Stainless steel plate wire drawing equipment

By designing a stainless steel sheet wire drawing equipment with an adjustable structure and a precision transmission system, the problem of existing equipment only being able to draw wire on one side has been solved, realizing efficient processing of stainless steel sheets with double-sided wire drawing, and improving processing efficiency and process stability.

CN224464369UActive Publication Date: 2026-07-07DONGTAI CHIDING METAL PROD MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGTAI CHIDING METAL PROD MFG CO LTD
Filing Date
2025-07-31
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing stainless steel sheet wire drawing equipment can only perform wire drawing on one side, requiring the sheet to be fed back into the equipment for double-sided processing, resulting in low processing efficiency.

Method used

A stainless steel sheet wire drawing device was designed. By adjusting the structure, bidirectional synchronous clamping and 180° rotation can be achieved. Combined with a precision transmission system and modular design, double-sided wire drawing of stainless steel sheets can be achieved without secondary clamping.

Benefits of technology

This technology enables double-sided wire drawing of stainless steel sheets to be completed in a single clamping operation, significantly improving processing efficiency and process continuity while reducing the intensity of manual intervention and processing time.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to stainless steel plate processing technical field especially, it relates to a stainless steel plate material wire drawing equipment, including the chassis, be provided with the adjusting structure on the chassis, be provided with wire drawing structure on the chassis, this stainless steel plate material wire drawing equipment, through the adjusting structure that sets up, the pair of electric push rod drive clamping plate realizes two -way synchronous clamping, ensures that the plate material stress is balanced and has no deviation, precision push -rod control system can dynamically adjust the clamping force, while guaranteeing the fixed reliability avoids the surface indentation of plate, the integrated sprocket chain transmission mechanism converts the rotary motion of first motor into the accurate angular displacement of rotating frame, and the low friction support of cooperation rotating wheel realizes 180 stable overturning, the whole system passes through the modularization design and integrates the clamping, positioning and overturning function organically, completes double -sided wire drawing processing under the condition that does not need secondary clamping, significantly improves the process coherence and reduces the artificial intervention intensity.
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Description

Technical Field

[0001] This utility model relates to the field of stainless steel plate processing technology, and in particular to a stainless steel plate wire drawing device. Background Technology

[0002] Stainless steel wire drawing is a metal processing technique and one of the most popular surface treatment technologies in the stainless steel and aluminum products industry today. It is a wire drawing effect treatment applied to stainless steel and aluminum products. Stainless steel wire drawing requires a lot of procedures and processes. It is generally used in conjunction with a wire drawing machine to repair and restore the scratches and welds on the product, ultimately achieving an overall wire drawing artistic effect.

[0003] Existing mechanical equipment for metal surface wire drawing typically involves placing a wire drawing belt or roller brush above the stainless steel plate during the wire drawing process. Only one side of the stainless steel plate can be wire drawn at a time. If the stainless steel plate requires wire drawing on both sides, the stainless steel plate after one side has been processed must be fed back into the wire drawing machine for further processing, which reduces the processing efficiency of stainless steel plate surface wire drawing. Utility Model Content

[0004] The purpose of this invention is to provide a stainless steel sheet wire drawing device to solve the problem mentioned in the background art that the existing wire drawing device can only perform wire drawing on one side of the stainless steel sheet at a time. If the stainless steel sheet needs to be wire drawn on both sides, the stainless steel sheet after one side has been processed needs to be sent back into the wire drawing machine for processing, which reduces the processing efficiency of the stainless steel sheet surface wire drawing process.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a stainless steel sheet wire drawing device, including a base frame, an adjustment structure provided on the base frame, and a wire drawing structure provided on the base frame;

[0006] The adjustment structure includes a rotating wheel, a rotating frame, a transmission chain, a first motor, a rotating sprocket, a fixed plate, a moving rod, a clamping plate, and a first electric push rod. The rotating wheel is movably mounted on the base frame, the rotating frame is movably mounted on the rotating wheel, the transmission chain is mounted on the rotating frame, the first motor is mounted on the base frame, the rotating sprocket is mounted on the drive end of the first motor and is movably connected to the transmission chain, the fixed plate is mounted on the rotating frame, the moving rod is movably mounted on the fixed plate, the clamping plate is mounted on the moving rod, and the first electric push rod is mounted on the fixed plate and its drive end is connected to the clamping plate.

[0007] Preferably, the base frame is provided with feet, and the first electric push rod is fixed to the fixed plate by bolts.

[0008] Preferably, the first motor is fixed to the base frame by bolts, and the moving rod is provided with a connecting plate.

[0009] Preferably, the wire drawing structure includes a fixed frame, a lead screw, a first pulley, a second motor, a second pulley, a transmission belt, a transmission block, a guide rail, a sliding frame, a support plate, a guide rail, a sliding block, a support frame, a wire drawing wheel, a third motor, and a second electric push rod. The fixed frame is mounted on the base frame, the lead screw is movably mounted on the fixed frame, the first pulley is mounted on the lead screw, the second motor is mounted on the fixed frame, the second pulley is mounted on the drive end of the second motor, the transmission belt is disposed on the first pulley and the second pulley, the transmission block is movably disposed on the lead screw, the guide rail is mounted on the fixed frame, the sliding frame is movably mounted on the guide rail and connected to the transmission block, the support plate is mounted on the sliding frame, the guide rail is mounted on the support plate, the sliding block is movably mounted on the guide rail, the support frame is mounted on the sliding block, the wire drawing wheel is movably mounted on the support frame, the third motor is mounted on the support frame and connected to the wire drawing wheel, and the second electric push rod is mounted on the support plate and its drive end is connected to the support frame.

[0010] Preferably, the fixing frame is provided with reinforcing ribs, and the guide rail is provided with a pair.

[0011] Preferably, a pair of guide rails and sliding blocks are provided, and the second motor is fixed to the fixed frame by bolts.

[0012] Preferably, the guide rail is adapted to the sliding frame, and the clamping plate is provided with a protective layer.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. This stainless steel sheet wire drawing equipment, through a set adjustment structure, uses paired electric push rods to drive the clamping plate to achieve bidirectional synchronous clamping, ensuring that the sheet is subjected to balanced force without deviation; the precision push rod control system can dynamically adjust the clamping force, ensuring the reliability of fixation while avoiding indentation on the sheet surface; the integrated sprocket and chain transmission mechanism converts the rotational motion of the first motor into the precise angular displacement of the rotating frame, and, together with the low-friction support of the rotating wheel, achieves a stable 180° rotation; the entire system organically integrates clamping, positioning and rotation functions through modular design, completing double-sided wire drawing without secondary clamping, significantly improving process continuity and reducing the intensity of manual intervention.

[0015] 2. This stainless steel sheet wire drawing equipment, through its designed wire drawing structure and precision transmission system, achieves multi-dimensional coordinated motion of the wire drawing wheels. The pulley-screw mechanism ensures accurate and reliable lateral positioning, while the guide rail system guarantees stable and unbiased movement. The motor directly drives the wire drawing wheels to generate constant power, and the electric push rod-controlled feed mechanism provides adjustable pressure output. The modular motion decomposition design enables independent control of rotation and linear feed, completing high-quality wire drawing across the entire width in a single clamping operation, resulting in a uniform surface texture. The system boasts high integration, is easy to operate, and significantly improves processing efficiency and process stability. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the structure of this utility model from another perspective;

[0018] Figure 3 This is a schematic diagram of the structure of the fixed plate and the first electric push rod of this utility model.

[0019] Figure 4 This is a schematic diagram of the cooperation structure between the support plate and the guide rail of this utility model;

[0020] In the diagram: 1. Base frame; 2. Adjustment structure; 201. Rotating wheel; 202. Rotating frame; 203. Transmission chain; 204. First motor; 205. Rotating sprocket; 206. Fixed plate; 207. Moving rod; 208. Clamping plate; 209. First electric push rod; 210. Connecting plate; 3. Wire drawing structure; 301. Fixed frame; 302. Lead screw; 303. First pulley; 304. Second motor; 305. Second pulley; 306. Transmission belt; 307. Transmission block; 308. Guide rail; 309. Sliding frame; 310. Support plate; 311. Guide rail; 312. Sliding block; 313. Support frame; 314. Wire drawing wheel; 315. Third motor; 316. Second electric push rod. Detailed Implementation

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

[0022] Please see Figure 1-4 This utility model provides a technical solution: a stainless steel sheet wire drawing device, including a base frame 1, an adjustment structure 2 and a wire drawing structure 3 provided on the base frame 1;

[0023] The adjustment structure 2 includes a rotating wheel 201, a rotating frame 202, a transmission chain 203, a first motor 204, a rotating sprocket 205, a fixed plate 206, a moving rod 207, a clamping plate 208, and a first electric push rod 209. The rotating wheel 201 is movably mounted on the base frame 1, the rotating frame 202 is movably mounted on the rotating wheel 201, the transmission chain 203 is mounted on the rotating frame 202, the first motor 204 is mounted on the base frame 1, the rotating sprocket 205 is mounted on the driving end of the first motor 204 and is movably connected to the transmission chain 203, the fixed plate 206 is mounted on the rotating frame 202, the moving rod 207 is movably mounted on the fixed plate 206, the clamping plate 208 is mounted on the moving rod 207, and the first electric push rod 209 is mounted on the fixed plate 206 and its driving end is connected to the clamping plate 208. Next, four rotating wheels 201 are provided, symmetrically arranged in pairs on the base frame 1, which can stabilize the rotation of the rotating frame 202. A pair of fixed plates 206, clamping plates 208 and first electric push rods 209 are provided, symmetrically arranged. Four moving rods 207 are provided, symmetrically arranged in pairs on the fixed plates 206. When it is necessary to fix the stainless steel plate, the stainless steel plate is placed between a pair of clamping plates 208 and the pair of first electric push rods 209 are driven. The pair of first electric push rods 209 can drive the pair of clamping plates 208 to move. The pair of clamping plates 208 can abut against the two side walls of the stainless steel plate, thereby clamping and fixing it. After the wire drawing of one side wall of the stainless steel plate is completed, the first motor 204 is driven. The first motor 204 can drive the rotating sprocket 205 to rotate. The transmission chain 203 can drive the rotating frame 202 to rotate under the action of the rotating sprocket 205. The rotating frame 202 rotates through the rotating wheels 201, thereby driving the stainless steel plate to flip, which facilitates the wire drawing operation on the undrawn side of the stainless steel plate.

[0024] Furthermore, the base frame 1 is provided with pads, and the first electric push rod 209 is fixed to the fixed plate 206 by bolts. The pads are located at one end of the base frame 1 near the placement plane. The pads can make the base frame 1 stable. The first electric push rod 209 fixed by bolts is easy to install and remove on the fixed plate 206.

[0025] Furthermore, the first motor 204 is fixed to the base frame 1 by bolts, and the moving rod 207 is provided with a connecting plate 210. The first motor 204 fixed by bolts is easy to install and remove on the base frame 1. There is a pair of connecting plates 210, one of which is provided on a pair of moving rods 207. The connecting plate 210 can make the pair of moving rods 207 move stably.

[0026] Furthermore, the wire drawing structure 3 includes a fixed frame 301, a lead screw 302, a first pulley 303, a second motor 304, a second pulley 305, a transmission belt 306, a transmission block 307, a guide rail 308, a sliding frame 309, a support plate 310, a guide rail 311, a sliding block 312, a support frame 313, a wire drawing wheel 314, a third motor 315, and a second electric push rod 316. The fixed frame 301 is mounted on the base frame 1, the lead screw 302 is movably mounted on the fixed frame 301, the first pulley 303 is mounted on the lead screw 302, and the second motor 304 is mounted on the base frame 1. On the fixed frame 301, the second pulley 305 is mounted on the drive end of the second motor 304. The transmission belt 306 is disposed on the first pulley 303 and the second pulley 305. The transmission block 307 is movably disposed on the lead screw 302. The guide rail 308 is mounted on the fixed frame 301. The sliding frame 309 is movably mounted on the guide rail 308 and is connected to the transmission block 307. The support plate 310 is mounted on the sliding frame 309. The guide rail 311 is mounted on the support plate 310. The sliding block 312 is movably mounted on the guide rail. On 311, the support frame 313 is mounted on the sliding block 312, the wire drawing wheel 314 is movably mounted on the support frame 313, the third motor 315 is mounted on the support frame 313 and connected to the wire drawing wheel 314, and the second electric push rod 316 is mounted on the support plate 310 and its driving end is connected to the support frame 313. When it is necessary to draw the stainless steel plate, the second motor 304 is driven, which can drive the second pulley 305 to rotate. The transmission belt 306 drives the first pulley under the action of the second pulley 305. When 303 rotates, the lead screw 302 rotates with the first pulley 303. Under the action of the lead screw 302, the transmission block 307 drives the sliding frame 309 to move. The sliding frame 309 can move on the guide rail 308. The sliding frame 309 can drive the support plate 310 to move, so that the drawing wheel 314 moves above the stainless steel plate, driving the third motor 315. The third motor 315 drives the drawing wheel 314 to rotate, driving the second electric push rod 316. The second electric push rod 316 can drive the support frame 313 to move on the guide rail 311 through the sliding block 312. The drawing wheel 314 follows the support frame 313 to perform a drawing operation on the stainless steel surface.

[0027] Furthermore, the fixing frame 301 is provided with reinforcing ribs, and a pair of guide rails 308 are provided. The reinforcing ribs increase the stability of the fixing frame 301, and the pair of guide rails 308 can make the sliding frame 309 move stably.

[0028] Furthermore, a pair of guide rails 311 and sliding blocks 312 are provided. The second motor 304 is fixed to the fixed frame 301 by bolts. The pair of sliding blocks 312 move stably on the guide rails 311. The second motor 304 fixed by bolts is easy to install and remove on the fixed frame 301.

[0029] Furthermore, the guide rail 308 is adapted to the sliding frame 309, and a protective layer is provided on the clamping plate 208. The adapted sliding frame 309 moves stably on the guide rail 308. The protective layer is provided on the side wall of the clamping plate 208 away from the moving rod 207. The protective layer can protect the clamping plate 208 when it comes into contact with the stainless steel plate, and can prevent the clamping force of the pair of clamping plates 208 from causing damage to the surface of the stainless steel plate due to excessive force.

[0030] Working principle: When a stainless steel plate needs to be fixed, it is placed between a pair of clamping plates 208. A pair of first electric push rods 209 are driven, which move the clamping plates 208. The clamping plates 208 then abut against the side walls of the stainless steel plate, thus clamping and fixing it. After one side of the stainless steel plate is wire-drawn, a first motor 204 is driven. The first motor 204 drives a rotating sprocket 205 to rotate. The transmission chain 203, under the action of the rotating sprocket 205, drives a rotating frame 202 to rotate. The rotating frame 202 rotates via a rotating wheel 201, which in turn rotates the stainless steel plate, facilitating the wire-drawing operation on the undrawn side of the stainless steel plate. When wire drawing is required, a second motor 304 is driven. Machine 304 can drive the second pulley 305 to rotate. The transmission belt 306 drives the first pulley 303 to rotate under the action of the second pulley 305. The lead screw 302 follows the rotation of the first pulley 303. The transmission block 307 drives the sliding frame 309 to move under the action of the lead screw 302. The sliding frame 309 can move on the guide rail 308. The sliding frame 309 can drive the support plate 310 to move, so that the drawing wheel 314 moves above the stainless steel plate and drives the third motor 315. The third motor 315 drives the drawing wheel 314 to rotate and drives the second electric push rod 316. The second electric push rod 316 can drive the support frame 313 to move on the guide rail 311 through the sliding block 312. The drawing wheel 314 follows the movement of the support frame 313 to perform the drawing operation on the stainless steel surface.

[0031] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A stainless steel sheet wire drawing device, comprising a base frame (1), characterized in that: An adjustment structure (2) is provided on the base frame (1), and a wire drawing structure (3) is provided on the base frame (1). The adjustment structure (2) includes a rotating wheel (201), a rotating frame (202), a transmission chain (203), a first motor (204), a rotating sprocket (205), a fixed plate (206), a moving rod (207), a clamping plate (208), and a first electric push rod (209). The rotating wheel (201) is movably mounted on the base frame (1), the rotating frame (202) is movably mounted on the rotating wheel (201), the transmission chain (203) is mounted on the rotating frame (202), and the first motor (204) is mounted on the base frame (1). The rotating sprocket (205) is mounted on the drive end of the first motor (204) and is movably connected to the transmission chain (203). The fixed plate (206) is mounted on the rotating frame (202). The moving rod (207) is movably mounted on the fixed plate (206). The clamping plate (208) is mounted on the moving rod (207). The first electric push rod (209) is mounted on the fixed plate (206) and the drive end of the first electric push rod (209) is connected to the clamping plate (208).

2. The stainless steel sheet wire drawing equipment according to claim 1, characterized in that: The base frame (1) is provided with pads, and the first electric push rod (209) is fixed to the fixed plate (206) by bolts.

3. The stainless steel sheet wire drawing equipment according to claim 1, characterized in that: The first motor (204) is fixed to the base frame (1) by bolts, and the moving rod (207) is provided with a connecting plate (210).

4. The stainless steel sheet wire drawing equipment according to claim 1, characterized in that: The wire drawing structure (3) includes a fixed frame (301), a lead screw (302), a first pulley (303), a second motor (304), a second pulley (305), a transmission belt (306), a transmission block (307), a guide rail (308), a sliding frame (309), a support plate (310), a guide rail (311), a sliding block (312), a support frame (313), a wire drawing wheel (314), a third motor (315), and a second electric push rod (316). (301) is mounted on the base frame (1), the lead screw (302) is movably mounted on the fixed frame (301), the first pulley (303) is mounted on the lead screw (302), the second motor (304) is mounted on the fixed frame (301), the second pulley (305) is mounted on the drive end of the second motor (304), the transmission belt (306) is provided on the first pulley (303) and the second pulley (305), and the transmission block (307) is movably mounted on the lead screw (302), the guide rail (308) is mounted on the fixed frame (301), the sliding frame (309) is movably mounted on the guide rail (308) and the sliding frame (309) is connected to the transmission block (307), the support plate (310) is mounted on the sliding frame (309), the guide rail (311) is mounted on the support plate (310), and the sliding block (312) is movably mounted on the guide rail (307). 11) The support frame (313) is mounted on the sliding block (312), the wire drawing wheel (314) is movably mounted on the support frame (313), the third motor (315) is mounted on the support frame (313) and the third motor (315) is connected to the wire drawing wheel (314), the second electric push rod (316) is mounted on the support plate (310) and the driving end of the second electric push rod (316) is connected to the support frame (313).

5. A stainless steel sheet wire drawing device according to claim 4, characterized in that: The fixing frame (301) is provided with reinforcing ribs, and the guide rail (308) is provided with a pair.

6. The stainless steel sheet wire drawing equipment according to claim 4, characterized in that: The guide rail (311) and the sliding block (312) are each provided in a pair, and the second motor (304) is fixed to the fixed frame (301) by bolts.

7. The stainless steel sheet wire drawing equipment according to claim 4, characterized in that: The guide rail (308) is adapted to the sliding frame (309), and the clamping plate (208) is provided with a protective layer.