CN223506033U - Copper bar chamfering die that punches a hole - Google Patents

Abstract

The utility model discloses a copper bar punching chamfering die, which belongs to the technical field of chamfering devices and particularly relates to a copper bar punching chamfering die, comprising a processing table, wherein a clamping assembly for clamping a copper bar is arranged at the top of the processing table; the U-shaped frame is arranged below the rotating plate along a straight line, and the U-shaped frame is controlled to move by the second driving mechanism. When the chamfering device is required to be adjusted, the second or third servo speed reducing motor can be started, so that the position of the chamfering device is adjusted, the first servo speed reducing motor is started, the rotating plate is driven to rotate through the gear and the gear ring, the chamfering device can move in multiple points, holes in different positions of the copper bar are conveniently chamfered, and finally the electric cylinder is started to enable the chamfering device to descend to contact the holes, and then the chamfering motor is started to drive the chamfering device to rotate, so that chamfering operation is carried out on the holes.

Description

Copper bar chamfering die that punches a hole

Technical Field

The utility model relates to the technical field of chamfering devices, in particular to a copper bar punching chamfering die.

Background

The copper bar punching and chamfering process is one kind of metal processing technology and is mainly used in the processing of copper bars in electric power and electric equipment. Chamfering is to polish the edges of holes on the copper bars so as to remove sharp edges and prevent injury to personnel or other parts in the use process. The copper bar punching chamfer can improve the installation efficiency and the safety of the copper bar, and simultaneously is also beneficial to improving the reliability of electric connection.

The traditional chamfering device for punching the copper bar is low in flexibility, and when the copper bar is fixed and a plurality of holes are needed to be chamfered, the chamfering device is inconvenient to move in multiple points, so that the chamfering die for punching the copper bar needs to be developed.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

In order to solve the technical problems, according to one aspect of the present utility model, the following technical solutions are provided:

a copper bar punch chamfer die, comprising:

The top of the processing table is provided with a clamping component for clamping the copper bar, the top of the processing table is provided with a supporting column,

The upper end of the support column is in a circular shape, a circular rotating plate is rotatably arranged on the support column through a bearing, and the rotating plate is controlled to rotate through a first driving mechanism;

A U-shaped frame is arranged below the rotating plate along a straight line in a moving way, and the U-shaped frame is controlled to move by a second driving mechanism;

The lower part of the U-shaped frame is provided with a convex-shaped frame along a straight line, the convex-shaped frame is controlled to move by a third driving mechanism, and the U-shaped frame and the moving direction of the convex-shaped frame are arranged vertically;

The inside diapire fixed mounting of protruding font frame has vertical electronic jar, the output shaft of electronic jar slides and runs through the diapire of protruding font frame and be provided with the chamfer motor, the output shaft of chamfer motor is provided with the chamfer ware that is used for punching a hole the chamfer through the coupling joint.

As a preferable scheme of the copper bar punching chamfer die, the clamping assembly comprises backing plates which symmetrically slide on the top of the processing table and move in opposite directions, and vertical clamping plates are fixedly arranged at the far ends of the top of the two backing plates.

As a preferable scheme of the copper bar punching chamfer mould, the clamping assembly further comprises transverse sliding ports which are arranged on the upper wall and the lower wall of the processing table and are positioned right below two backing plates, a movable plate is arranged on the inner side of each sliding port in a sliding manner, and the movable plate is fixedly connected with the backing plates on the tops of the movable plates;

The two sides of the bottom wall of the processing table, which are positioned below the sliding port, are symmetrically provided with fixing plates, a transverse positive and negative double-end screw rod is rotatably arranged between the side walls of the two fixing plates, and the left and right sections of threads of the positive and negative double-end screw rod are respectively in threaded connection and drive to penetrate through the side walls of the two moving plates;

One end of the positive and negative wire double-end screw rod extends and rotates to penetrate through the side wall of one fixing plate and is provided with a hand wheel.

As a preferable scheme of the copper bar punching chamfer die, the first driving mechanism comprises a ring gear fixedly arranged on the bottom wall of the rotating plate and in a ring shape, a first vertical servo speed reducing motor is fixedly arranged on the side wall of the supporting column, and a gear meshed with the ring gear is arranged on an output shaft of the first servo speed reducing motor.

The second driving mechanism comprises a first opening which is formed in the upper wall and the lower wall of the rotating plate, the opening direction of the first opening is consistent with the moving direction of the U-shaped frame, and the upper end of the U-shaped frame is attached to slide and penetrates through the first opening;

Mounting plates are symmetrically arranged on two sides of the top of the rotating plate above the first opening, a first screw rod parallel to the first opening is rotatably arranged between the side walls of the two U-shaped frames, and the first screw rod is in threaded connection and transmission to penetrate through the side walls of the U-shaped frames;

the top of the rotating plate is fixedly provided with a second servo gear motor, and an output shaft of the second servo gear motor is connected with the end part of the first screw rod through a coupler.

The third driving mechanism comprises a second opening which is formed in the upper wall and the lower wall of the U-shaped frame, the forming direction of the second opening is consistent with the moving direction of the convex frame, and the upper end of the convex frame is attached to and slides and penetrates through the second opening;

The inner side wall of the second opening is rotatably provided with a second screw rod parallel to the second opening, and the second screw rod is in threaded connection with and penetrates through the top of the convex frame;

One end of the U-shaped frame is fixedly provided with a third servo speed reducing motor, and an output shaft of the third servo speed reducing motor is connected with the end part of the second screw rod through a coupler.

The chamfering device has the advantages that when the chamfering device needs to be regulated, the second servo speed reducing motor can be started to drive the first screw rod to rotate, so that the U-shaped frame moves along the first opening, the position of the chamfering device is regulated, or the third servo speed reducing motor drives the second screw rod to rotate, so that the convex-shaped frame moves along the second opening, the position of the chamfering device is regulated, the first servo speed reducing motor is started to drive the rotating plate to rotate through the gear and the gear ring, the chamfering device can move in multiple points, chamfering is conveniently carried out on holes in different positions of the copper bar, and finally the electric cylinder is started to drive the chamfering device to rotate after the chamfering device descends to contact the holes, so that chamfering operation is carried out on the holes.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, which are to be understood as merely some embodiments of the present utility model, and from which other drawings can be obtained by those skilled in the art without inventive faculty. Wherein:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the utility model in the side-to-bottom view of FIG. 1;

FIG. 3 is a schematic view of the structure of the rotating plate and other parts in the bottom view direction;

FIG. 4 is a schematic structural view of the U-shaped frame and other components of the present utility model;

fig. 5 is a schematic structural view of the zigzag frame of the present utility model.

In the figure, a processing table 100, a support column 101, a base plate 102, a clamping plate 103, a sliding port 104, a moving plate 105, a fixed plate 106, a front and back screw double-end screw rod 107, a hand wheel 108, a rotating plate 200, a U-shaped frame 201, a convex frame 202, an electric cylinder 203, a chamfering motor 204, a chamfering device 205, a gear ring 206, a first servo gear motor 207, a gear 208, a first opening 209, a mounting plate 210, a first screw rod 211, a second servo gear motor 212, a second opening 213, a second screw rod 214 and a third servo gear motor 215.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Next, the present utility model will be described in detail with reference to the drawings, wherein the sectional view of the device structure is not partially enlarged to general scale for the convenience of description, and the drawings are only examples, which should not limit the scope of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1-5, a schematic structural diagram of an embodiment of a copper bar punching chamfer mold according to the present utility model is shown, and referring to fig. 1-5, a detailed description of a copper bar punching chamfer mold is shown.

The copper bar punching chamfer mould comprises a processing table 100, a clamping component for clamping copper bars is arranged at the top of the processing table 100, a supporting column 101 is arranged at the top of the processing table 100,

The upper end of the supporting column 101 is in a circular ring shape, a circular rotating plate 200 is rotatably arranged through a bearing, and the rotating plate 200 is controlled to rotate through a first driving mechanism;

A U-shaped frame 201 is arranged below the rotating plate 200 along a straight line in a moving way, and the U-shaped frame 201 is controlled to move by a second driving mechanism;

A convex frame 202 is arranged below the U-shaped frame 201 along a straight line in a moving way, the convex frame 202 is controlled to move by a third driving mechanism, and the U-shaped frame 201 and the moving direction of the convex frame 202 are arranged vertically;

The inside diapire fixed mounting of protruding font frame 202 has vertical electronic jar 203, the output shaft of electronic jar 203 slides and runs through the diapire of protruding font frame 202 and be provided with chamfer motor 204, the output shaft of chamfer motor 204 is provided with the chamfer ware 205 that is used for punching a hole the chamfer through the coupling joint.

Examples

On the basis of embodiment 1, the clamping assembly comprises a base plate 102 symmetrically sliding on the top of the processing table 100 and moving towards each other, and vertical clamping plates 103 are fixedly arranged at the ends, away from the top, of the two base plates 102;

The clamping assembly further comprises transverse sliding ports 104 which are formed in the upper wall and the lower wall of the processing table 100 and are positioned right below the two base plates 102, a moving plate 105 is slidably arranged on the inner side of each sliding port 104, and the moving plate 105 is fixedly connected with the base plates 102 on the tops of the moving plates;

The two sides of the bottom wall of the processing table 100, which are positioned below the sliding port 104, are symmetrically provided with fixed plates 106, a transverse positive and negative double-end screw rod 107 is rotatably arranged between the side walls of the two fixed plates 106, and the left and right screw threads of the positive and negative double-end screw rod 107 are respectively in threaded connection and drive to penetrate through the side walls of the two movable plates 105;

One end of the front and back double-end screw rod 107 extends and rotates to penetrate through the side wall of one fixed plate 106 and is provided with a hand wheel 108;

The copper bars to be processed are arranged on the two base plates 102, and the front and back wire double-head screw rods 107 are driven to rotate through the hand wheels 108, so that the distance between the two base plates 102 is adjusted, the two clamping plates 103 are clamped on the left side and the right side of the copper bars, and the copper bars are clamped and fixed.

Examples

On the basis of embodiment 1, the first driving mechanism comprises a ring gear 206 fixedly arranged on the bottom wall of the rotating plate 200 and having a ring shape, a first vertical servo speed reducing motor 207 is fixedly arranged on the side wall of the supporting column 101, and a gear 208 meshed with the ring gear 206 is arranged on the output shaft of the first servo speed reducing motor 207;

The first servo gear motor 207 is started, and the rotating plate 200 is driven to rotate through the gear 208 and the gear ring 206.

Examples

On the basis of embodiment 1, the second driving mechanism includes a first opening 209 formed on the upper and lower walls of the rotating plate 200, the opening direction of the first opening 209 is consistent with the moving direction of the U-shaped frame 201, and the upper end of the U-shaped frame 201 slides in a fitting manner and penetrates through the first opening 209;

mounting plates 210 are symmetrically arranged on two sides, above the first opening 209, of the top of the rotating plate 200, a first screw rod 211 parallel to the first opening 209 is rotatably arranged between the side walls of the two U-shaped frames 201, and the first screw rod 211 is in threaded connection with and penetrates through the side walls of the U-shaped frames 201;

a second servo speed reduction motor 212 is fixedly arranged at the top of the rotating plate 200, and an output shaft of the second servo speed reduction motor 212 is connected with the end part of the first screw rod 211 through a coupler;

The third driving mechanism comprises a second opening 213 formed in the upper and lower walls of the U-shaped frame 201, the second opening 213 is formed in the direction consistent with the moving direction of the convex frame 202, and the upper end of the convex frame 202 is attached and slides and penetrates through the second opening 213;

The inner side wall of the second opening 213 is rotatably provided with a second screw rod 214 parallel to the second opening 213, and the second screw rod 214 is in threaded transmission through the top of the convex frame 202;

one end of the U-shaped frame 201 is fixedly provided with a third servo speed reducing motor 215, and an output shaft of the third servo speed reducing motor 215 is connected with the end of a second screw rod 214 through a coupler;

When the chamfering device 205 needs to be adjusted, the second servo-reduction motor 212 can be started to drive the first screw rod 211 to rotate, so that the U-shaped frame 201 moves along the first opening 209, and the position of the chamfering device 205 is adjusted, or the third servo-reduction motor 215 drives the second screw rod 214 to rotate, so that the convex-shaped frame 202 moves along the second opening 213, and the position of the chamfering device 205 is adjusted.

In a specific use process, copper bars to be processed are arranged on the two base plates 102, and the front and back wire double-head screw rods 107 are driven to rotate through the hand wheels 108, so that the distance between the two base plates 102 is adjusted, the two clamping plates 103 are clamped on the left side and the right side of the copper bars, and the copper bars are clamped and fixed.

When the chamfering device 205 needs to be adjusted, the second servo reducing motor 212 can be started to drive the first screw rod 211 to rotate, so that the U-shaped frame 201 moves along the first opening 209, the position of the chamfering device 205 is adjusted, or the third servo reducing motor 215 drives the second screw rod 214 to rotate, so that the convex-shaped frame 202 moves along the second opening 213, the position of the chamfering device 205 is adjusted, the first servo reducing motor 207 is started again, the rotating plate 200 is driven to rotate through the gear 208 and the gear ring 206, the chamfering device 205 can move in multiple points, holes on different positions of the copper bar are conveniently chamfered, and finally the electric cylinder 203 is started to enable the chamfering device 205 to descend to contact the holes, and then the chamfering motor 204 is started to drive the chamfering device 205 to rotate, so that chamfering operation is carried out on the holes.

Although the utility model has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. Copper bar chamfer mould that punches a hole, characterized in that includes:

The copper bar processing device comprises a processing table (100), wherein a clamping component for clamping the copper bar is arranged at the top of the processing table (100), a supporting column (101) is arranged at the top of the processing table (100),

The upper end of the support column (101) is in a ring shape, a round rotating plate (200) is rotatably arranged through a bearing, and the rotating plate (200) is controlled to rotate through a first driving mechanism;

A U-shaped frame (201) is arranged below the rotating plate (200) along a straight line in a moving way, and the U-shaped frame (201) is controlled to move by a second driving mechanism;

A convex-shaped frame (202) is arranged below the U-shaped frame (201) in a linear movement manner, the convex-shaped frame (202) is controlled to move through a third driving mechanism, and the U-shaped frame (201) is arranged perpendicular to the moving direction of the convex-shaped frame (202);

The inner side diapire fixed mounting of protruding font frame (202) has vertical electronic jar (203), the output shaft of electronic jar (203) slides and runs through the diapire of protruding font frame (202) and be provided with chamfer motor (204), the output shaft of chamfer motor (204) is provided with through the coupling joint and is used for chamfering to punching a hole chamfer ware (205).

2. The copper bar punching chamfer die according to claim 1, wherein the clamping assembly comprises base plates (102) symmetrically sliding on the top of the processing table (100) and moving towards each other, and vertical clamping plates (103) are fixedly arranged at the ends, away from the tops of the two base plates (102).

3. The copper bar punching chamfer die according to claim 2, wherein the clamping assembly further comprises transverse sliding ports (104) formed in the upper wall and the lower wall of the processing table (100) and located right below the two base plates (102), a moving plate (105) is slidably arranged on the inner side of each sliding port (104), and the moving plate (105) is fixedly connected with the base plate (102) on the top of the moving plate;

The two sides of the bottom wall of the processing table (100) below the sliding port (104) are symmetrically provided with fixed plates (106), a transverse positive and negative double-end screw rod (107) is rotatably arranged between the side walls of the two fixed plates (106), and the left and right sections of threads of the positive and negative double-end screw rod (107) are respectively in threaded connection and drive to penetrate through the side walls of the two movable plates (105);

One end of the front and back double-end screw rod (107) extends and rotates to penetrate through the side wall of one fixing plate (106) and is provided with a hand wheel (108).

4. The copper bar punching chamfer die of claim 1, wherein the first driving mechanism comprises a ring gear (206) fixedly arranged on the bottom wall of the rotary plate (200), a first vertical servo speed reducing motor (207) is fixedly arranged on the side wall of the supporting column (101), and a gear (208) meshed with the ring gear (206) is arranged on an output shaft of the first servo speed reducing motor (207).

5. The copper bar punching chamfer die as set forth in claim 1, wherein the second driving mechanism comprises a first opening (209) formed in the upper wall and the lower wall of the rotating plate (200), the first opening (209) is formed in a direction consistent with the moving direction of the U-shaped frame (201), and the upper end of the U-shaped frame (201) is attached and slides and penetrates through the first opening (209);

Mounting plates (210) are symmetrically arranged on two sides, above the first opening (209), of the top of the rotating plate (200), first screw rods (211) parallel to the first opening (209) are rotatably arranged between the side walls of the two U-shaped frames (201), and the first screw rods (211) are in threaded connection and transmission to penetrate through the side walls of the U-shaped frames (201);

The top of the rotating plate (200) is fixedly provided with a second servo gear motor (212), and an output shaft of the second servo gear motor (212) is connected with the end part of the first screw rod (211) through a coupler.

6. The copper bar punching chamfer die as set forth in claim 1, wherein the third driving mechanism comprises a second opening (213) formed in the upper wall and the lower wall of the U-shaped frame (201), the second opening (213) is formed in a direction consistent with the moving direction of the convex frame (202), and the upper end of the convex frame (202) is attached and slides and penetrates through the second opening (213);

the inner side wall of the second opening (213) is rotatably provided with a second screw rod (214) parallel to the second opening (213), and the second screw rod (214) is in threaded transmission and penetrates through the top of the convex-shaped frame (202);

One end of the U-shaped frame (201) is fixedly provided with a third servo speed reducing motor (215), and an output shaft of the third servo speed reducing motor (215) is connected with the end part of the second screw rod (214) through a coupler.