A cutting device for battery frame processing

Abstract

The utility model belongs to the battery frame processing equipment technical field, concretely relates to a cutting equipment for battery frame processing, including cutting host computer body, the cutting host computer body front end surface is equipped with the exhaust port. The utility model discloses the mutual cooperation of mounting block, insert block, movable plug rod, tab and the poking block, when the operator needs to dismantle the maintenance of the protective net on cutting host computer body, only needs to pinch two poking blocks with hand simultaneously, makes two poking blocks in the chute mutual close, poking block will take movable plug rod and press the spring in tab at this moment, makes the one end of movable plug rod can separate the fixed jack on insert block, at this moment, insert block can slide and separate the plug groove, lets the operator not to use the tool to slide the protective net from mounting block and dismantle, lets the operator to maintain the protective net conveniently, thereby brings the convenience to the maintenance operation of cutting equipment.

Description

Technical Field

[0001] This utility model belongs to the technical field of battery frame processing equipment, specifically relating to a cutting device for battery frame processing. Background Technology

[0002] Battery frames are structural components used to fix and protect battery packs, and they play an important role in various battery application scenarios.

[0003] During the production and processing of battery frames, operators need to cut the raw materials to divide them into suitable sizes and shapes for subsequent processing. Some factories use plasma cutting machines to cut the raw materials. These machines are equipped with exhaust vents for heat dissipation, and protective nets are installed at these vents to shield the fans. However, some plasma cutting machines use bolts to fix the protective nets. When the protective nets need to be disassembled for maintenance, operators need to use tools to operate multiple bolts, and the bolts can be difficult to operate. This process is time-consuming and laborious, causing inconvenience for the maintenance of the plasma cutting machine.

[0004] Therefore, this utility model provides a cutting device for battery frame processing to solve the above problems. Utility Model Content

[0005] The purpose of this utility model is to provide a cutting device for battery frame processing, which aims to solve the problem that the protective net on some existing plasma cutting machines is fixed by bolts. When the protective net needs to be disassembled and maintained, the operator needs to use tools to operate multiple bolts, and the bolts may be difficult to operate. This operation is time-consuming and laborious, thus causing inconvenience to the maintenance of the plasma cutting machine.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a cutting device for processing battery frames, comprising a cutting host body, an exhaust port on the front surface of the cutting host body, a mounting block connected to the front surface of the cutting host body outside the exhaust port, a placement groove on one side surface of the mounting block, a protective net slidably placed inside the placement groove, insert blocks symmetrically connected to one side surface of the protective net, one end of the insert block extending into a slot, the slot symmetrically opened on the other side surface of the mounting block, a fixing insertion hole on one end surface of the insert block, one end of a movable insert rod slidably inserted into the fixing insertion hole, and the other end of the movable insert rod passing through the mounting block and connected to a protrusion.

[0007] In a preferred embodiment of the cutting equipment for battery frame processing according to this utility model, the position of the slot is connected to the position of the placement slot, and the insertion block forms a sliding connection with the mounting block through the slot.

[0008] As a preferred cutting device for battery frame processing according to the present invention, the protrusions are symmetrically connected to the two end surfaces inside the slide groove, the slide groove is opened at the middle position of the other side surface of the mounting block, and the protrusions are provided with springs through which movable insert rods pass.

[0009] As a preferred cutting device for battery frame processing according to the present invention, one end of the sliding block is slidably connected to both ends of the slide groove, and the surface of the sliding block facing the protrusion is connected to the movable insert rod.

[0010] As a preferred cutting device for battery frame processing according to the present invention, a protective plate is slidably connected to the front end surface of the mounting block, a first magnetic block is embedded in the inner two end surfaces of the protective plate, a second magnetic block is connected to the other end surface of the first magnetic block, and the second magnetic block is embedded in the middle position of the two end surfaces of the mounting block.

[0011] As a preferred cutting device for battery frame processing according to the present invention, four sets of positioning blocks are symmetrically connected on the inner surface of the protective plate. One end of the positioning block extends into the positioning groove, and the positioning groove is opened on both ends of the mounting block. The positioning block and the mounting block are slidably connected through the positioning groove.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] This invention utilizes the cooperation of an mounting block, a plug block, a movable plug rod, a protrusion, and a toggle block. When an operator needs to disassemble and maintain the protective netting on the main cutting machine body, they only need to pinch two toggle blocks simultaneously, causing them to move closer together in the sliding groove. At this time, the toggle block will push the movable plug rod against the spring in the protrusion, allowing one end of the movable plug rod to separate from the fixed insertion hole on the plug block. The plug block can then slide out of the slot, allowing the operator to remove the protective netting from the mounting block without tools. This facilitates the maintenance of the protective netting and brings convenience to the maintenance of the cutting equipment.

[0014] This invention utilizes the cooperation of a protective plate, a first magnetic block, a second magnetic block, and a positioning block. By sliding the positioning block on the protective plate into the positioning groove on the mounting block, the first magnetic block on the protective plate can move to the position of the second magnetic block, allowing the first and second magnetic blocks to attract each other and fix the protective plate on the mounting block. This allows the protective plate to cover and protect the opening on the mounting block, preventing debris from the environment from entering the exhaust vent through the gaps in the protective mesh and accumulating when the cutting host is not in use, thus preventing the operation of the fan in the exhaust vent from being affected. Attached Figure Description

[0015] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0016] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0017] Figure 2 This is a schematic diagram of the partial explosion structure of this utility model;

[0018] Figure 3 This is a partial cross-sectional exploded view of the mounting block of this utility model;

[0019] Figure 4 This is a schematic diagram of the protective plate structure of this utility model.

[0020] In the diagram: 1. Cutting main unit body; 2. Exhaust vent; 3. Mounting block; 4. Placement slot; 5. Protective net; 6. Insertion block; 7. Slot; 8. Fixed insertion hole; 9. Movable insertion rod; 10. Protrusion; 11. Slide groove; 12. Spring; 13. Actuating block; 14. Protective plate; 15. First magnetic block; 16. Second magnetic block; 17. Positioning block; 18. Positioning slot. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] Please see Figures 1-4The present invention provides the following technical solution: a cutting device for battery frame processing, including a cutting host body 1, the cutting host body 1 being an LGK120B plasma cutting machine, an exhaust port 2 being provided on the front surface of the cutting host body 1, an installation block 3 being connected to the front surface of the cutting host body 1 outside the exhaust port 2, a placement groove 4 being provided on one side surface of the installation block 3, a protective net 5 being slidably placed inside the placement groove 4, an insert block 6 being symmetrically connected to one side surface of the protective net 5, one end of the insert block 6 extending into a slot 7, the slot 7 being symmetrically provided on the other side surface of the installation block 3, a fixing insertion hole 8 being provided on one end surface of the insert block 6, one end of a movable insert rod 9 being slidably inserted into the fixing insertion hole 8, and the other end of the movable insert rod 9 passing through the installation block 3 and being connected to a protrusion 10.

[0023] Preferably, the position of the slot 7 is connected to the position of the placement slot 4, and the insertion block 6 is slidably connected to the mounting block 3 through the slot 7.

[0024] In practical use, when the protective net 5 is slidably placed into the placement groove 4 on the mounting block 3, the insert 6 on the protective net 5 will also slide through the placement groove 4 and be inserted into the slot 7 on the mounting block 3. When the protective net 5 is slid out of the placement groove 4, the protective net 5 can also move out of the slot 7 with the insert 6.

[0025] Preferably, the protrusions 10 are symmetrically connected to the two ends of the inner surface of the slide groove 11, the slide groove 11 is opened at the middle position of the other side surface of the mounting block 3, and the protrusions 10 are provided with a spring 12 that is penetrated by the movable insert rod 9.

[0026] In practical use, the movable rod 9 can slide within the protrusion 10. When the movable rod 9 slides, it can elastically extend and retract within the protrusion 10 via the spring 12. When installing the protective net 5, first, simultaneously pinch the two actuating blocks 13 by hand, causing them to move closer together in the slide groove 11. At this time, the actuating blocks 13 will cause the movable rod 9 to press against the spring 12 in the protrusion 10, allowing one end of the movable rod 9 to separate from the slot 7. Then, slide the protective net 5 into the mounting block 3. In the placement groove 4, the insert 6 will slide through the placement groove 4 and be inserted into the slot 7 on the mounting block 3. At this time, release the toggle block 13, and the spring 12 will push the movable insert rod 9 to move through the elasticity, so that one end of the movable insert rod 9 can be inserted into the fixed insertion hole 8 on the insert 6. At this time, the position of the insert 6 will be fixed in the slot 7, so that the protective net 5 will also be fixedly installed in the placement groove 4 on the mounting block 3, so that the protective net 5 can block and protect the exhaust port 2. The protective net 5 can be customized to be processed into the required shape and size for use.

[0027] Preferably, one end of a toggle block 13 is slidably connected to both ends of the slide groove 11, and the surface of the toggle block 13 facing the protrusion 10 is connected to the movable insert rod 9.

[0028] In practical use, the toggle block 13 can slide in the groove 11 on the mounting block 3, so that when the toggle block 13 moves, it can drive the movable plug rod 9 to move.

[0029] Preferably, a protective plate 14 is slidably connected to the front end surface of the mounting block 3, and a first magnetic block 15 is embedded in the inner two end surfaces of the protective plate 14. A second magnetic block 16 is connected to the other end surface of the first magnetic block 15, and the second magnetic block 16 is embedded in the middle of the two end surfaces of the mounting block 3.

[0030] In practical use, when the protective plate 14 is slidably placed onto the mounting block 3, the first magnetic block 15 on the protective plate 14 can move to the position of the second magnetic block 16 on the mounting block 3, so that the first magnetic block 15 and the second magnetic block 16 attract each other together, so that the protective plate 14 can be fixed on the mounting block 3. At this time, the protective plate 14 can block and protect the opening of the mounting block 3. Pulling the protective plate 14 can separate the first magnetic block 15 and the second magnetic block 16, so that the protective plate 14 can be removed from the mounting block 3, and the exhaust port 2 can be used normally.

[0031] Preferably, four sets of positioning blocks 17 are symmetrically connected on the inner surface of the protective plate 14. One end of the positioning block 17 extends into the positioning groove 18. The positioning groove 18 is opened on both ends of the mounting block 3. The positioning block 17 and the mounting block 3 are slidably connected through the positioning groove 18.

[0032] In practical use, the positioning block 17 on the protective plate 14 can slide in the positioning groove 18 on the mounting block 3. When the positioning block 17 slides into the positioning groove 18, the protective plate 14 can be accurately placed on the mounting block 3, and the first magnetic block 15 on the protective plate 14 can be moved to the position of the second magnetic block 16.

[0033] Working Principle: When using this cutting equipment for battery frame processing, first move the main cutting unit 1 to the designated location for processing the battery frame raw material. Connect the compressed air source pipe to the air inlet on the main cutting unit 1, and then connect the torch nozzle to the designated interface on the main cutting unit 1. Simultaneously, reliably connect the grounding clamp of the main cutting unit 1 to a nearby grounded object to ensure good grounding. Adjust the air pressure and cutting current of the main cutting unit 1. Then, align the torch nozzle with the starting point of the battery frame raw material cutting, maintaining a certain distance between the nozzle and the workpiece surface. Start the main cutting unit 1; the torch nozzle will emit a plasma arc. After the plasma arc has stably burned and cut through the battery frame raw material workpiece, begin moving the torch at a uniform speed along the cutting direction to complete the cutting operation of the battery frame raw material. When the main cutting unit 1 is in use, the fan at the exhaust vent 2 will also start, dissipating the heat inside the main cutting unit 1 to the outside, ensuring effective heat dissipation. When the protective net 5 installed at the exhaust vent 2 needs to be disassembled for maintenance, simply use your hands... When the two actuating blocks 13 are pinched, they move closer together in the slide groove 11. At this time, the actuating blocks 13, along with the movable insert rod 9, press against the spring 12 in the protrusion 10, causing one end of the movable insert rod 9 to separate from the fixed insertion hole 8 on the insert block 6. The insert block 6 can then slide out of the slot 7, allowing the operator to easily remove the protective net 5 from the placement groove 4 on the mounting block 3 without tools. This facilitates maintenance of the protective net 5 and improves the convenience of maintaining the cutting equipment. Secondly, when the cutting main body 1 is not... When in use, slide the positioning block 17 on the protective plate 14 into the positioning groove 18 on the mounting block 3. This allows the first magnetic block 15 on the protective plate 14 to move to the position of the second magnetic block 16, so that the first magnetic block 15 and the second magnetic block 16 attract each other together. This allows the protective plate 14 to be fixed on the mounting block 3, and the protective plate 14 to cover and protect the opening on the mounting block 3. This prevents debris in the environment from entering the exhaust port 2 through the gaps in the protective mesh 5 and accumulating when the main cutting host 1 is not in use, thus preventing the operation of the fan in the exhaust port 2 from being affected.

[0034] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A cutting device for processing battery frames, comprising a cutting host body (1), characterized in that: The front surface of the cutting host body (1) is provided with an exhaust port (2). An installation block (3) is connected to the front surface of the cutting host body (1) outside the exhaust port (2). A placement groove (4) is provided on one side surface of the installation block (3). A protective net (5) is slidably placed inside the placement groove (4). A plug (6) is symmetrically connected to one side surface of the protective net (5). One end of the plug (6) extends into a slot (7). The slot (7) is symmetrically opened on the other side surface of the installation block (3). A fixing hole (8) is provided on one end surface of the plug (6). One end of a movable plug (9) is slidably inserted into the fixing hole (8). The other end of the movable plug (9) passes through the installation block (3) and is connected to a protrusion (10).

2. The cutting equipment for battery frame processing according to claim 1, characterized in that: The position of the slot (7) is connected to the position of the placement slot (4), and the insert (6) is slidably connected to the mounting block (3) through the slot (7).

3. The cutting equipment for battery frame processing according to claim 1, characterized in that: The protrusions (10) are symmetrically connected to the two ends of the slide groove (11). The slide groove (11) is located at the middle of the other side surface of the mounting block (3). The protrusions (10) are provided with a spring (12) that is penetrated by the movable insert rod (9).

4. A cutting device for processing battery frames according to claim 3, characterized in that: One end of a toggle block (13) is slidably connected to both ends of the slide groove (11), and the surface of the toggle block (13) facing the protrusion (10) is connected to the movable insert rod (9).

5. A cutting device for processing battery frames according to claim 1, characterized in that: The front end surface of the mounting block (3) is slidably connected to a protective plate (14). The inner two ends of the protective plate (14) are embedded with a first magnetic block (15). The other end of the first magnetic block (15) is connected to a second magnetic block (16). The second magnetic block (16) is embedded in the middle of the two ends of the mounting block (3).

6. A cutting device for processing battery frames according to claim 5, characterized in that: The inner surface of the protective plate (14) is symmetrically connected with four sets of positioning blocks (17). One end of the positioning block (17) extends into the positioning groove (18). The positioning groove (18) is opened on both ends of the mounting block (3). The positioning block (17) and the mounting block (3) are slidably connected through the positioning groove (18).

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