KR100569242B1 - Grinder having a Dust Collecting Structure - Google Patents

Abstract

The present invention relates to a grinder having a dust collecting structure, is formed having a predetermined width and size, and a grinder body (10) having a rotating shaft (12) for transmitting a rotational force of the driving means (11) inside the body;

An abrasive member 20 which is fixed to the rotary shaft 12 of the grinder body 10 and rotates together to polish the workpiece;

In the rotating shaft (12) of the grinder body (10) is provided dust collecting means (30) which can suck out the dust generated during the grinding process to the outside of the grinder body (10);

The dust collecting means 30 is formed with a hollow hollow 13 of the rotating shaft 12, a plurality of inlet holes (12a) is formed on the outer peripheral surface of the lower side of the rotating shaft 12, the shaft is axially The upper portion of the polishing member 20 is provided with a plurality of suction holes 21 in communication with the inner side, the upper portion of the rotating shaft 12 is configured by connecting the outer suction means 40 and the connection pipe 45 Therefore, by sucking the dust generated during the grinding process through the suction means 40 from the outside of the grinder body 10 it is possible to prevent the workability and productivity degradation that was a problem in the working process.

Therefore, it is a very useful invention that can increase the reliability and productability of the product.

Grinder, Dust Collector, Rotating Shaft

Description

Grinder having a Dust Collecting Structure}             

1 is a cross-sectional view showing a grinder having a dust collecting structure of the present invention.

Figure 2 is an enlarged view showing the configuration of the rotation shaft and the inlet hole of the grinder having the dust collector of the present invention.

Figure 3 is a perspective view showing a state of use of the present invention grinder.

* Description of the symbols for the main parts of the drawings *

10-grinder body 11-drive means

12-axis of rotation 12a-inlet hole

13-hollow 14-threaded

15-Motor 16-Drive Shaft

17-Bevel Gears 18-Bearings

20-abrasive

21-Suction Hole 22-Cover

23-cushioning part 24-polishing part

25-space part 30-dust collecting means

40-Suction unit 45-Connector

The present invention relates to a grinder having a dust collecting structure, and more particularly, to form a dust collecting means in the rotary part of the grinder to immediately collect the dust generated during the operation to significantly improve the work efficiency and working environment.

In general, grinders are a kind of grinding tools used in woodworking and stone processing.

That is, for example, a grinder for polishing surfaces of various building interiors, exterior materials, and the like is to rotate at a high speed while fixing a polishing head and an abrasive plate on a drive shaft to polish a surface of a workpiece such as a stone.

Typically, the grinder has a disk-shaped abrasive plate, and the surface of the abrasive plate is subjected to a polishing process such as sand paper, thereby polishing the surface of the workpiece by rotating at a high speed in close contact with the surface of the workpiece.

The grinder includes a drive unit formed at a predetermined position of the body, a polishing head installed on the rotation shaft of the drive unit, an abrasive plate provided on the bottom surface of the polishing head, and a fixing unit interconnecting the polishing head and the abrasive plate to the rotation shaft. Is made large.

Therefore, the grinder is to polish the surface of the workpiece, such as buildings, using friction by high speed rotation.

The conventional grinder structured as described above has a structure in which the surface is polished by simply rubbing a polishing member rotating at a high speed on the surface of the object to be processed. Therefore, a large amount of dust is generated during the machining operation, which makes it difficult to work. .

That is, a large amount of dust and stone are generated when the surface of the object and the polishing member are rotated at a high speed to generate a large amount of dust and stone. There was a dislocation that caused.

In addition, it is impossible to precisely grind the worker's view during the grinding process, and additional equipment such as a mask or safety glasses is required to protect the worker from dust. There was not enough to protect the problem.

In addition, for example, in the case of indoor interior work, the workplace is contaminated with dust, which causes inconvenience to perform dust removal work after work, and also causes pollution of the indoor environment.

An object of the present invention is to provide a grinder having a dust collecting structure to form a dust collecting means on the grinder rotation axis to greatly improve the work efficiency.

Another object of the present invention is to provide a grinder having a dust collecting structure to maintain the working environment in more comfortable conditions.

Another object of the present invention is to provide a grinder having a dust collecting structure to improve the reliability and productability of the product.

An object of the present invention is formed with a predetermined width and size, the inside of the body grinder body having a rotary shaft 12 for transmitting the rotational force of the drive means 11;

An abrasive member 20 which is fixed to the rotary shaft 12 of the grinder body 10 and rotates together to polish the workpiece;
In the rotating shaft (12) of the grinder body (10) is provided dust collecting means (30) which can suck out the dust generated during the grinding process to the outside of the grinder body (10);
The dust collecting means 30 is formed with a hollow hollow 13 of the rotating shaft 12, a plurality of inlet holes (12a) is formed on the outer peripheral surface of the lower side of the rotating shaft 12, the shaft is axially The upper portion of the polishing member 20 is provided with a plurality of suction holes 21 in communication with the inner side, the upper portion of the rotating shaft 12 is configured by connecting the outer suction means 40 and the connection pipe 45 Is achieved.

delete

Therefore, the grinder having the dust collecting structure of the present invention is configured to make the rotary shaft 12 and the polishing member 20 of the grinder body 10 communicate with each other during the polishing process through the suction means 40 on the outside of the grinder body 10. Since the dust collecting means 30 is formed to suck and generate the dust generated, it is possible to prevent workability and productivity deterioration, which were a problem in the working process.

Therefore, the reliability of the product can be increased.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 shows a grinder having a dust collecting structure of the present invention in a cross-sectional view showing a state in which the rotary shaft of the grinder body and the polishing member communicate with each other at the center portion to absorb dust generated during polishing processing through an external suction means have.

Figure 2 is an enlarged view of the main portion showing the configuration of the rotary shaft and the inlet hole of the grinder having the dust collector of the present invention.

3 is a perspective view showing a state of use of the present invention grinder.

That is, as shown in Figure 1 to Figure 3, the grinder body 10 of the grinder having a dust collecting structure of the present invention is formed having a predetermined width and size, the inside of the body for transmitting the rotational force of the drive means (11) The rotating shaft 12 is provided.

The rotary shaft 12 is connected to the drive shaft 16 and the bevel gear 17 of the motor 15, the drive means 11 serves to transmit the rotational force generated through the drive shaft 16.

In addition, the rotation shaft 12 is a configuration in which the rotational force is connected to the drive shaft 16 and the bevel gear 17 of the motor 15, but the rotation shaft 12 and the drive shaft 16 in accordance with the characteristics and characteristics of the product, etc. Note that it can be formed directly in the drive shaft 16 rather than the method.

On the other hand, the rotary shaft 12 of the grinder body 10 is formed with a dust collecting means 30 that can suck out the dust generated during the grinding process to the outside of the grinder body 10.

The dust collecting means 30 is formed by forming the rotating shaft 12 as a hollow hollow portion 13 and drilling a plurality of suction holes 21 in communication with the inner side.

Then, the upper portion of the rotary shaft 12 is connected to the connecting pipe 45 to be connected to the suction means 40 on the outside.

The rotary shaft 12, which is the dust collecting means 30, is composed of a hollow hollow tube as shown in the drawing, and a lower portion of the body is formed with a screw portion 14 to be coupled with the polishing member 20.

In addition, the lower outer peripheral surface of the rotary shaft 12 may be used to form a plurality of inlet holes (12a) for the smooth inflow of dust.

Therefore, since a plurality of inflow holes 12a are formed on the lower outer surface of the rotating shaft 12, dust is introduced into the inner hollow portion 13 through the lower end of the rotating shaft 12, and also through the inflow hole 12a of the outer peripheral surface. At the same time, dust can be introduced to maximize the suction efficiency.

On the other hand, the polishing member 20 is a polishing portion formed of a lower surface of the buffer portion 23 and the buffer portion 23 and the cover 22 and the lower portion of the cover 22 that is axially rotated on the body portion It consists of 24.

In addition, a plurality of suction holes 21 are formed in the upper portion of the body of the polishing member 20 to communicate with the inside.

That is, the suction hole 21 of the polishing member 20 is configured to move the dust generated during the polishing process to the suction means 40 through the hollow portion 13 of the rotating shaft 12.

This is because dust generated by friction in the polishing process is first introduced into the inside through a plurality of suction holes 21 due to the suction force of the suction means 40, and then the hollow portion 13 and the connection pipe 45 of the rotary shaft 12 Inhaled and discharged to the suction means 40 through).

In addition, the fine dust generated during the polishing process is also introduced to the inside through the moving hole (23a) of the buffer portion 23 is to be naturally moved to the upper and discharged to the suction means (40).

Therefore, it is preferable to form the suction hole 21 in the body of the buffer part 23.

The shock absorbing portion 23 is composed of the upper surface of the polishing portion 24 of the polishing member 20 to support the polishing portion 24, and also constitutes a sponge material that performs a buffering role. It can be forced out through 40).

In addition, the cover 22 and the shock absorbing portion 23 of the polishing member 20 serve to support the polishing portion 24 from the rear side.

Therefore, the cover 22 of the polishing member 20 is preferably configured to be inclined downward from the upper center so as to form a predetermined space 25 inward.

That is, the cover 22 of the polishing member 20 is configured to protrude to the center and inclined downward as shown in the figure so as to secure a predetermined space 25 at the upper portion of the buffer portion 23 below the body. It is possible to secure a space for collecting and discharging dust generated during the polishing process.

The cover 22 constituting the polishing member 20 is screwed with the threaded portion 14 formed below the rotating shaft 12 to serve to fix the polishing member 20 to the rotating shaft 12, and thus driving means. During the rotational drive by 11, the polishing member 20 may perform a polishing process while rotating at a high speed such as the rotation shaft 12.

Therefore, the grinder having the dust collecting structure according to the present invention may be polished through the suction means 40 on the outside of the grinder body 10 while configuring the inner rotating shaft 12 of the grinder body 10 and the polishing member 20 to communicate with each other. The dust collecting means 30 is formed to suck and discharge the dust generated during the formation, it is possible to prevent the workability and productivity degradation that was a problem during the work process.

On the other hand, since the suction means 40 for suctioning and discharging the dust generated during the polishing process is a general configuration that sucks air by the rotational force of the motor, such as a vacuum cleaner, it will not be described in detail.

In addition, a bearing 18 is installed at an upper portion of the rotary shaft 12 which is installed in association with the driving means 11 at the inner side of the grinder body 10, so that the rotating shaft 12 may be configured to induce smooth rotational force. Do.

In addition, the upper portion of the rotary shaft 12 is formed with a connecting pipe 45 for interconnecting the suction means 40 and the rotary shaft 12.

That is, since the connecting pipe 45 is installed in a configuration surrounding the rotating shaft 12 from the outside supporting the bearing 18 as shown in FIG. 2, the connecting pipe 45 is correlated with the rotation of the rotating shaft 12. Without being able to easily move the dust is sucked out through the rotating shaft 12 to the suction means (40).

Therefore, the dust generated during the polishing process can be continuously sucked out and discharged during the work through the suction means 40 at the central portion of the rotary shaft 12 and the polishing member 20, thereby improving the workability and productivity. will be.

According to the configuration of the present invention as described above, the dust generated during the polishing process can be sucked out to the outside through the dust collecting means at the same time as the working process, it is possible to improve the work convenience.

In addition, since the work can be performed while processing the dust generated during the work quickly, it is possible to improve the work productivity.

Therefore, it is a very useful invention that can improve the reliability of the product.

Claims (3)

It is formed having a predetermined width and size, the inside of the body and the grinder body having a rotary shaft 12 for transmitting the rotational force of the drive means 11; An abrasive member 20 which is fixed to the rotary shaft 12 of the grinder body 10 and rotates together to polish the workpiece; In the rotating shaft (12) of the grinder body (10) is provided dust collecting means (30) which can suck out the dust generated during the grinding process to the outside of the grinder body (10); The dust collecting means 30 is formed with a hollow hollow 13 of the rotating shaft 12, a plurality of inlet holes (12a) is formed on the outer peripheral surface of the lower side of the rotating shaft 12, the shaft is axially The upper portion of the polishing member 20 is provided with a plurality of suction holes 21 in communication with the inside, the upper portion of the rotating shaft 12 is configured by connecting the suction means 40 and the connection pipe 45 of the outer side. Grinder having a dust collecting structure characterized in that. delete delete

Images