CN220718821U - Automatic processing equipment for mutual inductor - Google Patents

Abstract

The utility model relates to the technical field of transformer processing, in particular to automatic transformer processing equipment, which comprises a frame, a polishing assembly and an adjusting assembly, wherein the polishing assembly is arranged on the frame; the adjusting component comprises a fixed rod, a sliding seat, a shell, a rotating motor, a rotating seat, a clamping member and a driving member, wherein the fixed rod is fixedly connected with the frame, the sliding seat is in sliding connection with the fixed rod, the shell is in sliding connection with the sliding seat, the rotating motor is connected with the shell, the rotating seat is arranged on the rotating motor, after one side of a transformer shell is polished, the rotating motor is started, the rotating motor drives the rotating seat to rotate, and then the rotating seat drives the transformer on the rotating seat to rotate, so that the transformer is turned over, the other side of the transformer is polished conveniently, all sides of the transformer are polished through the steps, and the purposes of turning over the transformer conveniently and improving the processing efficiency are achieved.

Description

Automatic processing equipment for mutual inductor

Technical Field

The utility model relates to the technical field of transformer processing, in particular to automatic transformer processing equipment.

Background

The mutual-inductor needs to polish the casing when processing, and traditional grinding device is inconvenient to polish the inclined plane of casing, need polish the inclined plane through the slope mutual-inductor, inconvenient processing like this.

The prior art CN216967236U discloses a grinding device for processing a high-voltage transformer shell, which comprises a workbench, the top of workstation is fixedly provided with a fixing frame, the inside of fixing frame is fixedly provided with a long rod, the front of fixing frame is fixedly provided with a servo motor, and the other end of the output shaft of the servo motor is fixedly provided with a threaded rod. According to the utility model, the servo motor, the threaded rod, the first movable frame, the limiting blocks and the rotating rod are arranged, and due to the rotation of the rotating rod, the two limiting blocks can be driven to move left and right along the top of the workbench through two sections of opposite threads on the outer surface of the rotating rod, so that the high-voltage transformer shell can be positioned, at the moment, the threaded rod can be rotated due to the operation of the servo motor, and then the first movable frame and the pneumatic cylinder can be driven to move along the outer surface of the long rod through the cooperation of the threaded rod and the first movable frame.

The device can polish the inclined plane of the transformer, but after one side surface of the transformer is polished, the clamping of the transformer needs to be released, then the transformer is turned over to polish the other side, and polishing can be completed only by turning over for many times in the polishing process, so that the polishing efficiency is reduced.

Disclosure of Invention

The utility model aims to provide automatic processing equipment for a transformer, which solves the problem that the polishing efficiency is reduced because the transformer needs to be turned over for many times in the polishing process to finish polishing in the existing polishing device for processing a high-voltage transformer shell.

In order to achieve the above purpose, the utility model provides an automatic processing device for a transformer, which comprises a frame, a polishing assembly and an adjusting assembly, wherein the polishing assembly is arranged on the frame; the adjusting component comprises a fixed rod, a sliding seat, a shell, a rotating motor, a rotating seat, a clamping member and a driving member, wherein the fixed rod is fixedly connected with the frame and is arranged on the frame, the sliding seat is in sliding connection with the fixed rod and is sleeved on the fixed rod, the shell is in sliding connection with the sliding seat and is positioned on one side of the sliding seat, the rotating motor is connected with the shell and is positioned in the shell, the rotating seat is arranged on the rotating motor and is connected with the output end of the rotating motor, the clamping member is arranged on the rotating seat, and the driving member is arranged on the frame.

The clamping component comprises a bidirectional screw rod, a clamping plate and a clamping motor, wherein the bidirectional screw rod is rotationally connected with the rotating seat and is positioned in the rotating seat; the clamping plate is in threaded connection with the bidirectional screw rod and is arranged on the bidirectional screw rod; the clamping motor is connected with the rotating seat and is positioned inside the rotating seat, and the output end of the clamping motor is connected with the bidirectional screw rod.

The driving component comprises a driving motor, a threaded rod and a threaded sleeve, wherein the threaded rod is rotationally connected with the rack and is arranged on the rack; the thread sleeve is in threaded connection with the threaded rod, fixedly connected with the shell and sleeved on the threaded rod; the driving motor is connected with the frame and is positioned at one side of the frame, and the output end of the driving motor is connected with the threaded rod.

The shell comprises a shell body and balls, and is fixedly connected with the threaded sleeve, the slide seat and the rotating motor; the ball is rotatably connected with the shell, is abutted with the rotating seat and is positioned on one side of the shell, which is close to the rotating seat.

The polishing assembly comprises a sliding plate, an air cylinder, a mounting seat, a rotating arm and a polishing roller, wherein the sliding plate is in sliding connection with the frame and is arranged on the frame; the air cylinder is connected with the sliding plate and is arranged on the sliding plate; the mounting seat is arranged on the air cylinder and is connected with the output end of the air cylinder; the rotating arm is rotationally connected with the mounting seat and is arranged on the mounting seat; the polishing roller is rotatably connected with the rotating arm and is arranged on the rotating arm.

The polishing assembly further comprises a worm wheel, a worm and an adjusting motor, wherein the worm wheel is fixedly connected with the rotating arm and is positioned at one side of the rotating arm; the worm is rotationally connected with the mounting seat, is positioned in the mounting seat and meshed with the worm wheel, the adjusting motor is connected with the mounting seat and positioned on one side of the mounting seat, and the output end of the adjusting motor is connected with the worm.

When the automatic processing equipment for the mutual inductor is used, the mutual inductor is placed on the rotating seat, the mutual inductor is clamped and fixed through the clamping member, then the driving member is started to drive the shell to move, and then the shell drives the mutual inductor on the shell to move, so that the mutual inductor moves to the polishing assembly, the shell of the mutual inductor is polished through the polishing assembly, after one side of the shell of the mutual inductor is polished, the rotating motor is started, so that the rotating motor drives the rotating seat to rotate, and then the rotating seat drives the mutual inductor on the rotating seat to rotate, so that the mutual inductor is turned over, the other side of the mutual inductor is polished conveniently, all sides of the mutual inductor are polished through the steps, and the purposes of conveniently turning over the mutual inductor and improving the processing efficiency are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view showing the overall structure of an automatic processing apparatus for a transformer according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of a driving member according to a first embodiment of the present utility model.

Fig. 3 is a schematic view of the installation structure of the bidirectional screw of the first embodiment of the present utility model.

Fig. 4 is a schematic view of the installation structure of the ball according to the first embodiment of the present utility model.

Fig. 5 is a schematic view of a mounting structure of a rotating arm according to a second embodiment of the present utility model.

Fig. 6 is a schematic view of the installation structure of the worm wheel of the second embodiment of the present utility model.

In the figure: 101-frame, 102-sanding assembly, 103-adjustment assembly, 104-fixed bar, 105-slide, 106-housing, 107-rotating motor, 108-rotating seat, 109-clamping member, 110-driving member, 111-bi-directional screw, 112-clamping plate, 113-clamping motor, 114-driving motor, 115-threaded rod, 116-threaded sleeve, 117-housing, 118-ball, 201-sliding plate, 202-cylinder, 203-mount, 204-rotating arm, 205-sanding roller, 206-worm wheel, 207-worm, 208-adjustment motor.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

First embodiment:

referring to fig. 1 to 4, fig. 1 is a schematic view of an overall structure of an automatic transformer processing apparatus, fig. 2 is a schematic view of a driving member, fig. 3 is a schematic view of a mounting structure of a bidirectional screw, and fig. 4 is a schematic view of a mounting structure of a ball.

The utility model provides automatic processing equipment for a mutual inductor, which comprises a rack 101, a polishing assembly 102 and an adjusting assembly 103, wherein the adjusting assembly 103 comprises a fixing rod 104, a sliding seat 105, a shell 106, a rotary motor 107, a rotary seat 108, a clamping member 109 and a driving member 110, the clamping member 109 comprises a bidirectional screw 111, a clamping plate 112 and a clamping motor 113, the driving member 110 comprises a driving motor 114, a threaded rod 115 and a threaded sleeve 116, the shell 106 comprises a shell 117 and a ball 118, the driving member 110 drives the shell 106 to move, the shell 106 can drive the rotary seat 108 and the mutual inductor to move, the mutual inductor can move to the polishing assembly 102 for polishing, and after one side of the mutual inductor shell is polished, the rotary motor 107 is started to drive the rotary seat 108 and the mutual inductor to rotate, so that the other side of the mutual inductor shell is polished conveniently.

For this embodiment, the grinding assembly 102 is disposed on the chassis 101, and the transformer housing 106 is ground by the grinding assembly 102.

Wherein the fixed rod 104 is fixedly connected with the frame 101 and is arranged on the frame 101, the sliding seat 105 is slidably connected with the fixed rod 104 and sleeved on the fixed rod 104, the shell 106 is slidably connected with the sliding seat 105 and is positioned at one side of the sliding seat 105, the rotating motor 107 is connected with the shell 106 and is positioned in the shell 106, the rotating seat 108 is arranged on the rotating motor 107 and is connected with the output end of the rotating motor 107, the clamping member 109 is arranged on the rotating seat 108, the driving member 110 is arranged on the frame 101, the sliding seat 105 and the fixed rod 104 are respectively arranged at two and are respectively positioned at the left side and the right side of the shell 106, so that the shell 106 can move along the direction of the fixed rod 104, the driving member 110 can drive the shell 106 to move, the clamping component 109 can clamp the transformer, when in use, the transformer is placed on the rotating seat 108, the transformer is clamped and fixed by the clamping component 109, then the driving component 110 is started to drive the shell 106 to move, the shell 106 drives the rotating seat 108 and the transformer thereon to move, the transformer is moved to the polishing component 102, the shell of the transformer is polished by the polishing component 102, after one side of the shell of the transformer is polished, the rotating motor 107 is started, the rotating motor 107 drives the rotating seat 108 to rotate, the transformer on the rotating seat 108 is driven to rotate, the transformer is overturned, the other side of the shell of the transformer is polished conveniently, each side of the transformer is polished by the steps, thereby realizing the purpose of conveniently overturning the transformer and improving the processing efficiency.

Secondly, the bidirectional screw 111 is rotatably connected with the rotating seat 108 and is located inside the rotating seat 108; the clamping plate 112 is in threaded connection with the bidirectional screw 111 and is arranged on the bidirectional screw 111; the clamping motor 113 is connected with the rotating seat 108 and is located inside the rotating seat 108, an output end of the clamping motor 113 is connected with the bidirectional screw rod 111, threads on two sides of the bidirectional screw rod 111 are opposite in direction, two clamping plates 112 are arranged and are respectively located on two sides of the bidirectional screw rod 111, when a mutual inductor is fixed, the mutual inductor is placed between the two clamping plates 112, and then the clamping motor 113 is started to drive the bidirectional screw rod 111 to rotate, so that the bidirectional screw rod 111 drives the two clamping plates 112 to approach each other, and the mutual inductor is clamped.

Meanwhile, the threaded rod 115 is rotatably connected with the frame 101 and is disposed on the frame 101; the thread sleeve 116 is in threaded connection with the threaded rod 115, is fixedly connected with the shell 106, and is sleeved on the threaded rod 115; the driving motor 114 is connected with the frame 101 and is located at one side of the frame 101, an output end of the driving motor 114 is connected with the threaded rod 115, the threaded rod 115 is driven to rotate by the operation of the driving motor 114, so that the threaded rod 115 drives the threaded sleeve 116 to move, and the threaded sleeve 116 drives the casing 106 to move, thereby achieving the purpose of driving the casing 106 to move.

In addition, the housing 106 is fixedly connected with the threaded sleeve 116, fixedly connected with the slide 105, and connected with the rotating motor 107; the ball 118 with the casing 117 rotates to be connected, and with rotate seat 108 butt, and is located the casing 117 is close to one side of rotating seat 108, the ball 118 is provided with a plurality ofly, and evenly distributed is in on the casing 117, through the casing 117 with the ball 118 is right rotate seat 108 supports, avoids rotating seat 108's weight is located on the rotating electrical machines 107, simultaneously through the ball 118 with the rotation of casing 117 is connected, reduces rotate seat 108 with friction between the ball 118 promotes rotate seat 108 and rotate the smooth degree when.

When the automatic processing equipment for the transformer is used, the transformer is placed on the rotating seat 108, the transformer is located between the two clamping plates 112, the two clamping plates 112 are driven by the clamping motor 113 to rotate through the two bidirectional screws 111, then the two clamping plates 112 are mutually close to clamp and fix the transformer, then the threaded rod 115 is driven by the driving motor 114 to rotate, the threaded rod 115 is driven to move through the threaded sleeve 116, the threaded sleeve 116 is driven to drive the shell 106, the rotating motor 107 and the rotating seat 108 to move, the rotating seat 108 is driven to drive the transformer to move, the transformer is driven to move to the polishing assembly 102, the shell of the transformer is polished through the polishing assembly 102, after one side of the shell of the transformer is polished, the rotating motor 107 is started to drive the rotating seat 108 to rotate, and then the transformer is driven to rotate, so that the turnover of the transformer is completed, the other side of the shell of the transformer is polished conveniently, and the purpose of improving the processing efficiency is achieved.

Second embodiment:

referring to fig. 5 and 6, fig. 5 is a schematic view of the installation structure of the rotating arm of the second embodiment, and fig. 6 is a schematic view of the installation structure of the worm wheel of the second embodiment, the polishing assembly 102 of the present embodiment includes a sliding plate 201, a cylinder 202, a mounting base 203, a rotating arm 204, a polishing roller 205, a worm wheel 206, a worm 207, and an adjusting motor 208.

For the present embodiment, the sliding plate 201 is slidably connected to the frame 101 and is disposed on the frame 101; the cylinder 202 is connected with the sliding plate 201 and is arranged on the sliding plate 201; the mounting seat 203 is arranged on the air cylinder 202 and is connected with the output end of the air cylinder 202; the rotating arm 204 is rotatably connected with the mounting seat 203 and is arranged on the mounting seat 203; the polishing roller 205 is rotationally connected with the rotating arm 204 and is arranged on the rotating arm 204, a polishing motor is further arranged on the rotating arm 204, the output end of the polishing motor is connected with the polishing roller 205, the polishing roller 205 is driven to rotate through the operation of the polishing motor, the shell of the transformer is polished, the sliding plate 201 can slide on the frame 101 through an external driving structure, the air cylinder 202, the mounting seat 203, the rotating arm 204 and the polishing roller 205 are driven to move, the polishing roller 205 can move forwards and backwards, the transformer shell is polished, the mounting seat 203 is driven by the air cylinder 202, the rotating arm 204 and the polishing roller 205 are lifted, and the polishing roller 205 can polish different positions of the transformer shell.

Wherein, the worm wheel 206 is fixedly connected with the rotating arm 204 and is positioned at one side of the rotating arm 204; the worm 207 with mount pad 203 rotates to be connected, and is located inside the mount pad 203, and with worm wheel 206 meshing, accommodate motor 208 with mount pad 203 is connected, and is located one side of mount pad 203, accommodate motor 208's output with worm 207 is connected, through accommodate motor 208's work drives worm 207 rotates, makes worm 207 drive worm wheel 206 rotates, and then drives rotation arm 204 rotates, thereby adjusts the angle of grinding roller 205, conveniently polishes the inclined plane on the transformer casing, simultaneously through worm wheel 206 with self-locking between worm 207 avoids rotation arm 204 takes place when polishing, influences the polishing to the transformer casing.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (6)

1. An automatic processing device for a mutual inductor comprises a frame and a polishing component, wherein the polishing component is arranged on the frame,

the device also comprises an adjusting component;

the adjusting component comprises a fixed rod, a sliding seat, a shell, a rotating motor, a rotating seat, a clamping member and a driving member, wherein the fixed rod is fixedly connected with the frame and is arranged on the frame, the sliding seat is in sliding connection with the fixed rod and is sleeved on the fixed rod, the shell is in sliding connection with the sliding seat and is positioned on one side of the sliding seat, the rotating motor is connected with the shell and is positioned in the shell, the rotating seat is arranged on the rotating motor and is connected with the output end of the rotating motor, the clamping member is arranged on the rotating seat, and the driving member is arranged on the frame.

2. The automated transformer manufacturing apparatus of claim 1, wherein,

the clamping component comprises a bidirectional screw rod, a clamping plate and a clamping motor, wherein the bidirectional screw rod is rotationally connected with the rotating seat and is positioned in the rotating seat; the clamping plate is in threaded connection with the bidirectional screw rod and is arranged on the bidirectional screw rod; the clamping motor is connected with the rotating seat and is positioned inside the rotating seat, and the output end of the clamping motor is connected with the bidirectional screw rod.

3. The automated transformer manufacturing apparatus of claim 1, wherein,

the driving component comprises a driving motor, a threaded rod and a threaded sleeve, wherein the threaded rod is rotationally connected with the frame and is arranged on the frame; the thread sleeve is in threaded connection with the threaded rod, fixedly connected with the shell and sleeved on the threaded rod; the driving motor is connected with the frame and is positioned at one side of the frame, and the output end of the driving motor is connected with the threaded rod.

4. The automated transformer manufacturing apparatus of claim 3, wherein,

the shell comprises a shell body and balls, and is fixedly connected with the threaded sleeve, the slide seat and the rotating motor; the ball is rotatably connected with the shell, is abutted with the rotating seat and is positioned on one side of the shell, which is close to the rotating seat.

5. The automated transformer manufacturing apparatus of claim 1, wherein,

the polishing assembly comprises a sliding plate, an air cylinder, a mounting seat, a rotating arm and a polishing roller, wherein the sliding plate is connected with the frame in a sliding manner and is arranged on the frame; the air cylinder is connected with the sliding plate and is arranged on the sliding plate; the mounting seat is arranged on the air cylinder and is connected with the output end of the air cylinder; the rotating arm is rotationally connected with the mounting seat and is arranged on the mounting seat; the polishing roller is rotatably connected with the rotating arm and is arranged on the rotating arm.

6. The automated transformer manufacturing apparatus of claim 5, wherein,

the polishing assembly further comprises a worm wheel, a worm and an adjusting motor, wherein the worm wheel is fixedly connected with the rotating arm and is positioned at one side of the rotating arm; the worm is rotationally connected with the mounting seat, is positioned in the mounting seat and meshed with the worm wheel, the adjusting motor is connected with the mounting seat and positioned on one side of the mounting seat, and the output end of the adjusting motor is connected with the worm.