A copper chip collecting device for electrode cap dressing

CN224407289UActive Publication Date: 2026-06-26BEIJING XINGYU CAR TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING XINGYU CAR TECHNOLOGY CO LTD
Filing Date
2025-04-21
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In the prior art, the copper shavings discharge of the electrode cap grinding device with the shavings collection cover is unstable and easily remain on the grinding head, affecting the grinding quality of the electrode cap. In addition, it cannot effectively capture all the copper shavings, resulting in poor collection effect.

Method used

A copper shavings collection device for electrode cap grinding was designed, including a first collection box, a fan, an adjustable connecting arm, a second connecting arm, a buffer tube, a collection head, and a collection hose. By adjusting the combination of the slider and the limiting plate, the copper shavings can be stably captured and collected. The negative pressure generated by the fan is used to collect the copper shavings into the second collection box.

Benefits of technology

It improves the efficiency and stability of copper shavings collection, ensures that copper shavings do not remain on the grinding head, adapts to different collection locations, and improves the quality of electrode cap grinding and the recycling rate of copper shavings.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a copper scrap collection device is used to electrode cap repair and grinds, relates to electrode cap processing technical field, including first collection box, fan, the outer wall of first collection box is provided with adjustable collection mounting component, and through the first connecting arm, second connecting arm of setting can play the supporting effect to the use of buffer pipe, and the connecting frame of setting utilizes the limiting disc and fixes the adjusting slide in the adjusting groove, realizes the stability of limiting disc moving position, and the multiple collection pipes of setting can be same inside buffer cross pipe with collection head, realizes the collection of the chippings of repair and grinding through buffer cross pipe, connecting pipe, collection hose and collects to second collection box, and the collection port, collection head and multiple trapezoidal collection ports of setting can be carried out to the chippings collection of repair and grinding to second collection box simultaneously, and the adjusting slide of setting moves in the adjusting groove, realizes that multiple collection heads and trapezoidal collection port can move and carry out the collection work to the chippings of repair and grinding, improves collection efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of electrode cap processing technology, and in particular to a copper shavings collection device for electrode cap grinding. Background Technology

[0002] When using a grinding device with a chip collection hood to grind the electrode cap, the copper chips are only sucked out through a single-sided dust extraction pipe. The efficiency of removing copper chips is unstable, and the copper chips remaining in the chip collection hood are easy to adhere to the grinding head of the grinding device, affecting the grinding of the electrode cap.

[0003] A patent with publication number CN221337965U discloses a copper shavings collection device for electrode cap grinding. This patent includes a shavings collection hood, an air blowing interface, an angled air blowing port, a horizontal air blowing port, a grinding hole, a deformation joint, an adjusting joint, a fixing pressure plate, a grinding device, a grinding head, an air blowing pipe, a solenoid valve, an air source component, a suction motor, and a collection cylinder. By setting air blowing ports and a collection interface located on both sides of the grinding head within the shavings collection hood to block copper shavings, the device efficiently collects the copper shavings generated during grinding and discharges them through the collection interface. This design effectively prevents copper shavings from remaining in the shavings collection hood, improving the efficiency of copper shavings recycling. It also helps prevent copper shavings from remaining on the grinding head, ensuring the quality of electrode cap grinding. By designing an angled air inlet facing the grinding head and a flat air inlet facing the collection interface, the two purposes of the air inlet design can be achieved more efficiently. The angled air inlet facing the grinding head can more effectively prevent copper shavings from remaining on the grinding head, while the flat air inlet can efficiently blow air towards the collection interface. However, the following problems still exist in this patent:

[0004] The above-mentioned method cannot effectively capture all copper shavings when collecting grinding debris, resulting in some copper shavings scattering and affecting the collection effect. It is also prone to shaking during use, leading to unstable copper shavings collection. It is difficult to adjust the collection position according to actual needs, resulting in poor adaptability.

[0005] To address the above problems, it is necessary to design a copper shavings collection device for electrode cap grinding, thereby overcoming these issues. Utility Model Content

[0006] The main purpose of this invention is to provide a copper shavings collection device for electrode cap grinding, which can effectively solve the problems in the background art.

[0007] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0008] A copper shavings collection device for electrode cap grinding includes a first collection box and a fan, characterized in that: a fan is installed at one end of the first collection box, and an adjustable collection mounting assembly is provided on the outer wall of the first collection box;

[0009] The adjustable collection and installation assembly includes a first connecting arm disposed at one end of the first collection box, a second connecting arm mounted at the end of the first collection box away from the first connecting arm, and an installation cylinder mounted at the end of both the first and second connecting arms away from the first collection box. Locking rods are mounted through one end of each of the two installation cylinders, and a buffer tube is mounted on one side of each of the two locking rods. A collection port is formed on the outer wall of the buffer tube. Adjustment grooves are formed at both ends of the first and second connecting arms, and adjustment sliders are mounted on the inner walls of the adjustment grooves. Limiting plates are mounted on one side of each of the two adjustment sliders, passing through the first and second connecting arms. Connecting rods are mounted on the side of each of the two adjustment sliders away from the limiting plates. A trapezoidal fixing block is mounted at the end of each connecting rod away from the adjustment slider. A collection head is mounted on the side of each of the trapezoidal fixing blocks near the buffer tube, and a sealing ring is mounted on the outer wall of the collection head near the end of the trapezoidal fixing block. A collection tube is mounted on the top of each of the trapezoidal fixing blocks.

[0010] As a preferred embodiment of this utility model, a connecting frame is installed on the side of the two limiting discs away from the adjusting slider, and a buffer horizontal tube is installed through the top of the multiple collecting tubes through the top of the connecting frame. Connecting tubes are installed on both sides of the buffer horizontal tube, and a positioning block is installed at the end of each of the two connecting tubes away from the buffer horizontal tube. Multiple trapezoidal collecting ports are provided at the top of the buffer horizontal tube, and a collecting hose is installed at the end of each of the two connecting tubes away from the buffer horizontal tube. A guide plate is installed at one end of the outer wall of each of the two collecting hoses.

[0011] As a preferred embodiment of this utility model, the first collection box is threadedly fixedly connected to the first connecting arm and the second connecting arm, the first connecting arm and the second connecting arm are threadedly fixedly connected to the two mounting cylinders, the two mounting cylinders are threadedly fixedly connected to the locking rod, and the locking rod is rotatably connected to the buffer tube.

[0012] In a preferred embodiment of this utility model, the two adjusting sliders are in contact with the inner wall of the adjusting groove, the adjusting sliders are threadedly fixedly connected to the limiting plate, the two limiting plates are threadedly fixedly connected to the connecting frame, and the two adjusting sliders are threadedly fixedly connected to the connecting rod.

[0013] As a preferred embodiment of this utility model, the connecting rod is threadedly fixed to the trapezoidal fixing block, the plurality of trapezoidal fixing blocks are threadedly fixed to the collecting head, the collecting head passes through the interior of the trapezoidal fixing block and is rotatably connected to the collecting tube, and the plurality of collecting tubes pass through the top of the connecting frame and communicate with each other inside the buffer horizontal tube.

[0014] As a preferred embodiment of this utility model, the top of the connecting frame contacts the bottom of the buffer horizontal tube, the buffer horizontal tube is threadedly fixedly connected to the two connecting pipes, and the two connecting pipes are rotatably connected to the two collecting hoses.

[0015] As a preferred embodiment of this utility model, both positioning blocks and guide plates are rotatably connected to the connecting pipe and the collecting hose, and the ends of the two collecting hoses away from the connecting pipe are rotatably connected to one end of the second collecting box.

[0016] Beneficial effects

[0017] Compared with the prior art, the present invention has the following beneficial effects:

[0018] This copper shavings collection device for electrode cap grinding features a first and second connecting arm that supports the buffer tube, an installation cylinder and locking rod for locking the buffer tube in place for improved stability, a connecting frame that uses a limiting plate to fix the adjusting slider in the adjusting groove for stable movement of the limiting plate, and a connecting rod for easy connection and installation of trapezoidal fixing blocks to improve the stability of multiple collection heads. Multiple collection tubes allow the collection heads to be integrated with the buffer horizontal tube, enabling the collection of grinding debris through the buffer horizontal tube, connecting tube, and collection hose to a second collection box. The collection port, collection head, and multiple trapezoidal collection ports allow for simultaneous collection of grinding debris into the second collection box. Positioning blocks and guide plates ensure the stability of the connecting tube and collection hose. The adjusting slider moves within the adjusting groove, allowing multiple collection heads and trapezoidal collection ports to move and collect grinding debris, improving collection efficiency. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a partial installation structure diagram of the adjustable collection and installation component of this utility model;

[0021] Figure 3 This is a schematic diagram of structure A of this utility model;

[0022] Figure 4 This is a schematic diagram of the adjustable collection and installation component disassembly and installation structure of this utility model.

[0023] In the diagram: 1. First collection box; 2. Fan; 3. Adjustable collection installation assembly; 301. First connecting arm; 302. Second connecting arm; 303. Mounting cylinder; 304. Locking rod; 305. Buffer tube; 306. Collection port; 307. Second collection box; 308. Adjustment groove; 309. Adjustment slider; 310. Limiting plate; 311. Connecting rod; 312. Trapezoidal fixing block; 313. Collection head; 314. Sealing ring; 315. Collection tube; 316. Connecting frame; 317. Buffer horizontal tube; 318. Connecting tube; 319. Trapezoidal collection port; 320. Positioning block; 321. Guide plate; 322. Collection hose. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0025] like Figures 1-4 As shown, a copper shavings collection device for electrode cap grinding includes a first collection box 1 and a fan 2, characterized in that: a fan 2 is installed at one end of the first collection box 1, and an adjustable collection mounting assembly 3 is provided on the outer wall of the first collection box 1;

[0026] The adjustable collection and installation assembly 3 includes a first connecting arm 301 located at one end of a first collection box 1, a second connecting arm 302 installed at the end of the first collection box 1 away from the first connecting arm 301, and installation cylinders 303 installed at the ends of both the first connecting arm 301 and the second connecting arm 302 away from the first collection box 1. Locking rods 304 are installed at one end of each of the two installation cylinders 303, passing through the first connecting arm 301 and the second connecting arm 302. Buffer tubes 305 are installed on one side of each of the two locking rods 304. Collection ports 306 are formed on the outer wall of the buffer tubes 305. Adjustment grooves 3 are formed at both ends of the first connecting arm 301 and the second connecting arm 302. 08. An adjusting slider 309 is installed on the inner wall of the adjusting groove 308. A limiting plate 310 is installed on one side of the two adjusting sliders 309 that passes through the first connecting arm 301 and the second connecting arm 302. A connecting rod 311 is installed on the side of the two adjusting sliders 309 away from the limiting plate 310. A trapezoidal fixing block 312 is installed on the end of the connecting rod 311 away from the adjusting slider 309. A collecting head 313 is installed on the side of the multiple trapezoidal fixing blocks 312 near the buffer tube 305. A sealing ring 314 is installed on the end of the outer wall of the collecting head 313 near the trapezoidal fixing block 312. A collecting tube 315 is installed on the top of the multiple trapezoidal fixing blocks 312.

[0027] A connecting frame 316 is installed on the side of the two limiting discs 310 away from the adjusting slider 309. A buffer horizontal tube 317 is installed on the top of the connecting frame 316 through the top of the multiple collection tubes 315. A connecting tube 318 is installed on both sides of the buffer horizontal tube 317. The end of each of the two connecting tubes 318 away from the buffer horizontal tube 317 is installed with a positioning block 320. A multiple trapezoidal collection port 319 is provided on the top of the buffer horizontal tube 317. A collection hose 322 is installed on the end of each of the two connecting tubes 318 away from the buffer horizontal tube 317. A guide plate 321 is installed on one end of the outer wall of each of the two collection hoses 322.

[0028] The first collection box 1 is threadedly fixedly connected to the first connecting arm 301 and the second connecting arm 302. The first connecting arm 301 and the second connecting arm 302 are threadedly fixedly connected to two mounting cylinders 303. The two mounting cylinders 303 are threadedly fixedly connected to the locking rod 304. The locking rod 304 is rotatably connected to the buffer tube 305. The two adjusting sliders 309 are in contact with the inner wall of the adjusting groove 308. The adjusting sliders 309 are threadedly fixedly connected to the limiting plate 310. The two limiting plates 310 are threadedly fixedly connected to the connecting frame 316. The two adjusting sliders 309 are threadedly fixedly connected to the connecting rod 311. The connecting rod 311 is threadedly fixedly connected to the trapezoidal fixing block 312. Multiple trapezoidal fixing blocks... The fixed block 312 is threadedly fixed to the collection head 313. The collection head 313 passes through the interior of the trapezoidal fixed block 312 and is rotatably connected to the collection tube 315. Multiple collection tubes 315 pass through the top of the connecting frame 316 and are interconnected with the interior of the buffer horizontal tube 317. The top of the connecting frame 316 contacts the bottom of the buffer horizontal tube 317. The buffer horizontal tube 317 is threadedly fixed to two connecting tubes 318. The two connecting tubes 318 are rotatably connected to two collection hoses 322. The two positioning blocks 320 and the guide plate 321 are rotatably connected to the connecting tubes 318 and the collection hoses 322. The end of the two collection hoses 322 away from the connecting tubes 318 is rotatably connected to one end of the second collection box 307.

[0029] The process involves fixing the first connecting arm 301 and the second connecting arm 302 to the electrode cap grinding equipment to ensure sufficient support for the stability of the buffer tube 305. The buffer tube 305 is placed between the first connecting arm 301 and the second connecting arm 302, and the locking rod 304 is rotated until the buffer tube 305 is securely fixed between the two connecting arms. The adjusting slider 309 is placed in the adjusting groove 308 of the connecting frame 316, and the movement range of the adjusting slider 309 is limited by the limiting plate 310, ensuring it can only move up and down within the adjusting groove 308. The adjusting slider 309 is connected to the trapezoidal fixing block 312 using the connecting rod 311, and the collecting head 313 is fixed to the trapezoidal fixing block 312 so that the collecting head 313 can move up and down with the movement of the adjusting slider 309. The buffer horizontal tube 317 is installed on the connecting frame 316. The top of tube 16 is positioned to ensure contact with the bottom of the buffer tube 305. The connecting tube 318 is then fixed to both ends of the buffer horizontal tube 317 using threads. The positioning block 320 and guide plate 321 are used to ensure that the connection between the connecting tube 318 and the collecting hose 322 is not loose. The blower 2 is installed at one end of the first collecting box 1 to generate negative pressure. The suction port of the blower 2 is connected to the buffer horizontal tube 317. During the grinding process, copper shavings are captured by the collecting head 313 through the collecting port 306 and transferred to the buffer horizontal tube 317 through the collecting tube 315. The copper shavings are evenly fed into the connecting tube 318 through multiple trapezoidal collecting ports 319 in the buffer horizontal tube 317. Under the negative pressure generated by the blower 2, the copper shavings are sucked into the second collecting box 307 through the collecting hose 322. When the second collecting box 307 is full, the blower 2 is turned off, the box is opened, and the collected copper shavings are cleaned.

[0030] It should be noted that this utility model is a copper shavings collection device for electrode cap grinding. In use, the first connecting arm 301 and the second connecting arm 302 are fixed on the grinding equipment to provide vertical and horizontal support for the buffer tube 305. The mounting cylinder 303 is sleeved on the outside of the buffer tube 305. The locking rod 304 passes through the mounting cylinder 303 and is connected to the first connecting arm 301 and the second connecting arm 302. The buffer tube 305 is fixed by rotating the locking rod 304. The adjusting slider 309 is installed in the adjusting groove 3 on the connecting frame 316. Within 08, the collecting head 313 can be moved up and down by manually pushing the adjusting slider 309. The limiting plate 310 is located above the adjusting slider 309 to limit the range of movement of the adjusting slider 309 and ensure that the collecting head 313 is stable in the appropriate position. The connecting rod 311 connects the adjusting slider 309 to the trapezoidal fixing block 312, which fixes the collecting head 313. The copper shavings captured by the collecting head 313 are transferred to the buffer horizontal pipe 317 through the collecting pipe 315. The buffer horizontal pipe 317 is designed as a pipe with a certain curvature. To reduce the impact of copper filings during transport, multiple trapezoidal collection ports 319 on the buffer horizontal tube 317 ensure that copper filings can enter the connecting tube 318 evenly. Collection ports 306 on the outer wall of the buffer tube 305 generate suction by driving multiple collection heads 313, transferring the filings through the collection ports 306 into the buffer horizontal tube 317. The connecting tube 318 then transfers the copper filings to the collection hose 322. The collection hose 322 is flexible and can be bent to adapt to different layouts. Positioning blocks 320 and guide plates 32... 1. Ensure that the connection between the connecting pipe 318 and the collecting hose 322 is not loose, and maintain the continuity of copper shavings transmission. The other end of the collecting hose 322 is rotatably connected to the second collecting box 307 to facilitate the final collection of copper shavings and cleaning of the box. The fan 2 is installed at one end of the first collecting box 1. By generating negative pressure, it helps to suck copper shavings from the buffer horizontal pipe 317 into the collecting hose 322 and pushes the copper shavings to the second collecting box 307. The second collecting box 307 is used to store the collected copper shavings. When the box is full, it can be opened for cleaning.

[0031] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A copper shavings collection device for electrode cap grinding, comprising a first collection box (1) and a fan (2), characterized in that: A fan (2) is installed at one end of the first collection box (1), and an adjustable collection installation component (3) is provided on the outer wall of the first collection box (1). The adjustable collection and installation assembly (3) includes a first connecting arm (301) disposed at one end of the first collection box (1), a second connecting arm (302) installed at the end of the first collection box (1) away from the first connecting arm (301), and an installation cylinder (303) installed at the end of both the first connecting arm (301) and the second connecting arm (302) away from the first collection box (1). Locking rods (304) are installed at one end of each of the two installation cylinders (303) penetrating the first connecting arm (301) and the second connecting arm (302). A buffer tube (305) is installed on one side of each of the two locking rods (304). A collection port (306) is opened on the outer wall of the buffer tube (305). Adjustment grooves (306) are opened at both ends of the first connecting arm (301) and the second connecting arm (302). 08), an adjusting slider (309) is installed on the inner wall of the adjusting groove (308). A limiting plate (310) is installed on one side of the two adjusting sliders (309) that passes through the first connecting arm (301) and the second connecting arm (302). A connecting rod (311) is installed on the side of the two adjusting sliders (309) away from the limiting plate (310). A trapezoidal fixing block (312) is installed on the end of the connecting rod (311) away from the adjusting slider (309). A collecting head (313) is installed on the side of the multiple trapezoidal fixing blocks (312) close to the buffer tube (305). A sealing ring (314) is installed on the end of the outer wall of the collecting head (313) close to the trapezoidal fixing block (312). A collecting tube (315) is installed on the top of the multiple trapezoidal fixing blocks (312).

2. The copper shavings collection device for electrode cap grinding according to claim 1, characterized in that: A connecting frame (316) is installed on the side of the two limiting discs (310) away from the adjusting slider (309). A buffer horizontal tube (317) is installed through the top of the connecting frame (316) of the multiple collection tubes (315). A connecting tube (318) is installed on both sides of the buffer horizontal tube (317). A positioning block (320) is installed at the end of each of the two connecting tubes (318) away from the buffer horizontal tube (317). A multiple trapezoidal collection port (319) is provided at the top of the buffer horizontal tube (317). A collection hose (322) is installed at the end of each of the two connecting tubes (318) away from the buffer horizontal tube (317). A guide plate (321) is installed at one end of the outer wall of each of the two collection hoses (322).

3. The copper shavings collection device for electrode cap grinding according to claim 1, characterized in that: The first collection box (1) is threadedly fixedly connected to the first connecting arm (301) and the second connecting arm (302). The first connecting arm (301) and the second connecting arm (302) are threadedly fixedly connected to the two mounting cylinders (303). The two mounting cylinders (303) are threadedly fixedly connected to the locking rod (304). The locking rod (304) is rotatably connected to the buffer tube (305).

4. The copper shavings collection device for electrode cap grinding according to claim 2, characterized in that: The two adjusting sliders (309) are in contact with the inner wall of the adjusting groove (308), the adjusting sliders (309) are threadedly fixed to the limiting plate (310), the two limiting plates (310) are threadedly fixed to the connecting frame (316), and the two adjusting sliders (309) are threadedly fixed to the connecting rod (311).

5. The copper shavings collection device for electrode cap grinding according to claim 2, characterized in that: The connecting rod (311) is threadedly fixed to the trapezoidal fixing block (312), and the multiple trapezoidal fixing blocks (312) are threadedly fixed to the collecting head (313). The collecting head (313) passes through the interior of the trapezoidal fixing block (312) and is rotatably connected to the collecting tube (315). The multiple collecting tubes (315) pass through the top of the connecting frame (316) and communicate with each other inside the buffer horizontal tube (317).

6. The copper shavings collection device for electrode cap grinding according to claim 2, characterized in that: The top of the connecting bracket (316) contacts the bottom of the buffer horizontal tube (317), the buffer horizontal tube (317) is threadedly fixed to the two connecting tubes (318), and the two connecting tubes (318) are rotatably connected to the two collecting hoses (322).

7. The copper shavings collection device for electrode cap grinding according to claim 2, characterized in that: Both positioning blocks (320) and guide plates (321) are rotatably connected to the connecting pipe (318) and the collecting hose (322), and the ends of the two collecting hoses (322) away from the connecting pipe (318) are rotatably connected to a second collecting box (307).