CN213352010U - Automatic compensation device for polishing wheel - Google Patents

Abstract

The embodiment of the application provides a throwing aureola automatic compensation device, and its technical scheme main points are: the method comprises the following steps: the first power part is connected with a workpiece, the first power part drives the workpiece to rotate for polishing, and a measuring part for measuring the rotating speed of the workpiece is arranged on the first power part; a first moving member on which the first power member is provided, the first power member moving based on the first moving member; the second power component is connected with the first moving component and provides power to drive the first moving component to move based on the measuring component. The polishing wheel automatic compensation device provided by the embodiment of the application has the advantages of reducing the burden of workers and improving the product quality.

Description

Automatic compensation device for polishing wheel

Technical Field

The application relates to the technical field of polishing processing, in particular to an automatic compensation device for a polishing wheel.

Background

When polishing irregular edges of stones, polishing operation is generally performed by using a stone polishing wheel, and in the polishing process, the polishing wheel is continuously worn, so that the position of the polishing wheel needs to be adjusted in time to perform position compensation.

In view of the above problems, improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of this application is to provide a polishing wheel automatic compensation device, has the advantage that alleviates staff's burden, improves product quality.

In a first aspect, an embodiment of the present application provides an automatic compensation device for a polishing wheel, and a technical scheme is as follows: the method comprises the following steps:

the first power part is connected with a workpiece, the first power part drives the workpiece to rotate for polishing, and a measuring part for measuring the rotating speed of the workpiece is arranged on the first power part;

a first moving member on which the first power member is provided, the first power member moving based on the first moving member;

the second power component is connected with the first moving component and provides power to drive the first moving component to move based on the measuring component.

Further, in this application embodiment, a second moving part is disposed between the first power part and the first moving part, the first moving part drives the second moving part and the first power part to move, the second moving part drives the first power part to move, and a moving direction of the second moving part is perpendicular to a moving direction of the first moving part.

Further, in the embodiment of the present application, the first power component is a motor, and the workpiece is disposed on an output shaft of the motor.

Further, in the embodiment of the present application, the measuring component is a rotary encoder, and a rotating shaft of the rotary encoder is disposed at an end of the motor output shaft away from the workpiece.

Further, in this application embodiment, the first moving part includes a first fixed plate and a first moving plate, the first fixed plate is fixedly arranged, the first power component is arranged on the first moving plate, a dovetail groove is formed in the first fixed plate, the first moving plate is provided with a dovetail protrusion corresponding to the dovetail groove, and the first moving plate is slidably connected with the first fixed plate based on the cooperation of the dovetail groove and the dovetail protrusion.

Further, in this embodiment of the application, a first lead screw is connected between the first moving plate and the first fixed plate through a thread, the first moving plate is moved by screwing the first lead screw, and the first lead screw is in transmission connection with the second power component.

Further, in this embodiment of the application, the second moving part includes a second fixed plate and a second moving plate, the second fixed plate is disposed on the first moving part, the first power part is disposed on the second moving plate, a dovetail groove is disposed on the second fixed plate, the second moving plate is provided with a dovetail protrusion corresponding to the dovetail groove, and the second moving plate is slidably connected to the second fixed plate based on the fit between the dovetail groove and the dovetail protrusion.

Further, in this embodiment of the application, a second lead screw is connected between the second moving plate and the second fixed plate through a thread, and the second moving plate is moved by screwing the second lead screw.

Further, in the embodiment of the application, a handle is arranged at the tail end of the second lead screw.

Further, in the embodiment of the present application, a connection seat is provided between the second moving member and the first moving member.

Therefore, the polishing wheel automatic compensation device provided by the embodiment of the application adopts the measuring device to measure the real-time rotating speed of the workpiece, the abrasion condition of the workpiece is calculated through the rotating speed of the workpiece, then the second power part moves according to the preset instruction after obtaining the rotating speed and the abrasion condition of the workpiece through the measuring device, the second power part drives the first moving part to move, the first moving part drives the first power part to move, the first power part drives the workpiece to move, and further the purpose of automatic compensation is achieved.

Additional features and advantages of the present application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the embodiments of the present application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an automatic compensation device for a polishing wheel according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of an automatic compensation device for a polishing wheel according to an embodiment of the present disclosure.

Fig. 3 is a side view of an automatic compensation device for a polishing wheel according to an embodiment of the present disclosure.

In the figure: 100. a first power component; 200. processing a workpiece; 300. a measuring part; 400. a first moving member; 500. a second power component; 600. a second moving member; 700. a connecting seat; 401. a first fixing plate; 402. a first moving plate; 403. a first lead screw; 601. a second fixing plate; 602. a second moving plate; 603. a second lead screw; 604. a handle.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 3, an automatic compensation device for a polishing wheel specifically includes:

the polishing machine comprises a first power part 100, a workpiece 200 is connected to the first power part 100, the first power part 100 drives the workpiece 200 to rotate for polishing, and a measuring part 300 for measuring the rotating speed of the workpiece 200 is arranged on the first power part 100; wherein the first power component 100 can be a motor, and the workpiece 200 is a polishing wheel.

A first moving member 400, the first power member 100 being provided on the first moving member 400, the first power member 100 moving based on the first moving member 400;

and a second power member 500, wherein the second power member 500 is connected with the first moving member 400, and the second power member 500 provides power to drive the first moving member 400 to move based on the measuring member 300. Wherein the second power component 500 is a motor.

Through the technical scheme, the real-time rotating speed of the workpiece 200 is measured by the measuring device, the abrasion condition of the workpiece 200 is calculated through the rotating speed of the workpiece 200, then the second power part 500 acts according to a preset instruction after obtaining the rotating speed and the abrasion condition of the workpiece 200 through the measuring device, the second power part 500 drives the first moving part 400 to move, the first moving part 400 drives the first power part 100 to move, the first power part 100 drives the workpiece 200 to move, and therefore the purpose of automatic compensation is achieved, and the automatic compensation system has the advantages of reducing the burden of workers and improving the product quality.

In one embodiment, a second moving member 600 is disposed between the first power member 100 and the first moving member 400, the first moving member 400 drives the second moving member 600 and the first power member 100 to move, the second moving member 600 drives the first power member 100 to move, and the moving direction of the second moving member 600 is perpendicular to the moving direction of the first moving member 400.

Through the technical scheme, the first power part 100 can carry the workpiece 200 to move longitudinally and transversely, so that different production requirements are met.

In one embodiment, the first power component 100 is a motor, and the workpiece 200 is disposed on an output shaft of the motor.

Through above-mentioned technical scheme, use the motor as the power supply, not only simple structure, convenient to use, it is with low costs moreover, be convenient for change and maintain.

In one embodiment, the measuring component 300 is a rotary encoder, and the rotating shaft of the rotary encoder is disposed at one end of the output shaft of the motor far away from the workpiece 200.

Through the technical scheme, the output shaft of motor stretches out from organism both ends, wherein one end is used for being connected with machined part 200, be used for driving machined part 200 and rotate and then accomplish polishing, the other end is used for connecting rotary encoder, thereby rotary encoder learns the rotational speed of machined part 200 through the rotational speed of motor output shaft, again because the wearing and tearing condition and the rotational speed of machined part 200 become positive correlation, namely, the rotational speed is higher, the degree of wear of machined part 200 is higher, wearing and tearing are fast more, the rotational speed is lower, the degree of wear of machined part 200 is lower, wearing and tearing are slow more, therefore rotary encoder can learn the wearing and tearing condition of machined part 200 through the rotational speed of motor output shaft. In addition, in the actual processing process, when the polishing wheel normally works, the rotating speed of the motor is 2780 r/min, so that the rotating speed of the motor is constant at 2780 r/min through feedback adjustment, the polishing wheel is worn in a relatively stable trend, and further, when the second power part 500 drives the first moving part 400 to move, the polishing wheel can move at a relatively stable moving speed.

In one embodiment, the first moving part 400 includes a first fixed plate 401 and a first moving plate 402, the first fixed plate 401 is fixedly disposed, the first power part 100 is disposed on the first moving plate 402, the first fixed plate 401 has a dovetail groove, the first moving plate 402 has a dovetail protrusion corresponding to the dovetail groove, and the first moving plate 402 and the first fixed plate 401 are slidably connected based on the fit between the dovetail groove and the dovetail protrusion. The first fixing plate 401 is fixedly disposed on another machine. A first lead screw 403 is connected between the first moving plate 402 and the first fixing plate 401 through a thread, the first moving plate 402 is moved by screwing the first lead screw 403, and the first lead screw 403 is in transmission connection with the second power unit 500.

Through the above technical solution, the second power component 500 provides power to drive the first lead screw 403 to rotate, the first lead screw 403 drives the first moving plate 402 to slide on the first fixing plate 401, and the first moving plate 402 drives the first power component 100 and the workpiece 200 to move, so as to achieve the purpose of wear compensation.

In one embodiment, the second moving member 600 includes a second fixed plate 601 and a second moving plate 602, the second fixed plate 601 is disposed on the first moving member 400, the first power member 100 is disposed on the second moving plate 602, a dovetail groove is formed on the second fixed plate 601, the second moving plate 602 is provided with a dovetail protrusion corresponding to the dovetail groove, and the second moving plate 602 and the second fixed plate 601 are slidably connected based on the cooperation between the dovetail groove and the dovetail protrusion. A second lead screw 603 is connected between the second moving plate 602 and the second fixing plate 601 through a thread, and the second moving plate 602 is moved by screwing the second lead screw 603.

Through the above technical scheme, the second moving plate 602 slides on the second fixing plate 601 by screwing the second lead screw 603, and then drives the first power component 100 and the workpiece 200 to move, in this embodiment, the first moving component 400 realizes the movement of the first power component 100 and the workpiece 200 in the horizontal direction, the workpiece 200 performs polishing processing in the horizontal direction, the second moving component 600 realizes the movement of the first power component 100 and the workpiece 200 in the vertical direction, and the height adjustment can be performed in the vertical direction.

In one embodiment, the end of the second lead screw 603 is provided with a handle 604.

Through the technical scheme, the handle 604 is used for facilitating the operator to screw the second lead screw 603, so that the height adjustment of the first power part 100 and the workpiece 200 is realized.

In one embodiment, a connection seat 700 is provided between the second moving member 600 and the first moving member 400. Wherein, the connecting seat 700 is L-shaped.

Through the above technical scheme, in this embodiment, the first moving member 400 is convenient for installation, so for horizontal setting, the first moving member 400 carries out the ascending removal of horizontal direction, and the first power component 100 is vertical setting, and its purpose is in order to drive the machined part 200 and rotate in the horizontal direction, and then accomplish the polishing processing on the horizontal direction, consequently realizes being connected of first power component 100 and first moving member 400 through the connecting seat 700 of L-shaped.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An automatic compensation device for a polishing wheel, comprising:

the first power part is connected with a workpiece, the first power part drives the workpiece to rotate for polishing, and a measuring part for measuring the rotating speed of the workpiece is arranged on the first power part;

a first moving member on which the first power member is provided, the first power member moving based on the first moving member;

the second power component is connected with the first moving component and provides power to drive the first moving component to move based on the measuring component.

2. The automatic compensation device for polishing wheels according to claim 1, wherein a second moving member is disposed between the first moving member and the first moving member, the first moving member drives the second moving member and the first moving member to move, the second moving member drives the first moving member to move, and the moving direction of the second moving member is perpendicular to the moving direction of the first moving member.

3. The automatic compensating device for polishing wheel according to claim 1, wherein the first power unit is a motor, and the workpiece is disposed on an output shaft of the motor.

4. The automatic compensating device for a polishing wheel according to claim 3, wherein the measuring component is a rotary encoder, and a rotating shaft of the rotary encoder is arranged at one end of the motor output shaft far away from the workpiece.

5. The automatic compensation device for the polishing wheel according to claim 1, wherein the first moving part comprises a first fixed plate and a first moving plate, the first fixed plate is fixedly arranged, the first power part is arranged on the first moving plate, a dovetail groove is formed in the first fixed plate, the first moving plate is provided with a dovetail bump corresponding to the dovetail groove, and the first moving plate is slidably connected with the first fixed plate based on the matching between the dovetail groove and the dovetail bump.

6. The automatic compensation device for the polishing wheel according to claim 5, wherein a first lead screw is connected between the first moving plate and the first fixed plate through a screw thread, and the first lead screw is in transmission connection with the second power component by screwing the first lead screw to move the first moving plate.

7. The automatic compensation device for the polishing wheel according to claim 2, wherein the second moving part comprises a second fixed plate and a second moving plate, the second fixed plate is disposed on the first moving part, the first power part is disposed on the second moving plate, a dovetail groove is disposed on the second fixed plate, the second moving plate is provided with a dovetail protrusion corresponding to the dovetail groove, and the second moving plate is slidably connected with the second fixed plate based on the matching between the dovetail groove and the dovetail protrusion.

8. The automatic compensating device for polishing wheel according to claim 7, wherein a second lead screw is connected between the second moving plate and the second fixed plate through a screw thread, and the second moving plate is moved by screwing the second lead screw.

9. The automatic compensating device for polishing wheel according to claim 8, wherein the second lead screw is provided with a handle at its end.

10. The automatic compensating device for polishing wheel according to claim 2, wherein a connecting seat is provided between the second moving member and the first moving member.

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