An oil removal mechanism for processing copper strips
By designing a cleaning chamber, a washing chamber, and a drying chamber for the degreasing mechanism, and using cleaning nozzles and washing nozzles to spray cleaning agent and clean water, combined with the treatment of rolling rollers and sponge blocks, the problem of grease residue on the surface of copper strips is solved, achieving efficient cleaning and drying of copper strips and ensuring the quality of subsequent processing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU KANGXIN NEW MATERIALS CO LTD
- Filing Date
- 2025-05-30
- Publication Date
- 2026-06-30
AI Technical Summary
During copper strip processing, existing technologies struggle to effectively remove surface grease residue, affecting the quality of subsequent processing steps.
Design an oil removal mechanism comprising a cleaning chamber, a washing chamber, and a drying chamber. Cleaning agent and water are sprayed through cleaning nozzles and washing nozzles respectively, combined with rolling rollers and sponge blocks for cleaning and drying, ensuring that there is no grease residue on the surface and bottom of the copper strip.
It effectively removes grease residue from the surface and bottom of the copper strip, preventing oxidation, discoloration and corrosion, and ensuring the quality of subsequent processing.
Smart Images

Figure CN224430732U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of degreasing technology for copper strip processing, specifically a degreasing mechanism for processing copper strips. Background Technology
[0002] Copper strip is a long, thin sheet material made of copper or copper alloys. It has good electrical and thermal conductivity, corrosion resistance, and machinability, and is widely used in electrical, electronic, construction, and transportation industries. During the production of copper strip, in order to reduce friction between the copper material and the rolls and improve rolling efficiency and product quality, a layer of lubricating oil or rolling oil is usually applied to the surface of the copper billet before rolling. These greases help protect the material surface from scratches and ensure uniform thickness and flatness. Removing the surface grease is a very important step in the processing of copper strip to ensure the quality of subsequent processing, such as welding, electroplating, or coating. Therefore, it is necessary to design an oil removal mechanism for processing copper strip to avoid grease residue on the surface of the copper strip. Utility Model Content
[0003] The technical problem to be solved by this utility model is to provide an oil removal mechanism for processing copper strips. The oil removal component can spray cleaning agent onto the surface and bottom of the copper strip to clean the grease, avoiding grease residue on the surface of the copper strip, thus ensuring the quality of subsequent processing of the copper strip. The cleaning component can clean the surface and bottom of the copper strip, removing the residual cleaning agent solution and preventing the cleaning agent solution from adhering to the copper strip, thus avoiding oxidation, discoloration or even corrosion of the copper strip surface.
[0004] The technical problem to be solved by this utility model is achieved by the following technical solution:
[0005] An oil removal mechanism for processing copper strips includes: an oil removal device; four partitions installed inside the oil removal device, dividing the interior of the oil removal device into three chambers, from left to right: a cleaning chamber, a washing chamber, and a drying chamber; openings on both sides of the outer end of the oil removal device and on the outer sides of the four partitions; an oil removal assembly disposed inside the oil removal device, the oil removal assembly including: a liquid storage tank, a liquid pump, a liquid suction pipe, a diversion pipe a, a liquid delivery pipe, and a cleaning nozzle; and a washing assembly disposed inside the oil removal device, the washing assembly including: a water storage tank, a water pump, a water suction pipe, a diversion pipe b, a water delivery pipe, and a washing nozzle.
[0006] Preferably, the degreasing device is equipped with a liquid storage tank at the top and bottom, a liquid pump is installed at the top and bottom of the cleaning chamber, a liquid pump is installed between the liquid pump and the liquid storage tank, a diversion pipe a is installed at the top and bottom of the cleaning chamber, a delivery pipe is installed between the diversion pipe a and the liquid pump, and three cleaning nozzles are installed on the diversion pipe a.
[0007] Preferably, the degreasing equipment is equipped with a water storage tank at the top and bottom, and a water pump is installed at the top and bottom of the cleaning chamber. A water pump is installed between the water pump and the water storage tank. A diversion pipe b is installed at the top and bottom of the cleaning chamber. A water supply pipe is installed between the diversion pipe b and the water pump. Three cleaning nozzles are installed on each diversion pipe b.
[0008] Preferably, the cleaning chamber, washing chamber and drying chamber are each equipped with multiple rolling rollers. The top of the multiple rolling rollers is on the same horizontal line as the bottom of the inlet. Rotating shafts are installed on both sides of the outer ends of the multiple rolling rollers. The rotating shafts are rotatably connected to the two sides inside the degreasing device through bearings.
[0009] Preferably, two mounting rods are installed on the inner side of the partition, and a scraper is installed on each of the two mounting rods. The scraper is located inside the cleaning chamber on one side.
[0010] Preferably, two fixing rods are installed on the inner side of the partition, and a sponge cleaning block is installed on each of the two fixing rods. The sponge cleaning block is located on one side inside the drying chamber, and a hot air blower is installed at the top and bottom of the drying chamber.
[0011] Preferably, a waste discharge pipe is installed at the bottom of both the cleaning chamber and the washing chamber, and a control box is installed on the outside of the degreasing equipment.
[0012] Compared with existing technologies, the beneficial effects of this utility model are:
[0013] (1) The cleaning agent is sprayed onto the surface and bottom of the copper strip by using a liquid storage tank, liquid pump, liquid extraction pipe, diversion pipe a, liquid delivery pipe and cleaning nozzle to clean the grease and avoid grease residue on the surface of the copper strip, so as to ensure the quality of subsequent processing of the copper strip.
[0014] (2) The surface and bottom of the copper strip are cleaned by using a water tank, water pump, water pipe, diversion pipe b, water supply pipe and cleaning nozzle together to clean the residual cleaning solution on the surface and bottom of the copper strip, prevent the cleaning solution from adhering to the copper strip, and avoid oxidation, discoloration or even corrosion of the copper strip surface. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model.
[0016] Figure 2 This is a schematic cross-sectional view of the present invention.
[0017] Figure 3 This is a cross-sectional schematic diagram of the degreasing equipment of this utility model.
[0018] Figure 4For the present utility model Figure 2 Enlarged diagram of point A in the middle.
[0019] Figure 5 This is a schematic diagram of the degreasing equipment of this utility model.
[0020] Figures 1-5 Components: 1. Degreasing equipment; 101. Partition plate; 102. Through-hole; 103. Rolling roller; 104. Rotating shaft; 2. Liquid storage tank; 201. Liquid pump; 202. Liquid suction pipe; 203. Diverter pipe a; 204. Liquid delivery pipe; 205. Cleaning nozzle; 3. Water storage tank; 301. Water pump; 302. Water suction pipe; 303. Diverter pipe b; 304. Water delivery pipe; 305. Cleaning nozzle; 4. Mounting rod; 401. Scraper; 5. Fixing rod; 501. Sponge cleaning block; 502. Hot air blower; 6. Waste discharge pipe; 7. Control box. Detailed Implementation
[0021] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.
[0022] The present application will now be described in detail with reference to the accompanying drawings and specific embodiments.
[0023] Example
[0024] like Figures 1-5 As shown, a degreasing mechanism for processing copper strips includes: a degreasing device 1; four partitions 101 installed inside the degreasing device 1, which divide the interior of the degreasing device 1 into three chambers, namely a cleaning chamber, a washing chamber, and a drying chamber from left to right; openings 102 on both sides of the outer end of the degreasing device 1 and on the outer side of the four partitions 101; a degreasing assembly installed inside the degreasing device 1, which includes: a liquid storage tank 2, a liquid pump 201, a liquid extraction pipe 202, a diversion pipe a 203, a liquid delivery pipe 204, and a cleaning nozzle 205; and a washing assembly installed inside the degreasing device 1, which includes: a water storage tank 3, a water pump 301, a water extraction pipe 302, a diversion pipe b 303, a water delivery pipe 304, and a washing nozzle 305.
[0025] The cleaning chamber, washing chamber and drying chamber are each equipped with multiple rolling rollers 103. The top of the multiple rolling rollers 103 is on the same horizontal line as the bottom of the opening 102. Rotating shafts 104 are installed on both sides of the outer end of the multiple rolling rollers 103. The rotating shafts 104 are rotatably connected to the two sides of the inside of the degreasing device 1 through bearings.
[0026] When the degreasing equipment 1 is in use, it is installed between the copper strip production line and the winding equipment. After the copper strip rolling production line is completed, the copper strip is introduced from the port 102 on one side of the outer end of the degreasing equipment 1, so that the copper strip passes through the port 102 on the outside of the four partitions 101 in sequence, and then is led out from the port 102 on the other side of the outer end of the degreasing equipment 1 to the winding equipment. That is, the copper strip can pass through the cleaning chamber, the washing chamber and the drying chamber in sequence. Since the top of the multiple rolling rollers 103 is set on the same horizontal line as the bottom of the port 102, the multiple rolling rollers 103 can support the copper strip and prevent the copper strip from sinking. Thus, the copper strip can be degreased, cleaned and dried in sequence. Then, the degreased copper strip is wound up and placed by the winding equipment.
[0027] The degreasing device 1 is equipped with a liquid storage tank 2 at the top and bottom. The cleaning chamber is equipped with a liquid pump 201 at the top and bottom. A liquid pump 202 is installed between the liquid pump 201 and the liquid storage tank 2. A diversion pipe a203 is installed at the top and bottom of the cleaning chamber. A delivery pipe 204 is installed between the diversion pipe a203 and the liquid pump 201. Three cleaning nozzles 205 are installed on each diversion pipe a203.
[0028] When the copper strip enters the cleaning chamber, the cleaning nozzles 205 on the diversion pipe a203 are symmetrically arranged, that is, the cleaning nozzles 205 on the diversion pipe a203 face the surface and bottom of the copper strip respectively. When the liquid tank 2 is in use, the liquid tank 2 contains a chemical solution for removing grease (such as alkaline cleaning agent). The user can start the liquid pump 201 to work, and the liquid extraction pipe 202 will extract the cleaning agent from the liquid tank 2. The cleaning agent will be discharged into the diversion pipe a203 through the liquid pump 201 and the liquid delivery pipe 204. The cleaning agent will be diverted from the diversion pipe a203 to the cleaning nozzles 205 and sprayed out. The cleaning nozzles 205 will spray the cleaning agent onto the surface and bottom of the copper strip to clean the grease, avoid grease residue on the surface of the copper strip, and ensure the quality of the subsequent processing of the copper strip.
[0029] The degreasing equipment 1 is equipped with a water storage tank 3 at the top and bottom. A water pump 301 is installed at the top and bottom of the cleaning chamber. A water pump 302 is installed between the water pump 301 and the water storage tank 3. A diversion pipe b303 is installed at the top and bottom of the cleaning chamber. A water delivery pipe 304 is installed between the diversion pipe b303 and the water pump 301. Three cleaning nozzles 305 are installed on each diversion pipe b303.
[0030] After cleaning the grease from the surface and bottom of the copper strip inside the cleaning chamber, cleaning solution will remain on the surface and bottom of the copper strip. When the copper strip passes through the cleaning chamber, the cleaning nozzles 305 on the diversion pipe b303 are symmetrically arranged, that is, the cleaning nozzles 305 on the diversion pipe b303 face the surface and bottom of the copper strip respectively. When the water tank 3 is in use, the water tank 3 contains clean water. The user can start the water pump 301 to work, and the water pumping pipe 302 will draw out the clean water from the water tank 3. The water will be discharged into the diversion pipe b303 through the water pump 301 and the water delivery pipe 304. The clean water will be distributed from the diversion pipe b303 to the cleaning nozzles 305 and sprayed out. The cleaning nozzles 305 will spray clean water onto the surface and bottom of the copper strip to clean it, and clean the cleaning solution remaining on the surface and bottom of the copper strip. This will prevent the cleaning solution from adhering to the copper strip and avoid oxidation, discoloration or even corrosion of the copper strip surface.
[0031] After the cleaning agent and clean water inside the liquid storage tank 2 and water storage tank 3 are used up, the top of the liquid storage tank 2 and water storage tank 3 are equipped with filling pipes. The cleaning agent and clean water can be added into the liquid storage tank 2 and water storage tank 3 respectively through the filling pipes for storage and later use. During the filling process, the liquid level can be viewed through the observation window on the outside of the liquid storage tank 2 and water storage tank 3 to avoid overflow from the filling pipe.
[0032] Two mounting rods 4 are installed inside the partition 101, and scrapers 401 are installed on both mounting rods 4. The scrapers 401 are located inside the cleaning chamber. When the copper strip is cleaned inside the cleaning chamber, it will enter the drying chamber. At this time, the two scrapers 401 are in contact with the surface and bottom of the copper strip. The scrapers 401 can remove the water droplets on the surface and bottom of the copper strip. The removed water droplets will fall into the cleaning chamber.
[0033] Two fixing rods 5 are installed inside the partition 101, and a sponge cleaning block 501 is installed on each of the two fixing rods 5. The sponge cleaning block 501 is located inside the drying chamber. Hot air blowers 502 are installed at the top and bottom of the drying chamber. After the water droplets on the surface and bottom of the copper strip are scraped clean, the copper strip passes between the two sponge cleaning blocks 501. The two sponge cleaning blocks 501 contact the surface and bottom of the copper strip. The scraper 401 wipes the water off the surface and bottom of the copper strip. Then, when it passes the hot air blowers 502, the two hot air blowers 502 blow hot air toward the surface and bottom of the copper strip respectively, using the hot air to dry the water on the surface and accelerate the drying speed of the surface and bottom of the copper strip.
[0034] Both the cleaning chamber and the washing chamber are equipped with waste discharge pipes 6 at their bottom ends. The degreasing equipment 1 is equipped with a control box 7 on its outside. When cleaning the surface and bottom of the copper strip to remove grease and residual cleaning agent solution inside the cleaning chamber and the washing chamber, the waste liquid generated falls into the cleaning chamber and the washing chamber respectively. The waste discharge pipe 6 is connected to the sewage trough in the production workshop. The sewage trough is connected to the sewage pool. The waste liquid generated during cleaning can be discharged into the sewage trough through the waste discharge pipe 6 and then flow into the sewage pool for collection and purification.
[0035] The control box 7 is equipped with a display screen and multiple control buttons. The liquid pump 201, water pump 301 and hot air blower 502 are electrically connected to the control box 7. The multiple control buttons on the control box 7 can control the start and stop of the liquid pump 201, water pump 301 and hot air blower 502 respectively. The power of the degreasing device 1 in this application is provided by an external power source. The control program involved in this utility model can be implemented by those skilled in the art based on the same or similar principles in the prior art. This part is not the innovation of this utility model.
[0036] Working principle:
[0037] When the degreasing equipment 1 is in use, it is installed between the copper strip production line and the winding equipment. After the copper strip rolling production line is completed, the copper strip is introduced from the port 102 on one side of the outer end of the degreasing equipment 1, so that the copper strip passes through the port 102 on the outside of the four partitions 101 in sequence, and then is led out from the port 102 on the other side of the outer end of the degreasing equipment 1 to the winding equipment. That is, the copper strip can pass through the cleaning chamber, the washing chamber and the drying chamber in sequence. Since the top of the multiple rolling rollers 103 is set on the same horizontal line as the bottom of the port 102, the multiple rolling rollers 103 can support the copper strip and prevent the copper strip from sinking.
[0038] When the copper strip enters the cleaning chamber, the cleaning nozzles 205 on the diversion pipe a203 are symmetrically arranged, that is, the cleaning nozzles 205 on the diversion pipe a203 face the surface and bottom of the copper strip respectively. When the liquid tank 2 is in use, the liquid tank 2 contains a chemical solution for removing grease (such as alkaline cleaning agent). The user can start the liquid pump 201 to work, and the liquid extraction pipe 202 will extract the cleaning agent from the liquid tank 2. The cleaning agent will be discharged into the diversion pipe a203 through the liquid pump 201 and the liquid delivery pipe 204. The cleaning agent will be diverted from the diversion pipe a203 to the cleaning nozzles 205 and sprayed out. The cleaning nozzles 205 will spray the cleaning agent onto the surface and bottom of the copper strip to clean the grease, avoid grease residue on the surface of the copper strip, and ensure the quality of the subsequent processing of the copper strip.
[0039] After cleaning the grease from the surface and bottom of the copper strip inside the cleaning chamber, cleaning solution will remain on the surface and bottom of the copper strip. When the copper strip passes through the cleaning chamber, the cleaning nozzles 305 on the diversion pipe b303 are symmetrically arranged, that is, the cleaning nozzles 305 on the diversion pipe b303 face the surface and bottom of the copper strip respectively. When the water tank 3 is in use, the water tank 3 contains clean water. The user can start the water pump 301 to work, and the water pumping pipe 302 will draw out the clean water from the water tank 3. The water will be discharged into the diversion pipe b303 through the water pump 301 and the water delivery pipe 304. The clean water will be distributed from the diversion pipe b303 to the cleaning nozzles 305 and sprayed out. The cleaning nozzles 305 will spray clean water onto the surface and bottom of the copper strip to clean it, and clean the cleaning solution remaining on the surface and bottom of the copper strip. This will prevent the cleaning solution from adhering to the copper strip and avoid oxidation, discoloration or even corrosion of the copper strip surface.
[0040] In the above embodiments, the descriptions of each embodiment have different focuses. For parts not described in detail in a certain embodiment, please refer to the relevant descriptions in other embodiments.
[0041] The above provides a detailed description of a degreasing mechanism for processing copper strips provided in the embodiments of this application. Specific examples have been used to illustrate the principles and implementation methods of this application. The description of the above embodiments is only for the purpose of helping to understand the technical solutions and core ideas of this application. Those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. These modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A degreasing mechanism for processing copper strips, characterized in that, include: Degreasing equipment (1); Four partitions (101) installed inside the degreasing device (1) divide the interior of the degreasing device (1) into three chambers, from left to right: cleaning chamber, washing chamber and drying chamber. The openings (102) are located on both sides of the outer end of the degreasing device (1) and on the outside of the four partitions (101); The degreasing assembly is installed inside the degreasing device (1), and the degreasing assembly includes: a liquid storage tank (2), a liquid pump (201), a liquid extraction pipe (202), a diversion pipe a (203), a liquid delivery pipe (204), and a cleaning nozzle (205); The cleaning assembly located inside the degreasing device (1) includes: a water tank (3), a water pump (301), a water pumping pipe (302), a diversion pipe b (303), a water delivery pipe (304), and a cleaning nozzle (305).
2. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, The degreasing device (1) is equipped with a liquid storage tank (2) at the top and bottom. The cleaning chamber is equipped with a liquid pump (201) at the top and bottom. A liquid pump (202) is installed between the liquid pump (201) and the liquid storage tank (2). A diversion pipe a (203) is installed at the top and bottom of the cleaning chamber. A delivery pipe (204) is installed between the diversion pipe a (203) and the liquid pump (201). Three cleaning nozzles (205) are installed on the diversion pipe a (203).
3. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, The degreasing device (1) is equipped with a water storage tank (3) at the top and bottom. A water pump (301) is installed at the top and bottom of the cleaning chamber. A water pump (302) is installed between the water pump (301) and the water storage tank (3). A diversion pipe (303) is installed at the top and bottom of the cleaning chamber. A water delivery pipe (304) is installed between the diversion pipe (303) and the water pump (301). Three cleaning nozzles (305) are installed on the diversion pipe (303).
4. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, The cleaning chamber, washing chamber and drying chamber are each equipped with multiple rolling rollers (103). The top of the multiple rolling rollers (103) is on the same horizontal line as the bottom of the inlet (102). Rotating shafts (104) are installed on both sides of the outer ends of the multiple rolling rollers (103). The rotating shafts (104) are rotatably connected to both sides of the inside of the degreasing device (1) through bearings.
5. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, Two mounting rods (4) are installed on the inner side of the partition (101), and a scraper (401) is installed on each of the two mounting rods (4). The scraper (401) is located on one side inside the cleaning chamber.
6. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, Two fixing rods (5) are installed on the inner side of the partition (101), and a sponge cleaning block (501) is installed on each of the two fixing rods (5). The sponge cleaning block (501) is located on one side inside the drying chamber. A hot air blower (502) is installed at the top and bottom of the drying chamber.
7. The degreasing mechanism for processing copper strips according to claim 1, characterized in that, Waste discharge pipes (6) are installed at the bottom of both the cleaning chamber and the washing chamber, and a control box (7) is installed on the outside of the degreasing device (1).