A winding and rolling device with detection function for diamond wire production
By introducing a cleaning and decontamination mechanism and a detection device into the diamond wire winding device, the problems of contaminant adhesion and coating detection during the winding process are solved, thereby improving the service life and production quality of the diamond wire.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- 江苏中畅精密科技有限公司
- Filing Date
- 2024-06-07
- Publication Date
- 2026-06-19
AI Technical Summary
Existing winding equipment cannot effectively clean diamond wire during winding, resulting in surface contaminants adhering to the surface, reducing service life, and failing to detect the coating on the diamond wire surface, affecting production quality.
A winding and rewinding device with a cleaning and decontamination mechanism and a detection device was designed, including a cleaning frame, a conveying assembly, a magnetic block, a detector, etc., for cleaning contaminants on the surface of diamond wire and detecting the coating quality.
It effectively cleans contaminants from the surface of diamond wire, prevents damage to the coating, and improves the service life and production quality of diamond wire.
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Figure CN118637428B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the technical field of diamond wire production equipment, specifically a winding and rewinding device for diamond wire production with detection function. Background Technology
[0002] Diamond wire is short for diamond cutting wire, also known as diamond cutting wire or diamond thread. In industry, many things are cut using cutting wire. The advantage of diamond wire is that it allows for high-speed cutting, and its high cutting efficiency makes it widely used. After production, diamond wire needs to be wound and coiled for transportation.
[0003] A search revealed that a typical example of a pre-existing winding device is disclosed in CN208182334U, which describes a diamond wire winding device. This device includes a sliding assembly and a winding assembly slidably mounted on the sliding assembly. The sliding assembly has a fixed base, and the fixed base has a slide rail. The winding assembly has a winding roller, and a slider assembly is located at the bottom of the winding assembly. The slider assembly is slidably mounted on and secured to the slide rail. The fixed base has a drive motor for driving the winding assembly to reciprocate. The drive motor is located on the side of the fixed base away from the winding roller and is connected to the winding assembly via a lead screw. This diamond wire winding device utilizes an eccentrically positioned slider on the winding assembly. Due to the gravity of the winding roller, the eccentrically positioned slider can securely engage with the slide rail, thus mitigating the problem of the winding assembly's center of gravity being off-center and difficult to fix due to the gravity of the winding roller.
[0004] Existing winding equipment cannot clean diamond wire during winding, resulting in a significant amount of contaminants adhering to the surface of the diamond wire, greatly reducing its service life. Secondly, during the winding process, the nickel plating on the outer side of the diamond wire is subjected to pressure and friction, which may cause cracking, peeling, and flaking, leading to loss of cutting ability and wire breakage. Existing winding equipment cannot inspect the plating on the surface of the diamond wire during the winding process, resulting in a shortened service life and reduced diamond wire production quality after winding. To address these issues, improvements to the existing equipment are necessary. Summary of the Invention
[0005] The purpose of this invention is to provide a winding and rewinding device for diamond wire production with a detection function, in order to solve the problems mentioned in the background art. Existing winding devices cannot clean diamond wire during winding, resulting in a large amount of contaminants adhering to the surface of the diamond wire, which greatly reduces its service life. Furthermore, existing winding devices cannot detect the coating on the surface of the diamond wire during the winding process, which leads to a shortened service life and reduced diamond wire production quality after winding.
[0006] To achieve the above objectives, the present invention provides the following technical solution: a winding and rewinding device for diamond wire production with detection function, comprising a frame platform,
[0007] A first vertical plate is installed on one side of the upper part of the frame platform, and first wire feeding assemblies are symmetrically installed on both sides of the front of the first vertical plate. At the same time, a first detection device is installed directly above the top of the first wire feeding assembly on one side. A cleaning and decontamination mechanism is installed on the front of the first vertical plate between the two first wire feeding assemblies for cleaning the surface stains of the diamond wire. The cleaning and decontamination mechanism includes a fixed base and a cleaning frame. The fixed base is welded to the first vertical plate, and the two sides of the fixed base are connected to the upper end of the cleaning frame by fixing bolts. At the same time, a cleaning component is installed inside the cleaning frame. A drain channel is opened in the middle of the lower end of the cleaning frame, and a guide plate is inclinedly installed on the outer side of the lower end of the drain channel.
[0008] A second vertical plate is installed on the other side of the upper end of the frame platform, and one side of the second vertical plate is connected to the first vertical plate through a connecting baffle. At the same time, a guide mechanism is provided on the front side of the connecting baffle to guide the diamond wire. A second detection device is provided on the side of the second vertical plate near the guide mechanism, and a second wire feeding assembly is provided directly below the second detection device. Meanwhile, a mounting plate is provided in front of the other side of the second vertical plate, and a winding mechanism is provided between the other side of the second vertical plate and the mounting plate.
[0009] Preferably, a drain hole is provided on the upper side of the frame platform below the cleaning and decontamination mechanism, and a discharge base plate is provided above the drain hole near the guide mechanism. The discharge base plate is connected to the first vertical plate in the middle by a fixed crossbar. A weight block and a spring are respectively provided on both sides of the lower end of the discharge base plate, and the bottom of the weight block and the spring are respectively connected to the top of the support column installed on the upper end of the frame platform and the upper end of the frame platform.
[0010] Preferably, the first wire feeding assembly and the second wire feeding assembly have the same structure, and the first wire feeding assembly and the second wire feeding assembly include a fixed bracket and a wire feeding roller, while the upper ends of the fixed bracket are symmetrically rotatably connected to the wire feeding rollers.
[0011] Preferably, the first detection device and the second detection device have the same structure, and the first detection device and the second detection device include a locking base and an X-ray detector, and the X-ray detector is locked to the bottom of the lower end of the locking base.
[0012] Preferably, the cleaning assembly further includes a first conveying assembly, a drive motor, a second conveying assembly, a connecting belt, an upper magnetic block, and a lower magnetic block. The first and second conveying assemblies have the same structure, and each includes a conveyor belt, a drive wheel, and a secondary drive wheel. The drive wheel and the secondary drive wheel are connected by the conveyor belt. The first conveying assembly is installed inside the upper part of the cleaning frame, and the drive wheel on one side of the first conveying assembly is connected to the output end of the drive motor. The output end of the drive motor is connected to the drive wheel on one side of the second conveying assembly via the connecting belt. The conveyor belts in the first and second conveying assemblies are respectively provided with an upper magnetic block and a lower magnetic block on opposite sides. The length of the first conveying assembly is longer than the length of the second conveying assembly, and one side of the second conveying assembly is located above the middle of the drain channel.
[0013] Preferably, the guiding mechanism includes a supporting base, a placement seat is mounted on the top of the supporting base, and an electric linear guide rail is mounted in the middle of the upper end of the placement seat. The top of the electric linear guide rail is connected to the middle of the lower end of the movable base. Slider blocks are symmetrically arranged on both sides of the lower end of the movable base, and the sliders are slidably connected to the sliding rods arranged inside the upper side of the placement seat. An electric telescopic rod is arranged in the middle of the upper end of the movable base. The output end of the electric telescopic rod is connected to a guiding assembly through a mounting top seat. The guiding assembly includes a guide cylinder and a guide roller, and the guide rollers are symmetrically rotatably connected to both sides inside the guide cylinder.
[0014] Preferably, three guide components are provided, with the bottom of the middle guide component connected to the upper end of the mounting top, and the other two guide components are symmetrically arranged about the middle guide component. The other two guide components are installed on the upper end of the movable horizontal plate. The opposite sides of the two movable horizontal plates are connected to the side of the mounting top through connecting rods. The front and back of the two movable horizontal plates are connected to gears installed on the inner side of the corresponding fixed plate through racks. The fixed plate is installed on the upper side of the movable base.
[0015] Preferably, the winding mechanism includes a winding drum. One side of the winding drum is engaged with a locking groove inside the mounting plate. The mounting plate has multiple fixing components equidistantly arranged outside the locking groove. The other side of the mounting plate passes through a second vertical plate and is connected to the output end of a rotary motor. The other side of the winding drum is engaged with one end of a connecting rod. A pressure plate is provided on the side of the connecting rod near the winding drum. The other end of the connecting rod passes through the mounting plate and the bearing seat and extends to the outside of the bearing seat. A bearing is provided between the connecting rod and the bearing seat. The inner ring of the bearing is engaged with the outer diameter of the connecting rod. The outer side of the bearing seat is connected to the output ends of electric push rods equidistantly arranged. Each electric push rod is connected to the mounting plate through a mounting bracket.
[0016] Preferably, the fixing component includes a limiting seat, a rotating plate, and a plug-in block. The rotating plate is rotatably connected inside the limiting seat, and the plug-in block is installed inside the other side of the rotating plate. At the same time, the plug-in block passes through a round hole on the winding drum and engages with a fixing hole on the mounting plate.
[0017] Compared with the prior art, the beneficial effects of the present invention are: the winding and take-up device for diamond wire production with detection function,
[0018] (1) In order to solve the problem that the existing winding device cannot clean the diamond wire when winding it, resulting in a lot of contaminants adhering to the surface of the diamond wire and greatly reducing its service life, this application is equipped with a cleaning and decontamination mechanism, a discharge base plate, a fixed crossbar, a weight block, a support column and a spring. The cleaning and decontamination mechanism can easily clean the dust adhering to the surface of the diamond wire, and can also clean the magnetic debris adhering to the surface of the diamond wire, further improving the cleaning effect. With the discharge base plate, fixed crossbar, weight block, support column and spring used together, it is easy to guide and discharge the cleaned debris and dust, improving the practicality of use.
[0019] (2) In order to solve the problem that the existing winding device cannot detect the coating on the surface of the diamond wire during the winding process, which leads to a shortened service life and reduced production quality of the diamond wire after winding, this application is equipped with a first detection device and a second detection device. The first detection device facilitates the detection of the surface of the cleaned diamond wire to prevent damage to the coating on the surface of the diamond wire caused by cleaning, which would affect the use effect of the diamond wire. The second detection device further detects the diamond wire after the guide and conveyor, ensuring that the quality of the wound diamond wire meets the standards and improving its practicality. Attached Figure Description
[0020] Figure 1 This is a front view structural diagram of the present invention;
[0021] Figure 2 This is a frontal cross-sectional view of the present invention;
[0022] Figure 3 This is a front view cross-sectional structural diagram of the cleaning and decontamination mechanism of the present invention;
[0023] Figure 4 This is a front view structural diagram of the cleaning and decontamination mechanism of the present invention;
[0024] Figure 5 This is a front view cross-sectional structural diagram of the guiding mechanism of the present invention;
[0025] Figure 6 For the present invention Figure 5 Enlarged structural diagram at point A in the middle;
[0026] Figure 7 This is a front view structural diagram of the guiding mechanism of the present invention;
[0027] Figure 8 This is a side view of the winding mechanism of the present invention.
[0028] In the diagram: 1. Frame platform; 101. Drainage hole; 2. First vertical plate; 3. First wire feeding assembly; 4. First detection device; 5. Cleaning and decontamination mechanism; 501. Fixed seat; 5011. Fixing bolt; 502. Cleaning frame; 5021. Drainage channel; 503. First conveying assembly; 5031. Drive motor; 504. Second conveying assembly; 505. Connecting belt; 506. Upper magnetic block; 507. Lower magnetic block; 508. Guide plate; 6. Discharge base plate; 7. Fixed crossbar; 8. Weight block; 9. Support column; 10. Spring; 11. Connecting baffle; 12. Second vertical plate; 13. Guide mechanism; 1301. Support base frame; 1302. Placement seat; 1 303. Electric linear guide; 1304. Movable base; 1305. Slider; 1306. Slide rod; 1307. Electric telescopic rod; 1308. Mounting top seat; 1309. Guide assembly; 1310. Connecting rod; 1311. Movable cross plate; 1312. Rack; 1313. Gear; 1314. Fixing plate; 14. Second detection device; 15. Second wire feeding assembly; 16. Mounting plate; 17. Winding mechanism; 1701. Winding drum; 1702. Mounting plate; 1703. Fixing assembly; 1704. Rotary motor; 1705. Connecting rod; 1706. Pressure plate; 1707. Bearing seat; 1708. Mounting bracket; 1709. Electric push rod. Detailed Implementation
[0029] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0030] Please see Figure 1-8 This invention provides a technical solution: a winding and rewinding device for diamond wire production with detection function, based on... Figure 1 and Figure 2As shown, a first vertical plate 2 is installed on one side of the upper end of the frame platform 1, and a first wire feeding assembly 3 is symmetrically installed on both sides of the front of the first vertical plate 2. The first wire feeding assembly 3 and the second wire feeding assembly 15 have the same structure, and the first wire feeding assembly 3 and the second wire feeding assembly 15 include a fixed bracket and a wire feeding roller. At the same time, the wire feeding rollers are symmetrically rotatably connected to both sides of the upper end of the fixed bracket. Meanwhile, a first detection device 4 is installed directly above the top of the first wire feeding assembly 3 on one side. The first detection device 4 and the second detection device 14 have the same structure, and the first detection device 4 and the second detection device 14 include a locking base and an X-ray detector. At the same time, the X-ray detector is locked and connected to the bottom of the locking base. The X-ray detector is existing technology. The surface of the diamond wire is detected multiple times by the first detection device 4 and the second detection device 14, thereby improving the accuracy of the detection results. A drain hole 101 is provided on the upper end of the frame platform 1, below the cleaning and decontamination mechanism 5. A discharge base plate 6 is provided above the drain hole 101, near the guide mechanism 13. The middle of the discharge base plate 6 is connected to the first vertical plate 2 through a fixed crossbar 7. A weight block 8 and a spring 10 are respectively provided on both sides of the lower end of the discharge base plate 6. The bottom of the weight block 8 and the spring 10 are respectively connected to the top of the support column 9 installed on the upper end of the frame platform 1 and the upper end of the frame platform 1, so as to facilitate the guidance and discharge of the cleaned dust and debris.
[0031] according to Figure 1 , Figure 2 , Figure 3 and Figure 4 As shown, a cleaning and decontamination mechanism 5 is installed on the front of the first vertical plate 2 between the two first wire feeding assemblies 3. This mechanism is used to clean the dirt on the surface of the diamond wire. The cleaning and decontamination mechanism 5 includes a fixed base 501 and a cleaning frame 502. The fixed base 501 is welded to the first vertical plate 2, and the two sides of the fixed base 501 are connected to the upper end of the cleaning frame 502 by fixing bolts 5011, which facilitates the installation of the cleaning frame 502. At the same time, a cleaning component is provided inside the cleaning frame 502. A drain channel 5021 is opened in the middle of the lower end of the cleaning frame 502, and a guide plate 508 is inclinedly provided on the outer side of the lower end of the drain channel 5021 to improve the accuracy of dust and impurity discharge.
[0032] Further explanation: The cleaning assembly also includes a first conveying assembly 503, a drive motor 5031, a second conveying assembly 504, a connecting belt 505, an upper magnetic block 506, and a lower magnetic block 507. The first conveying assembly 503 and the second conveying assembly 504 have the same structure, and both include a conveyor belt, a drive wheel, and a secondary drive wheel. The drive wheel and the secondary drive wheel are connected by the conveyor belt. A cleaning cotton sleeve is fitted on the outside of the conveyor belt to facilitate cleaning dust from the surface of the diamond wire. The first conveying assembly 503 is installed inside the upper part of the cleaning frame 502, and a [missing information - likely a design feature] is provided on one side of the first conveying assembly 503. The drive wheel is connected to the output end of the drive motor 5031. At the same time, the output end of the drive motor 5031 is connected to the drive wheel on one side of the second conveying assembly 504 through the connecting belt 505. The conveyor belts in the first conveying assembly 503 and the second conveying assembly 504 are respectively provided with an upper magnetic block 506 and a lower magnetic block 507 on opposite sides. The upper magnetic block 506 and the lower magnetic block 507 facilitate the adsorption and cleaning of debris adhering to the surface of the diamond wire. The length of the first conveying assembly 503 is longer than the length of the second conveying assembly 504. Meanwhile, one side of the second conveying assembly 504 is located above the middle of the sewage discharge channel 5021.
[0033] In use, the first conveying component 530 is driven to rotate by the drive motor 5031, and the second conveying component 504 is also rotated simultaneously by the connecting belt 505. This facilitates the cleaning cotton sleeve on the conveyor belt to clean the dust on the surface of the diamond wire. The waste adsorbed on the surface of the diamond wire is attracted to the inner side of the cleaning cotton sleeve by the magnetic force of the upper magnetic block 506 and the lower magnetic block 507. When the conveyor drives the wire to a side away from the upper magnetic block 506 and the lower magnetic block 507, the waste falls under the action of gravity and is guided and discharged through the sewage discharge channel 5021 and the guide plate 508.
[0034] according to Figure 1 , Figure 2 , Figure 5 , Figure 6 and Figure 7 As shown, a second vertical plate 12 is installed on the other side of the upper end of the frame platform 1, and one side of the second vertical plate 12 is connected to the first vertical plate 2 through a connecting baffle 11. At the same time, a guide mechanism 13 is provided on the front side of the connecting baffle 11 to guide the diamond wire.
[0035] Specifically, the guiding mechanism 13 includes a support base 1301, a placement seat 1302 is mounted on the top of the support base 1301, and an electric linear guide rail 1303 is mounted in the middle of the upper end of the placement seat 1302. The top of the electric linear guide rail 1303 is connected to the middle of the lower end of the movable base 1304, which facilitates the adjustment of the position of the movable base 1304, thereby improving the flatness of the winding. Slider blocks 1305 are symmetrically arranged on both sides of the lower end of the movable base 1304, and the sliders 1305 are slidably connected to the slide rods 1306 arranged inside the upper side of the placement seat 1302, which improves the stability of the movement. At the same time, an electric telescopic rod 1307 is arranged in the middle of the upper end of the movable base 1304. The output end of the electric telescopic rod 1307 is connected to the guiding component 1309 through the mounting top seat 1308, which facilitates the adjustment of the height of the guiding component 1309, thereby adjusting the tension of the diamond wire winding. The guiding component 1309 includes a guide cylinder and a guide roller, and the guide rollers are symmetrically rotatably connected to both sides inside the guide cylinder.
[0036] To further explain, three guide components 1309 are provided. The bottom of the middle guide component 1309 is connected to the upper end of the mounting top 1308. The other two guide components 1309 are symmetrically arranged about the middle guide component 1309. The other two guide components 1309 are installed on the upper end of the movable horizontal plate 1311. The opposite sides of the two movable horizontal plates 1311 are connected to the sides of the mounting top 1308 through connecting rods 1310. The front and back of the two movable horizontal plates 1311 are connected to the gears 1313 installed on the inner side of the corresponding fixed plate 1314 through racks 1312. The fixed plate 1314 is installed on the upper side of the movable base 1304. The connection rods 1310, movable horizontal plates 1311, racks 1312, gears 1313 and fixed plates 1314 are used together to facilitate the adjustment of the height of the other two guide components 1309.
[0037] In use, the electric linear guide 1303 drives the movable base 1304 to move, and the position of the movable base 1304 is adjusted so that the diamond wire wound on the take-up drum 1701 is flat. The electric telescopic rod 1307 drives the mounting top 1308 to rise and fall, which facilitates the adjustment of the height of the guide component 1309 set in the middle. When the mounting top 1308 rises and falls, the connecting rod 1310 drives the movable horizontal plate 1311 and the rack 1312 to move inside the fixed plate 1314, thereby adjusting the height of the other two guide components 1309. The rack 1312 is meshed with the gear 1313 to improve the stability of the lifting.
[0038] according to Figure 1 , Figure 2 and Figure 8As shown, a second detection device 14 is provided on the side of the second vertical plate 12 near the guide mechanism 13, and a second wire feeding assembly 15 is provided directly below the second detection device 14. Meanwhile, a mounting plate 16 is provided in front of the other side of the second vertical plate 12, and a winding mechanism 17 is provided between the other side of the second vertical plate 12 and the mounting plate 16.
[0039] Specifically, the winding mechanism 17 includes a winding drum 1701. One side of the winding drum 1701 engages with a locking groove inside the mounting plate 1702. Multiple fixing components 1703 are equidistantly arranged outside the locking groove on the mounting plate 1702 to improve the stability of the winding drum 1701. Each fixing component 1703 includes a limiting seat, a rotating plate, and a plug-in block. The rotating plate is rotatably connected inside the limiting seat, and a plug-in block is installed inside the other side of the rotating plate. The plug-in block passes through a circular hole on the winding drum 1701 and engages with a fixing hole on the mounting plate 1702. Simultaneously, the other side of the mounting plate 1702 passes through a second vertical plate 12 and connects to the output end of the rotary motor 1704. The other side of the winding drum 1701 engages with one end of a plug-in rod 1705. A pressure plate 1706 is provided on the side of the rod 1705 near the take-up drum 1701 to limit the other side of the take-up drum 1701. At the same time, the other end of the plug rod 1705 passes through the mounting plate 16 and the bearing seat 1707 and extends to the outside of the bearing seat 1707. A bearing is provided between the plug rod 1705 and the bearing seat 1707, and the inner ring of the bearing is engaged with the outer diameter of the plug rod 1705. Meanwhile, the outer side of the bearing seat 1707 is connected to the output end of the electric push rods 1709 that are equidistantly arranged. Each electric push rod 1709 is connected to the mounting plate 16 through the mounting bracket 1708. The electric push rod 1709 pushes the bearing seat 1707 to move, so that the plug rod 1705 can be engaged with the inside of the other side of the take-up drum 1701, thereby improving the stability of the take-up drum 1701 during winding.
[0040] In use, one end of the take-up drum 1701 is engaged with the mounting plate 1702. Then, the rotating plate is rotated so that the insert block installed inside the other side of the rotating plate passes through the round hole on the take-up drum 1701 and engages with the fixing hole on the mounting plate 1702. Next, the electric push rod 1709 is activated to push the bearing seat 1707 to move, so that the insert rod 1705 engages with the other side of the take-up drum 1701, while the pressure plate 1706 is pressed against the other side of the outer end of the take-up drum 1701. Then, the operation is started. The rotary motor 1704 drives the mounting plate 1702 to rotate, which in turn drives the take-up drum 1701 to rotate, thereby winding the diamond wire. When it is necessary to disassemble the take-up drum 1701, rotate the rotating plate to separate the plug block from the round hole and the fixing hole. Then, start the electric push rod 1709 to pull the bearing seat 1707 to move, so that the plug rod 1705 separates from the other side of the take-up drum 1701, thereby disassembling the take-up drum 1701. The operation is simple and convenient.
[0041] The terms “center,” “longitudinal,” “lateral,” “front,” “rear,” “left,” “right,” “vertical,” “horizontal,” “top,” “bottom,” “inner,” and “outer,” etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are merely simplified descriptions for the convenience of describing the present invention 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 limiting the scope of protection of the present invention.
[0042] Although the present invention 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 the present invention should be included within the protection scope of the present invention.
Claims
1. A winding and rewinding device for diamond wire production with detection function, comprising a frame platform (1), characterized in that: The frame platform (1) is equipped with a first vertical plate (2) on one side of the upper end, and the first wire feeding assembly (3) is symmetrically installed on both sides of the front of the first vertical plate (2). At the same time, a first detection device (4) is installed directly above the top of the first wire feeding assembly (3) on one side. A cleaning and decontamination mechanism (5) is installed on the front of the first vertical plate (2) between the two first wire feeding assemblies (3) for cleaning the dirt on the surface of the diamond wire. The cleaning and decontamination mechanism (5) includes a fixed seat (501) and a cleaning frame (502). The fixed seat (501) is welded to the first vertical plate (2), and the fixed seat (501) is connected to the upper end of the cleaning frame (502) on both sides by fixing bolts (5011). At the same time, a cleaning component is provided inside the cleaning frame (502). A drain channel (5021) is opened in the middle of the lower end of the cleaning frame (502), and a guide plate (508) is inclinedly arranged on the outer side of the lower end of the drain channel (5021). The cleaning assembly further includes a first conveying assembly (503), a drive motor (5031), a second conveying assembly (504), a connecting belt (505), an upper magnetic block (506), and a lower magnetic block (507). The first conveying assembly (503) and the second conveying assembly (504) have the same structure, and both the first conveying assembly (503) and the second conveying assembly (504) include a conveyor belt, a drive wheel, and a secondary drive wheel. The drive wheel and the secondary drive wheel are connected by the conveyor belt. The first conveying assembly (503) is installed inside the upper part of the cleaning frame (502), and the first conveying assembly (503)... The drive wheel on one side is connected to the output end of the drive motor (5031), and the output end of the drive motor (5031) is connected to the drive wheel on one side of the second conveying assembly (504) via the connecting belt (505). The conveyor belts in the first conveying assembly (503) and the second conveying assembly (504) are respectively provided with an upper magnetic block (506) and a lower magnetic block (507) on opposite sides. The length of the first conveying assembly (503) is longer than the length of the second conveying assembly (504), and the second conveying assembly (504) is located above the middle of the sewage discharge channel (5021). A second vertical plate (12) is installed on the other side of the upper end of the frame platform (1), and one side of the second vertical plate (12) is connected to the first vertical plate (2) through a connecting baffle (11). At the same time, a guide mechanism (13) is provided on the front side of the connecting baffle (11) to guide the diamond wire. A second detection device (14) is provided on the side of the second vertical plate (12) near the guide mechanism (13), and a second wire feeding assembly (15) is provided directly below the second detection device (14). At the same time, a mounting plate (16) is provided in front of the other side of the second vertical plate (12), and a winding mechanism (17) is provided between the other side of the second vertical plate (12) and the mounting plate (16).
2. The winding and rewinding device for diamond wire production with detection function as described in claim 1, characterized in that: The upper end of the frame platform (1) is provided with a drain hole (101) on one side below the cleaning and decontamination mechanism (5), and a discharge base plate (6) is provided on the side of the drain hole (101) near the guide mechanism (13). The middle of the discharge base plate (6) is connected to the first vertical plate (2) through a fixed crossbar (7). The lower ends of the discharge base plate (6) are provided with weight blocks (8) and springs (10) respectively, and the bottoms of the weight blocks (8) and springs (10) are respectively connected to the top of the support column (9) installed on the upper end of the frame platform (1) and the upper end of the frame platform (1).
3. The winding and rewinding device for diamond wire production with detection function as described in claim 1, characterized in that: The first wire feeding assembly (3) and the second wire feeding assembly (15) have the same structure, and the first wire feeding assembly (3) and the second wire feeding assembly (15) include a fixed bracket and a wire feeding roller, and the upper ends of the fixed bracket are symmetrically connected to the wire feeding rollers.
4. The winding and rewinding device for diamond wire production with detection function as described in claim 1, characterized in that: The first detection device (4) and the second detection device (14) have the same structure, and the first detection device (4) and the second detection device (14) include a locking base and an X-ray detector. At the same time, the X-ray detector is locked and connected to the bottom of the lower end of the locking base.
5. The winding and rewinding device for diamond wire production with detection function as described in claim 1, characterized in that: The guiding mechanism (13) includes a support base (1301), a placement seat (1302) is installed on the top of the support base (1301), and an electric linear guide rail (1303) is installed in the middle of the upper end of the placement seat (1302). The top of the electric linear guide rail (1303) is connected to the middle of the lower end of the movable base (1304). Slider blocks (1305) are symmetrically arranged on both sides of the lower end of the movable base (1304), and the sliders (1305) are slidably connected to the slide rods (1306) arranged inside the upper side of the placement seat (1302). At the same time, an electric telescopic rod (1307) is arranged in the middle of the upper end of the movable base (1304). The output end of the electric telescopic rod (1307) is connected to a guiding component (1309) through a mounting top seat (1308). The guiding component (1309) includes a guide cylinder and a guide roller, and the guide rollers are symmetrically rotatably connected on both sides inside the guide cylinder.
6. The winding and rewinding device for diamond wire production with detection function as described in claim 5, characterized in that: Three guide components (1309) are provided. The bottom of the middle guide component (1309) is connected to the upper end of the mounting top (1308). The other two guide components (1309) are symmetrically arranged about the middle guide component (1309). The other two guide components (1309) are installed on the upper end of the movable horizontal plate (1311). The two movable horizontal plates (1311) are connected to the side of the mounting top (1308) respectively through connecting rods (1310) on opposite sides. The front and back of the two movable horizontal plates (1311) are connected to the gears (1313) installed on the inner side of the corresponding fixed plate (1314) through racks (1312). The fixed plate (1314) is installed on the upper side of the movable base (1304).
7. The winding and rewinding device for diamond wire production with detection function as described in claim 1, characterized in that: The winding mechanism (17) includes a winding drum (1701). One side of the winding drum (1701) is engaged with a locking groove inside the mounting plate (1702). The mounting plate (1702) has multiple fixing components (1703) equidistantly arranged outside the locking groove. The other side of the mounting plate (1702) passes through the second vertical plate (12) and is connected to the output end of the rotary motor (1704). The other side of the winding drum (1701) is engaged with one end of a connecting rod (1705), and the connecting rod (1705) is close to the winding drum (1701). A pressure plate (1706) is provided on one side, and the other end of the plug rod (1705) passes through the mounting plate (16) and the bearing seat (1707) and extends to the outside of the bearing seat (1707). A bearing is provided between the plug rod (1705) and the bearing seat (1707), and the inner ring of the bearing is engaged with the outer diameter of the plug rod (1705). At the same time, the outer side of the bearing seat (1707) is connected to the output end of the electric push rod (1709) arranged at equal intervals. Each electric push rod (1709) is connected to the mounting plate (16) through the mounting bracket (1708).
8. The winding and rewinding device for diamond wire production with detection function as described in claim 7, characterized in that: The fixing component (1703) includes a limiting seat, a rotating plate and a plug-in block. The limiting seat is rotatably connected to the rotating plate, and the plug-in block is installed inside the other side of the rotating plate. At the same time, the plug-in block passes through the round hole opened on the winding drum (1701) and engages with the fixing hole opened on the mounting plate (1702).