Tow device for carrier tape processing
By designing adjustment and power components, the position adjustment of the slide plate and limit block in the carrier belt processing device was realized, which solved the problem of difficulty in limiting the semi-finished material due to different thicknesses, and improved the ease of use and adaptability of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHUHAI XINYONGJIE ELECTRONIC TECH CO LTD
- Filing Date
- 2025-08-22
- Publication Date
- 2026-06-19
AI Technical Summary
During the carrier belt processing, due to the different dimensions and thicknesses of the semi-finished materials, the existing traction device is difficult to adjust effectively, affecting the limit operation and ease of use.
A traction device for carrier belt processing was designed, comprising an adjustment component and a power component. The positions of the slide plate and the limit block can be adjusted by adjusting the lead screw and the screw rod. The distance between the power roller and the traction roller is adjustable to adapt to materials of different thicknesses.
It improves the ease of use of the carrier belt processing device, and can automatically adjust the limit and traction positions according to the material thickness, thereby enhancing the flexibility and stability of operation.
Smart Images

Figure CN224377225U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of carrier belt processing technology, specifically to a traction device for carrier belt processing. Background Technology
[0002] Carrier tape processing is the process of transforming raw materials and semi-finished products into target-demand tapes through certain procedures and methods. It includes mechanical processing and manual processing. Mechanical processing is further divided into cold processing and hot processing. Cold processing includes fitter work and machining, while hot processing includes casting and welding. In the tape cutting process, a traction device is required to pull the tape.
[0003] However, in practical applications, due to the different sizes and thicknesses of the semi-finished materials during the tape cutting process, the thickness needs to be adjusted during the traction process, which affects the subsequent limiting operation during use and thus affects the ease of use of the traction device. Therefore, we propose a traction device for carrier tape processing to solve the above-mentioned problems. Summary of the Invention
[0004] To address the shortcomings of existing technologies, this utility model provides a traction device for carrier belt processing, which solves the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model is implemented through the following technical solution: a traction device for carrier belt processing, including a base, an adjustment component is provided inside the base, and a power component is provided on the upper surface of the base.
[0006] The adjustment assembly includes a cavity formed on the base, with a sliding plate slidably connected inside the cavity. A lead screw is inserted into the sliding plate, with one end of the lead screw passing through the base and extending to the outside of the base. Slide rods are fixedly installed on both sides of the sliding plate, and sliders are fixedly installed on the top of the slide rods. The tops of the two sliders are fixedly connected by a sliding plate. The adjustment assembly allows the position of the slide rods on the sliding plate to be adjusted by rotating the lead screw during use, thereby facilitating the adjustment of the position of the sliders and the sliding plate. This makes it easier to adjust the support and traction position during subsequent use, thus improving the ease of use of the device.
[0007] The power assembly includes a motor fixedly mounted on one side of the moving plate. A cavity is opened at the top of the moving plate. The output shaft of the motor passes through the moving plate and extends into the cavity where a power roller is fixedly mounted. Square tubes are fixedly mounted on both sides of the upper surface of the moving plate. Limiting blocks are slidably connected inside the square tubes. A traction roller is rotatably connected between the two limiting blocks via a rotating shaft. A round rod is fixedly mounted on the top of the limiting blocks. The top of the round rod is fixedly connected via a connecting plate. The tops of the two square tubes are fixedly connected via a horizontal plate. A screw is inserted into the horizontal plate. In use, the power assembly first rotates the screw, which then drives the round rod and the limiting blocks on the connecting plate to move. This allows the distance between the traction roller and the power roller on the limiting blocks to be adjusted, facilitating adjustment according to the thickness being processed. Then, the motor can be controlled to perform traction operation via the power roller and the traction roller.
[0008] Preferably, the base has grooves on both sides for the slide rod to pass through. The inner wall of the groove is slidably connected to the surface of the slide rod. The grooves facilitate the passage of the slide rod during use and also facilitate the limiting operation of the slide rod during subsequent use, thus improving the ease of use of the component.
[0009] Preferably, mounting plates are fixedly installed at the four corners of the bottom of the base. The mounting plates have mounting holes, which are oblong holes. The lower surface of the mounting plates has anti-slip texture. The mounting plates facilitate the installation and positioning of the component during use, thereby improving the installation stability of the component.
[0010] Preferably, the slide plate has a threaded hole for the lead screw to pass through, the threaded hole is threaded to the lead screw, one end of the lead screw is fitted with a sleeve that is rotatably connected to the lead screw, and one end of the sleeve is fixedly connected to one side of the inner wall of the cavity. The threaded hole facilitates the rotation of the lead screw during use and also facilitates the rotation operation of the operator, thus improving the ease of use of the component.
[0011] Preferably, a circular hole is provided on one side of the base for the lead screw to pass through. The inner wall of the circular hole is rotatably connected to the surface of the lead screw. A crank handle is fixedly installed at one end of the lead screw. The crank handle facilitates the rotation of the lead screw during use, thus making subsequent use easier.
[0012] Preferably, a through groove is provided on one side of the square tube for the limit block to pass through. The inner wall of the through groove is slidably connected to the surface of the limit block. The through groove facilitates the passage of the limit block during use and also facilitates subsequent use, thereby improving the ease of use of the component.
[0013] Preferably, the bottom of the screw is rotatably connected to the top of the connecting plate via a bearing, and a screw hole is provided on the horizontal plate for the screw to pass through. The screw hole is threadedly connected to the screw. The screw hole facilitates the threaded connection of the screw during use, thereby facilitating subsequent use. Beneficial effects
[0014] This invention provides a traction device for carrier belt processing. Compared with the prior art, it has the following advantages:
[0015] The traction device for carrier belt processing, through the power component, first rotates the screw during use, and then the screw drives the round rod and limit block on the connecting plate to move, thereby adjusting the distance between the traction roller and the power roller on the limit block. This allows for easy adjustment based on the thickness being processed. Subsequently, the control motor can perform traction operation through the power roller and the traction roller.
[0016] Meanwhile, the adjustable components allow for the adjustment of the position of the slide bar on the slide plate by rotating the lead screw during use. This facilitates the adjustment of the position of the slider and the moving plate, and makes it easier to adjust their support and traction positions during subsequent use, thereby improving the ease of use of the device. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0018] Figure 2 This is a first-view perspective three-dimensional cross-sectional structural diagram of the present invention;
[0019] Figure 3 This is a schematic diagram of the second-view three-dimensional cross-sectional structure of the present invention;
[0020] Figure 4 This utility model Figure 3 Enlarged schematic diagram of the structure at point A in the middle.
[0021] In the diagram: 1. Base; 2. Adjustment assembly; 200. Slide plate; 201. Lead screw; 202. Slide bar; 203. Slider; 204. Moving plate; 205. Crank handle; 3. Power assembly; 300. Motor; 301. Power roller; 302. Square tube; 303. Limiting block; 304. Traction roller; 305. Round rod; 306. Connecting plate; 307. Horizontal plate; 308. Screw; 4. Mounting plate. Detailed Implementation
[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0023] Please see Figures 1-4 This utility model provides a technical solution: a traction device for carrier belt processing, including a base 1, an adjustment component 2 is provided inside the base 1, and a power component 3 is provided on the upper surface of the base 1.
[0024] The adjustment assembly 2 includes a cavity formed on the base 1. A slide plate 200 is slidably connected inside the cavity. A lead screw 201 is inserted into the slide plate 200. One end of the lead screw 201 passes through the base 1 and extends to the outside of the base 1. Slide rods 202 are fixedly installed on both sides of the slide plate 200. A slider 203 is fixedly installed on the top of the slide rod 202. The tops of the two sliders 203 are fixedly connected by a sliding plate 204. The adjustment assembly 2 allows the position of the slide rods 202 on the slide plate 200 to be adjusted by rotating the lead screw 201 during use. This facilitates the adjustment of the positions of the sliders 203 and the sliding plate 204, thereby improving the ease of use of the device.
[0025] The power assembly 3 includes a motor 300 fixedly mounted on one side of a moving plate 204. A cavity is formed at the top of the moving plate 204. The output shaft of the motor 300 passes through the moving plate 204 and extends into the cavity where a power roller 301 is fixedly mounted. Square tubes 302 are fixedly mounted on both sides of the upper surface of the moving plate 204. Limiting blocks 303 are slidably connected inside the square tubes 302. A traction roller 304 is rotatably connected between the two limiting blocks 303 via a rotating shaft. A round rod 305 is fixedly mounted on the top of each limiting block 303. The top of the round rod 305 is fixedly connected via a connecting plate 306. The top of the square tube 302 is fixedly connected by a horizontal plate 307. A screw 308 is inserted into the horizontal plate 307. A power assembly 3 is provided. During use, the screw 308 is rotated first. Then, the screw 308 can drive the round rod 305 on the connecting plate 306 and the limiting block 303 to move. This allows the distance between the traction roller 304 on the limiting block 303 and the power roller 301 to be adjusted, so as to facilitate the adjustment operation according to the thickness of the processed material. Then, the control motor 300 can perform traction operation on the material through the power roller 301 and the traction roller 304.
[0026] See Figure 1Both sides of the base 1 are provided with rod grooves for the slide rod 202 to pass through. The inner wall of the rod groove is slidably connected to the surface of the slide rod 202. The rod grooves facilitate the passage of the slide rod 202 during use and also facilitate the limiting operation of the slide rod 202 during subsequent use, thus improving the ease of use of this component.
[0027] See Figure 1 Mounting plates 4 are fixedly installed at the four corners of the bottom of the base 1. Mounting plates 4 have mounting holes, which are oblong holes. The lower surface of the mounting plates 4 has anti-slip texture. The mounting plates 4 facilitate the installation and positioning of the component during use, thereby improving the installation stability of the component.
[0028] See Figure 3 The slide plate 200 has a threaded hole for the lead screw 201 to pass through. The threaded hole is threaded to the lead screw 201. One end of the lead screw 201 is fitted with a sleeve that is rotatably connected to the lead screw 201. One end of the sleeve is fixedly connected to one side of the inner wall of the cavity. The threaded hole facilitates the rotation of the lead screw 201 during use and also facilitates the rotation operation of the operator, thus improving the ease of use of this component.
[0029] See Figure 3 A circular hole is provided on one side of the base 1 for the lead screw 201 to pass through. The inner wall of the circular hole is rotatably connected to the surface of the lead screw 201. A crank handle 205 is fixedly installed at one end of the lead screw 201. The crank handle 205 facilitates the rotation of the lead screw 201 during use, and also facilitates subsequent use.
[0030] See Figure 2 A through groove is provided on one side of the square tube 302 for the limit block 303 to pass through. The inner wall of the through groove is slidably connected to the surface of the limit block 303. The through groove facilitates the passage of the limit block 303 during use and also facilitates subsequent use, thereby improving the ease of use of the component.
[0031] See Figure 1 The bottom of the screw 308 is rotatably connected to the top of the connecting plate 306 via a bearing. A screw hole is provided on the horizontal plate 307 for the screw 308 to pass through. The screw hole is threadedly connected to the screw 308. The screw hole facilitates the threaded connection of the screw 308 during use, thus facilitating subsequent use.
[0032] During operation, the power component 3 first rotates the screw 308, which then drives the round rod 305 and the limiting block 303 on the connecting plate 306 to move. This allows the distance between the traction roller 304 on the limiting block 303 and the power roller 301 to be adjusted, facilitating adjustments based on the thickness being processed. Subsequently, the control motor 300 can perform traction operations via the power roller 301 and the traction roller 304. The adjustment component 2, during operation, allows the position of the sliding rod 202 on the slide plate 200 to be adjusted by rotating the lead screw 201. This facilitates the adjustment of the positions of the slider 203 and the moving plate 204, making subsequent adjustments to their support and traction positions easier and improving the ease of use of the device.
[0033] Furthermore, any content not described in detail in this specification is existing technology known to those skilled in the art.
Claims
1. A carrier tape processing traction device comprising a base (1), characterized in that: An adjustment component (2) is provided inside the base (1), and a power component (3) is provided on the upper surface of the base (1). The adjustment component (2) includes a cavity opened on the base (1), a slide plate (200) is slidably connected inside the cavity, a lead screw (201) is inserted on the slide plate (200), one end of the lead screw (201) passes through the base (1) and extends to the outside of the base (1), slide rods (202) are fixedly installed on both sides of the slide plate (200), and sliders (203) are fixedly installed on the top of the slide rods (202), and the tops of the two sliders (203) are fixedly connected by a sliding plate (204); The power assembly (3) includes a motor (300) fixedly installed on one side of the moving plate (204). A cavity is opened at the top of the moving plate (204). The output shaft of the motor (300) passes through the moving plate (204) and extends into the cavity where a power roller (301) is fixedly installed. Square tubes (302) are fixedly installed on both sides of the upper surface of the moving plate (204). Limiting blocks (303) are slidably connected inside the square tubes (302). A traction roller (304) is rotatably connected between the two limiting blocks (303) through a rotating shaft. A round rod (305) is fixedly installed at the top of the limiting block (303). The top of the round rod (305) is fixedly connected through a connecting plate (306). The tops of the two square tubes (302) are fixedly connected through a horizontal plate (307). A screw (308) is inserted into the horizontal plate (307).
2. The traction device for carrier belt processing according to claim 1, characterized in that: Both sides of the base (1) are provided with rod grooves for the slide rod (202) to pass through, and the inner wall of the rod groove is slidably connected to the surface of the slide rod (202).
3. A carrier tape processing pulling device according to claim 1, wherein: Mounting plates (4) are fixedly installed at the four corners of the bottom of the base (1). Mounting plates (4) have mounting holes, which are oblong holes. Anti-slip textures are provided on the lower surface of the mounting plates (4).
4. A carrier tape processing pulling device according to claim 1, wherein: The slide plate (200) has a threaded hole for the lead screw (201) to pass through. The threaded hole is threadedly connected to the lead screw (201). One end of the lead screw (201) is fitted with a sleeve that is rotatably connected to the lead screw (201). One end of the sleeve is fixedly connected to one side of the inner wall of the cavity.
5. A carrier tape processing pulling device according to claim 1, wherein: The base (1) has a circular hole on one side for the lead screw (201) to pass through. The inner wall of the circular hole is rotatably connected to the surface of the lead screw (201). A crank handle (205) is fixedly installed at one end of the lead screw (201).
6. A carrier tape processing pulling device according to claim 1, wherein: The square tube (302) has a through groove on one side for the limiting block (303) to pass through, and the inner wall of the through groove is slidably connected to the surface of the limiting block (303).
7. A carrier tape processing pulling device according to claim 1, wherein: The bottom of the screw (308) is rotatably connected to the top of the connecting plate (306) via a bearing. A screw hole is provided on the horizontal plate (307) for the screw (308) to pass through, and the screw hole is threadedly connected to the screw (308).