of the T-shaped block slot and respectively connected to the internal threads of the corresponding fixing bolt slots.
[0012] Preferably, the four clamping components include two lower clamping blocks and two upper clamping blocks, with the two lower clamping blocks fixedly mounted on the surface of the worktable;
[0013] The outer walls of the lower ends of the two upper clamping blocks are slidably connected to the inner upper ends of the corresponding lower clamping blocks.
[0014] Preferably, protective pads are installed on the outer wall of both upper clamping blocks near the lower clamping block.
[0015] The two lower clamping blocks have the same protective pad installed on the outer wall of the end closest to the upper clamping block.
[0016] Preferably, the upper surfaces of both upper clamping blocks are threaded with rotating threaded rods;
[0017] Among them, the two rotating threaded rods are threaded into the interior of the lower clamping block at the end near the lower clamping block and are rotatably connected to the inner wall of the lower clamping block. All four clamping components are set on the upper surface of the worktable.
[0018] Compared with the prior art, the beneficial effects of this utility model are:
[0019] 1. The film welding auxiliary platform of this cover plate assembly and testing equipment, when used in conjunction with the rotating component and four clamping components, has four different working states: loading, welding, testing, and unloading. When one clamping component completes the current process, the worktable rotates to allow each clamping component to enter the next process, realizing parallel operation of multiple stations, which greatly improves welding efficiency, facilitates subsequent welding operations, improves the quality and efficiency of film welding, and thus effectively improves the practicality and flexibility of the equipment, while reducing the production cycle of enterprises. Attached Figure Description
[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0021] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0022] Figure 2 This is a schematic diagram of the external structure of the workbench of this utility model;
[0023] Figure 3 This is a schematic diagram of the internal structure of the auxiliary base of this utility model;
[0024] Figure 4 This utility model Figure 3 A structural schematic diagram of the enlarged view at point A in the middle.
[0025] Reference numerals: 1. Auxiliary base; 2. Worktable; 3. Upper clamping block; 4. Rotating threaded rod; 5. Lower clamping block; 6. Protective pad; 7. Rotating seat; 8. T-block; 9. Fixing bolt; 10. T-block slot; 11. Fixing bolt slot; 12. Small rotating gear; 13. Motor; 14. Motor mounting slot; 15. Large rotating gear; 16. Large rotating gear mounting slot. Detailed Implementation
[0026] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.
[0027] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0028] In the description of this utility model, terms such as greater than, less than, and exceeding are understood to exclude the stated number, while terms such as above, below, and within are understood to include the stated number. The use of terms like "first" and "second" is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, or implicitly indicating the quantity or sequence of the indicated technical features.
[0029] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.
[0030] Please see Figure 1-4 This utility model provides a technical solution: a film welding auxiliary platform for cover plate assembly and testing equipment, including an auxiliary base 1 and a worktable 2;
[0031] A rotating component is provided on the auxiliary base 1, and four clamping components are provided on the worktable 2;
[0032] The rotating assembly includes a rotating base 7, a large rotating gear 15, and a motor 13. The upper surface of the auxiliary base 1 has a mounting groove 16 for the large rotating gear 15, which is rotatably mounted inside the groove. The upper surface of the auxiliary base 1 also has a mounting groove 14 for the motor 13, which is fixedly mounted inside the groove. The interior of the large rotating gear 16 communicates with the interior of the motor mounting groove 14. A small rotating gear 12 is fixedly mounted at the output end of the motor 13, and the teeth on the outer wall of the small rotating gear 12 mesh with the teeth on the outer wall of the large rotating gear 15. The lower surface of the rotating base 7 and the upper surface of the large rotating gear 15... The worktable 2 is fixedly connected to two T-shaped blocks 8 on its lower surface. The rotating seat 7 has two T-shaped block grooves 10 on its upper surface. The outer walls of the two T-shaped blocks 8 are slidably connected to the interior of the corresponding T-shaped block grooves 10. The front grooves of the two T-shaped block grooves 10 are each provided with a fixing bolt groove 11. The outer walls of the front protrusions of the two T-shaped blocks 8 are slidably connected to the interior of the front grooves of the corresponding T-shaped block grooves 10. The outer walls of the front protrusions of the two T-shaped blocks 8 are threadedly connected with fixing bolts 9. The ends of the two fixing bolts 9 near the fixing bolt grooves 11 are threaded into the interior of the front grooves of the T-shaped block grooves 10 and are threadedly connected to the interior of the corresponding fixing bolt grooves 11.
[0033] The four clamping components include two lower clamping blocks 5 and two upper clamping blocks 3. The two lower clamping blocks 5 are fixedly installed on the upper surface of the worktable 2. The outer walls of the lower ends of the two upper clamping blocks 3 are slidably connected to the inner upper ends of the corresponding lower clamping blocks 5. Protective pads 6 are installed on the outer walls of the two upper clamping blocks 3 near the lower clamping blocks 5. The same protective pads 6 are installed on the outer walls of the two lower clamping blocks 5 near the upper clamping blocks 3. Rotary threaded rods 4 are threadedly connected to the upper surfaces of the two upper clamping blocks 3. The ends of the two rotating threaded rods 4 near the lower clamping blocks 5 are threaded into the interior of the lower clamping blocks 5 and rotatably connected to the inner wall of the lower clamping blocks 5. All four clamping components are set on the upper surface of the worktable 2.
[0034] Furthermore, when using this device, before performing the film welding work on the cover plate assembly and testing equipment, the worktable 2 is first slidably connected to the T-block groove 10 on the rotating seat 7 via the T-block 8. Then, the fixing bolt 9 is passed through the front protrusion of the T-block 8 and threaded into the fixing bolt groove 11 to securely install the worktable 2 on the rotating seat 7. Next, the film to be welded is placed on the upper surface of the worktable 2, and the clamping process is started by rotating the rotating threaded rod 4. Since the rotating threaded rod 4 is threadedly connected to the upper clamping block 3 and the lower... The upper clamping block 3 is rotatably connected to the inner wall of the lower clamping block 5. Rotating the threaded rod 4 clockwise causes the upper clamping block 3 to move downwards along the sliding connection direction with the lower clamping block 5, driven by the rotating threaded rod 4. The protective pads 6 on the upper and lower clamping blocks 3 gradually adhere to the film, using friction and pressure to clamp and fix the film. If the film needs to be replaced, rotating the threaded rod 4 counterclockwise causes the upper clamping block 3 to move upwards, releasing the clamp on the film. This is achieved through the coordinated operation of the four clamping components (two lower clamping blocks 5 and two upper clamping blocks 3). The four clamping components can stably hold films of different sizes and shapes, providing a solid foundation for welding. Then, the motor 13 is started. The motor 13 is fixedly installed in the motor mounting slot 14 of the auxiliary base 1, and the small rotating gear 12 at its output end starts to rotate. The outer teeth of the small rotating gear 12 mesh with the outer teeth of the large rotating gear 15. The rotation of the small rotating gear 12 is transmitted through gear meshing, causing the large rotating gear 15 to rotate in the large rotating gear mounting slot 16. Because the lower surface of the rotating base 7 is fixedly connected to the upper surface of the large rotating gear 15, the rotation of the large rotating gear 15 will drive the rotating base 7 to rotate synchronously, thereby driving the worktable 2 to rotate, realizing the rotation function of the worktable 2. In this way, the four clamping components are in four different working states: loading, welding, inspection, and unloading. When a clamping component completes the current process, the worktable 2 rotates to allow each clamping component to enter the next process, realizing multi-station parallel operation, greatly improving welding efficiency, facilitating the smooth progress of subsequent welding operations, and improving the quality and efficiency of film welding.
[0035] When used in conjunction with the rotating assembly and four clamping assemblies, the four clamping assemblies are in four different working states: feeding, welding, inspection, and unloading. After one clamping assembly completes the current process, the worktable 2 rotates to allow each clamping assembly to enter the next process, realizing parallel operation of multiple stations. This greatly improves welding efficiency, facilitates subsequent welding operations, improves the quality and efficiency of thin film welding, and effectively enhances the practicality and flexibility of the equipment, while also reducing the production cycle of enterprises.
[0036] Structural Description: Auxiliary base 1 and worktable 2: Auxiliary base 1 is the basic support component of the entire equipment, providing the mounting base for other components. Worktable 2 is the working surface used to place and fix the film to be welded. The two are rotated relative to each other through a rotating component to meet the operational requirements of different angles during film welding.
[0037] Rotary seat 7: As a key component connecting the worktable 2 and the large rotating gear 15, its lower surface is fixedly connected to the upper surface of the large rotating gear 15, and its upper surface has two T-shaped block grooves 10 for sliding connection with the T-shaped block 8 of the worktable 2 to realize the rotation support of the worktable 2.
[0038] Large rotating gear 15: Installed in the large rotating gear mounting slot 16 of the auxiliary base 1, it transmits the power of the motor 13 to the rotating seat 7 through meshing with the small rotating gear 12, thereby driving the worktable 2 to rotate.
[0039] Motor 13: Fixedly installed in the motor mounting slot 14 of the auxiliary base 1, it is the power source of the entire rotating assembly. It drives the large rotating gear 15 to rotate through the meshing of the small rotating gear 12 and the large rotating gear 15 at the output end.
[0040] Small rotating gear 12: Installed at the output end of motor 13, its outer teeth mesh with the outer teeth of large rotating gear 15, transmitting the rotational motion of motor 13 to large rotating gear 15;
[0041] T-block 8, T-block groove 10, fixing bolt 9 and fixing bolt groove 11: T-block 8 is fixed on the lower surface of worktable 2 and is slidably connected to T-block groove 10 on rotating seat 7 to realize the connection and relative rotation between worktable 2 and rotating seat 7. Fixing bolt 9 is threadedly connected to the front protrusion of T-block 8, and one end of it can be threaded to the fixing bolt groove 11 in the front groove of T-block groove 10. By tightening fixing bolt 9, worktable 2 can be fixed on rotating seat 7 to prevent it from sliding accidentally during operation.
[0042] Lower clamping block 5: It is fixedly installed on the upper surface of the workbench 2 as a lower support component for clamping the film. It has a structure that is slidably connected to the upper clamping block 3, and a protective pad 6 is installed on the outer wall near the upper clamping block 3 to protect the film from being damaged during clamping.
[0043] Upper clamping block 3: The outer walls on both sides of the lower end are slidably connected to the inner upper end of the corresponding lower clamping block 5, and can move up and down under the drive of the rotating threaded rod 4. A protective pad 6 is installed on the outer wall near the lower clamping block 5, which cooperates with the protective pad 6 on the lower clamping block 5 to achieve clamping and fixing of the film. The upper surface is threadedly connected to the rotating threaded rod 4, and its up and down movement is controlled by rotating the rotating threaded rod 4.
[0044] Protective pad 6: Installed on the outer wall of the upper clamping block 3 and the lower clamping block 5 near each other, made of a soft material with a certain friction, which can prevent the film from being scratched during clamping and increase the stability of clamping.
[0045] Rotating threaded rod 4: Rotating threaded rod 4 is threadedly connected to the upper surface of the upper clamping block 3, and the lower end thread extends into the interior of the lower clamping block 5 and is rotatably connected to the inner wall of the lower clamping block 5. By rotating the threaded rod 4, the upper clamping block 3 can be moved up and down to realize the clamping and releasing operation of the film.
[0046] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.
Claims
1. A film welding auxiliary platform for a cover plate assembly and testing equipment, comprising an auxiliary base (1) and a worktable (2), characterized in that: The auxiliary base (1) is provided with a rotating component, and the worktable (2) is provided with four clamping components; The rotating assembly includes a rotating base (7), a large rotating gear (15), and a motor (13). The upper surface of the auxiliary base (1) is provided with a large rotating gear mounting groove (16). The large rotating gear (15) is rotatably mounted inside the large rotating gear mounting groove (16). The upper surface of the auxiliary base (1) is provided with a motor mounting groove (14). The motor (13) is fixedly mounted inside the motor mounting groove (14). The output end of the motor (13) is fixedly mounted with a small rotating gear (12). Among them, the lower surface of the rotating seat (7) is fixedly connected to the upper surface of the large rotating gear (15), and two T-blocks (8) are fixedly connected to the lower surface of the worktable (2). Two T-block grooves (10) are opened on the upper surface of the rotating seat (7). Fixing bolt grooves (11) are opened in the front groove of the two T-block grooves (10), and fixing bolts (9) are threaded on the outer wall of the front protrusion of the two T-blocks (8).
2. The film welding auxiliary platform of the cover plate assembly and testing equipment according to claim 1, characterized in that: The interior of the large rotating gear mounting slot (16) is connected to the interior of the motor mounting slot (14), and the outer teeth of the small rotating gear (12) mesh with the outer teeth of the large rotating gear (15). The outer walls of the two T-blocks (8) are slidably connected to the interior of the corresponding T-block grooves (10).
3. The film welding auxiliary platform of the cover plate assembly and testing equipment according to claim 1, characterized in that: The outer walls of the front protrusions of the two T-blocks (8) are slidably connected to the interior of the front groove of the corresponding T-block slot (10); Among them, the ends of the two fixing bolts (9) near the fixing bolt groove (11) are threaded to the front groove of the T-shaped block groove (10) and respectively connected to the internal threads of the corresponding fixing bolt groove (11).
4. The film welding auxiliary platform of the cover plate assembly and testing equipment according to claim 1, characterized in that: The four clamping components include two lower clamping blocks (5) and two upper clamping blocks (3), with the two lower clamping blocks (5) fixedly mounted on the upper surface of the worktable (2); Among them, the outer walls on both sides of the lower end of the two upper clamping blocks (3) are slidably connected to the inner upper end of the corresponding lower clamping block (5).
5. The film welding auxiliary platform of the cover plate assembly and testing equipment according to claim 4, characterized in that: Protective pads (6) are installed on the outer wall of the two upper clamping blocks (3) near the lower clamping block (5); Among them, the two lower clamping blocks (5) are each equipped with the same protective pad (6) on the outer wall of the end near the upper clamping block (3).
6. The film welding auxiliary platform of the cover plate assembly and testing equipment according to claim 4, characterized in that: The upper surfaces of the two upper clamping blocks (3) are threaded with rotating threaded rods (4); Among them, the two rotating threaded rods (4) are threaded to the interior of the lower clamping block (5) at one end near the lower clamping block (5) and are rotatably connected to the inner wall of the lower clamping block (5). All four clamping components are set on the upper surface of the worktable (2).