Adjustable angle guiding and positioning mechanism for cold-drawing type steel processing

By designing an adjustable angle guiding and positioning mechanism, and utilizing a servo rotary motor and an electrically controlled clamping table combined with a guide screw and guide rod structure, the problem of difficult angle adjustment in conventional guiding and positioning mechanisms is solved, achieving flexible clamping and stability in the processing of cold-drawn steel profiles.

CN224445672UActive Publication Date: 2026-07-03SUZHOU SANTUO METAL PROD CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU SANTUO METAL PROD CO LTD
Filing Date
2025-06-13
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Conventional guide and positioning mechanisms are difficult to adjust in terms of angle in the horizontal or vertical direction, which makes the processing of cold-drawn steel inconvenient.

Method used

An adjustable angle guiding and positioning mechanism including a driving component and a clamping component was designed. The angle is adjusted by using a servo rotary motor and an electrically controlled clamping table, and the flexible clamping and movement of the workpiece is achieved by a combination structure of a guide screw and a guide rod.

Benefits of technology

It enables flexible clamping and movement of workpieces at different angles, ensuring processing stability and flexibility, and adapting to different processing needs.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an adjustable angle guiding and positioning mechanism for cold-drawn steel processing, including a driving component and a clamping component. A positioning frame is connected to the middle of the driving component, and a guide frame is connected to the end of the positioning frame away from the driving component. The clamping component is connected to the power output end of the positioning frame. This adjustable angle guiding and positioning mechanism for cold-drawn steel processing, by incorporating the clamping component, can structurally clamp workpieces of different specifications within a certain range. Simultaneously, it can adjust the horizontal axial rotation angle within a certain range to meet the needs of different processing operations. The driving component and guide frame structure guide and move the clamping component with the positioning frame installed, ensuring the structural flexibility and stability of the device. The positioning frame pulls the clamping component to assist in clamping and moving the workpiece, thus achieving a structural auxiliary function.
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Description

Technical Field

[0001] This utility model relates to the field of cold-drawn steel processing technology, specifically an adjustable angle guide and positioning mechanism for cold-drawn steel processing. Background Technology

[0002] Cold-drawn steel processing refers to the plastic deformation of steel at room temperature through a cold-drawing process to improve the strength, hardness, and precision of the steel. Cold-drawing processes include cold rolling, cold drawing, and cold extrusion. Its core characteristic is that the deformation temperature is lower than the material's recrystallization temperature, and recrystallization does not occur during processing.

[0003] Conventional guide and positioning mechanisms can translate the structure in the horizontal or vertical direction, but they are difficult to rotate the workpiece at a certain angle, which makes processing operations inconvenient. Utility Model Content

[0004] The purpose of this invention is to provide an adjustable angle guide and positioning mechanism for cold-drawn steel processing, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: an adjustable angle guiding and positioning mechanism for cold-drawn steel processing, comprising a driving component and a clamping component. The driving component is connected to a positioning frame in the middle, and a guide frame is connected to the end of the positioning frame away from the driving component. The clamping component is connected to the power output end of the positioning frame. The clamping component includes a stabilizing platform, a servo rotary motor, an electrically controlled clamping platform, and stabilizing jaws. A servo rotary motor is installed on one side of the stabilizing platform, and an electrically controlled clamping platform is installed on the side of the stabilizing platform away from the servo rotary motor. Furthermore, stabilizing jaws are connected to the surface of the electrically controlled clamping platform.

[0006] Furthermore, the drive assembly includes a guide screw, a first support frame, a second support frame, a lifting column, a stabilizer frame, a servo motor, and a gearbox. The first support frame and the second support frame are respectively installed at the left and right ends of the guide screw, and the lifting column is vertically installed at the bottom of both the left and right ends of the first support frame and the second support frame. The stabilizer frame is installed on the side of the first support frame away from the guide screw, and the servo motor is installed on the side of the stabilizer frame away from the guide screw. The gearbox is installed at the power output end of the servo motor through a coupling.

[0007] Furthermore, both the first support frame and the second support frame are connected to the two ends of the guide screw using a bearing seat structure, and the bottom of the lifting column is provided with holes for bolt installation at the four opposite corners.

[0008] Furthermore, the guide screw and the power output end of the transmission are connected to each other, and the guide screw, stabilizer, servo motor and transmission are all on the same horizontal central axis.

[0009] Furthermore, the positioning frame includes a movable frame, an electro-hydraulic actuator, and a connecting seat. The electro-hydraulic actuator is horizontally installed through the middle of the movable frame, and the power output end of the electro-hydraulic actuator is equipped with a connecting seat.

[0010] Furthermore, the end of the moving frame near the drive assembly is threadedly connected to the guide screw, and the connecting seat is connected and installed on the end of the servo rotary motor away from the stabilizing platform.

[0011] Furthermore, the guide frame includes a guide rod, a fixing frame, and an adjusting column. The guide rod is equipped with a fixing frame at both ends, and the adjusting column is vertically installed at the bottom of both ends of the fixing frame.

[0012] Furthermore, the bottom of the adjusting column has holes at the four opposite corners for bolt installation, and the adjusting column and the lifting column have the same structure.

[0013] This utility model provides an adjustable angle guide and positioning mechanism for processing cold-drawn steel profiles, which has the following advantages:

[0014] 1. This utility model, by connecting and installing a clamping assembly at one end of the positioning frame, allows for the control of six sets of stable jaws to achieve structural clamping under the operation of the electrically controlled clamping table. This enables flexible clamping adjustment within a certain range. With the servo rotary motor, the entire electrically controlled clamping table can be adjusted at different angles along the horizontal axis to accommodate different processing needs and ensure the structural flexibility of the device. Furthermore, the extension and retraction of the electro-hydraulic push rod allows for the horizontal translation of the entire clamping assembly. Using this structure, the workpiece to be processed can be clamped and fixed from left to right by combining the two sets of devices, ensuring the structural stability of the workpiece during processing.

[0015] 2. This utility model, by setting drive components and guide frames at both ends of the positioning frame, and the entire moving frame being connected to guide screws and guide rods respectively, under the operation of the servo motor, the guide screw connected to it will rotate horizontally, thereby driving the entire positioning frame connected to it to move horizontally along the surface of the guide screw and guide rod. With the above structure, the mobility of the entire device can be maximized, while also allowing for flexible adjustment according to the structural dimensions of the workpiece. In addition, by providing holes for bolt installation at the four opposite corners of the bottom of the lifting column and the adjusting column, the entire device can be fixed to the ground or the mounting surface with the use of bolts, thereby achieving structural stability and support. Attached Figure Description

[0016] Figure 1This is a schematic diagram of the main body of an adjustable angle guide and positioning mechanism for cold-drawn steel processing according to the present invention.

[0017] Figure 2 This is a schematic diagram of the drive component structure of an adjustable angle guide and positioning mechanism for cold-drawn steel processing according to the present invention;

[0018] Figure 3 This is a three-dimensional structural diagram of the positioning frame of the adjustable angle guide positioning mechanism for cold-drawn steel processing according to this utility model;

[0019] Figure 4 This is a three-dimensional structural diagram of the guide frame of the adjustable angle guide positioning mechanism for cold-drawn steel processing according to this utility model;

[0020] Figure 5 This is a three-dimensional structural diagram of the clamping component of an adjustable angle guide and positioning mechanism for processing cold-drawn steel according to this utility model.

[0021] In the diagram: 1. Drive assembly; 101. Guide screw; 102. First support frame; 103. Second support frame; 104. Lifting column; 105. Stabilizer frame; 106. Servo motor; 107. Gearbox; 2. Positioning frame; 3. Guide frame; 301. Guide rod; 302. Fixing frame; 303. Adjusting column; 4. Clamping assembly; 401. Stabilizer platform; 402. Servo rotary motor; 403. Electrically controlled clamping platform; 404. Stabilizing gripper. Detailed Implementation

[0022] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.

[0023] like Figures 1 to 5As shown, an adjustable angle guide and positioning mechanism for cold-drawn steel processing includes a drive assembly 1 and a clamping assembly 4. A positioning frame 2 is connected to the middle of the drive assembly 1, and a guide frame 3 is connected to the end of the positioning frame 2 away from the drive assembly 1. The clamping assembly 4 is connected to the power output end of the positioning frame 2. The clamping assembly 4 includes a stabilizing platform 401, a servo rotary motor 402, an electrically controlled clamping platform 403, and stabilizing jaws 404. The servo rotary motor 402 is mounted on one side of the stabilizing platform 401, and the electrically controlled clamping platform 403 is mounted on the side of the stabilizing platform 401 away from the servo rotary motor 402. Stabilizing jaws 404 are connected to the surface of the electrically controlled clamping platform 403. The positioning frame 2 includes a movable frame 201. An electro-hydraulic actuator 202 and a connecting seat 203 are installed horizontally through the middle of the movable frame 201. The power output end of the electro-hydraulic actuator 202 is equipped with a connecting seat 203. The end of the movable frame 201 near the drive assembly 1 is threadedly connected to the guide screw 101. The connecting seat 203 is connected to the end of the servo rotary motor 402 away from the stabilizer 401. Under the operation of the electrically controlled clamping table 403, six sets of stable grippers 404 can be controlled to achieve structural clamping, thereby enabling flexible clamping adjustment within a certain range. Under the structural setting of the servo rotary motor 402, the entire electrically controlled clamping table 403 can be adjusted at different angles in the horizontal axis.

[0024] like Figures 1 to 5As shown, the drive assembly 1 includes a guide screw 101, a first support frame 102, a second support frame 103, a lifting column 104, a stabilizer frame 105, a servo motor 106, and a gearbox 107. The first support frame 102 and the second support frame 103 are respectively mounted on the left and right ends of the guide screw 101. The lifting column 104 is vertically mounted on the bottom of both the left and right ends of the first support frame 102 and the second support frame 103. The stabilizer frame 105 is mounted on the side of the first support frame 102 away from the guide screw 101, and the servo motor 106 is mounted on the side of the stabilizer frame 105 away from the guide screw 101. The power output end of the servo motor 106 is connected to the gearbox 107 via a coupling. The first support frame 102 and the second support frame 103 are connected to both ends of the guide screw 101 using a bearing seat structure. The bottom of the lifting column 104 has four pairs of... Holes for bolt installation are provided at the corners. The power output ends of the guide screw 101 and the gearbox 107 are connected and combined. The guide screw 101, the stabilizer 105, the servo motor 106 and the gearbox 107 are all on the same horizontal central axis. The guide frame 3 includes a guide rod 301, a fixed frame 302 and an adjusting column 303. Fixed frames 302 are installed at both ends of the guide rod 301. Adjusting columns 303 are vertically installed at the bottom of both ends of the fixed frame 302. Holes for bolt installation are provided at the four opposite corners of the bottom of the adjusting column 303. The adjusting column 303 and the lifting column 104 have the same structure. Under the operation of the servo motor 106, the guide screw 101 connected to it will rotate horizontally, thereby driving the entire positioning frame 2 connected to it to move horizontally along the surface of the guide screw 101 and the guide rod 301.

[0025] In summary, as Figures 1 to 5 As shown, the adjustable angle guide positioning mechanism for cold-drawn steel processing is used by first fixing the entire device to the installation structure surface or the ground using the adjusting column 303 and the lifting column 104, the hole structure at the four opposite corners of the bottom, and the use of bolts. Then, the two sets of devices are set up opposite each other.

[0026] Under the operation of the servo motor 106 on one side of the stabilizer 105, the guide screw 101, which is structurally connected to it via the gearbox 107, will rotate horizontally. The entire positioning frame 2, which is connected to the guide screw 101 via the moving frame 201, will translate horizontally along the surface of the guide rod 301 and the guide screw 101. At the same time, the electro-hydraulic push rod 202 will drive the clamping assembly 4 on one side of the connecting seat 203 to move synchronously in the horizontal direction.

[0027] At this time, the electrically controlled clamping table 403 on one side of the stabilizing table 401 will drive the stabilizing jaw 404 to clamp and fix one end of the workpiece, and make appropriate rotation adjustments as needed under the rotation of the servo rotary motor 402 to meet the processing requirements.

[0028] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.

Claims

1. An adjustable angle guiding and positioning mechanism for cold-drawing steel processing, comprising a driving assembly (1) and a clamping assembly (4), characterized in that: The driving component (1) is connected to the positioning frame (2) in the middle, and the end of the positioning frame (2) away from the driving component (1) is connected to the guide frame (3). The clamping component (4) is connected to the power output end of the positioning frame (2). The clamping component (4) includes a stabilizing platform (401), a servo rotary motor (402), an electric control clamp (403), and a stabilizing gripper (404). The servo rotary motor (402) is installed on one side of the stabilizing platform (401), and the electric control clamp (403) is installed on the side of the stabilizing platform (401) away from the servo rotary motor (402). The surface of the electric control clamp (403) is provided with a stabilizing gripper (404).

2. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 1, characterized in that, The drive assembly (1) includes a guide screw (101), a first support frame (102), a second support frame (103), a lifting column (104), a stabilizer (105), a servo motor (106), and a gearbox (107). The first support frame (102) and the second support frame (103) are respectively installed on the left and right ends of the guide screw (101). The lifting column (104) is vertically installed at the bottom of the left and right ends of the first support frame (102) and the second support frame (103). The stabilizer (105) is mounted on the side of the first support frame (102) away from the guide screw (101). The servo motor (106) is mounted on the side of the stabilizer (105) away from the guide screw (101). The power output end of the servo motor (106) is connected to the gearbox (107) via a coupling.

3. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 2, characterized in that, The first support frame (102) and the second support frame (103) are both connected to the two ends of the guide screw (101) using a bearing seat structure. The bottom of the lifting column (104) has holes at the four opposite corners for bolt installation.

4. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 2, characterized in that, The power output ends of the guide screw (101) and the gearbox (107) are connected to each other, and the guide screw (101), the stabilizer (105), the servo motor (106) and the gearbox (107) are all on the same horizontal central axis.

5. The adjustable angle guide and positioning mechanism for cold-drawn steel processing according to claim 1, characterized in that, The positioning frame (2) includes a movable frame (201), an electro-hydraulic actuator (202), and a connecting seat (203). The electro-hydraulic actuator (202) is horizontally installed through the middle of the movable frame (201), and the connecting seat (203) is installed at the power output end of the electro-hydraulic actuator (202).

6. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 5, characterized in that, The movable frame (201) is threadedly connected to the guide screw (101) at one end near the drive assembly (1), and the connecting seat (203) is connected and installed at the end of the servo rotary motor (402) away from the stabilizer (401).

7. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 2, characterized in that, The guide frame (3) includes a guide rod (301), a fixing frame (302) and an adjusting column (303). The guide rod (301) is equipped with a fixing frame (302) at both ends, and the adjusting column (303) is vertically installed at the bottom of both ends of the fixing frame (302).

8. The adjustable angle guiding and positioning mechanism for cold-drawing steel processing according to claim 7, characterized in that, The bottom of the adjusting column (303) has holes at the four opposite corners for bolt installation, and the adjusting column (303) and the lifting column (104) have the same structure.