KR102475717B1 - Polishing device applied to parts processing equipment for industrial facilities - Google Patents

Abstract

The present invention relates to a polishing device applied to component machining equipment for industrial facilities. The disclosed polishing device is mounted on component machining equipment for industrial facilities, which includes: an equipment main body; an equipment machining unit installed inside the equipment main body to machine a workpiece which is a component for industrial facilities and is applied to the industrial facilities; and an equipment control unit controlling the operation of the equipment machining unit, to polish the surface of the workpiece. The polishing device comprises a main body member, a first rotating member, a second rotating member, a rotational force transmitting member, and a polishing member. Accordingly, the polishing device allows for consecutive polishing work on the surface of the workpiece of which shape machining has been completed in the component machining equipment for industrial facilities, without moving to another location after the shape processing is complete. Therefore, the polishing device can reduce machining time of products and improve product quality by preventing product defects caused by scratches and the like during movement of the workpiece.

Description

Polishing device applied to parts processing equipment for industrial facilities}

The present invention relates to a polishing device applied to parts processing equipment for industrial facilities.

Parts processing equipment for industrial facilities includes an equipment body, an equipment processing unit installed inside the equipment body to process processed products and jigs, etc., which are parts for industrial facilities applied to industrial facilities, and an equipment control unit for controlling the operation of the equipment processing unit Including, a machining center and the like can be presented as an example.

What can be presented as an example of such industrial facility parts processing equipment is the patent document presented below.

Since the surface of the parts for industrial facilities processed by the parts processing equipment for industrial facilities is relatively rough, a polishing operation is necessarily performed before being used in the industrial facilities. Conventionally, after processing in the parts processing equipment for industrial facilities, a separate By moving to the polishing device of the polishing machine to perform the polishing operation, not only product defects occur due to stamping due to external impact during movement, but also when the size of the industrial facility part is large, due to the predetermined size of the polishing machine, There was a problem that the quality of the product deteriorated because it was difficult to perform the polishing operation.

Registered Patent No. 10-1823786, Registration Date: 2018.01.24., Title of Invention: Machining Center

The present invention is abrasive applied to parts processing equipment for industrial facilities capable of performing a polishing operation on the surface of the processing object in the parts processing equipment for industrial facilities without moving to another place after the object is processed in the parts processing equipment for industrial facilities. One object is to provide a device.

An abrasive device applied to parts processing equipment for industrial facilities according to an aspect of the present invention includes an equipment body, an equipment processing unit installed inside the equipment body and processing an object to be processed, which is a part for industrial facilities applied to industrial facilities, and the above Mounted on part processing equipment for industrial facilities including an equipment control unit for controlling the operation of the equipment processing unit and polishing the surface of the object to be processed, the body member; a first rotational member rotatably connected to the main body member and connected to the equipment processing-side rotational shaft so as to be rotated by receiving rotational force of the equipment processing-side rotational shaft constituting the equipment processing unit; a second rotational member disposed perpendicular to the first rotational member and rotated by receiving rotational force from the first rotational member; a rotational force transmitting member connected between the first rotational member and the second rotational member to transmit rotational force supplied to the first rotational member to the second rotational member; an abrasive member coupled to the distal end of the second rotating member to abrade the object to be processed; and an air jet that is installed inside the parts processing equipment for industrial facilities and blows air to the object to be processed so that foreign substances generated from the object to be processed when the object is polished by the abrasive member are removed from the object to be processed. and a member, wherein the air blowing member is connected to the air blowing body coupled to the equipment processing unit and having an empty space formed therein, and is connected to the air blowing body and communicates with the inside of the air blowing body, and the outside of the air blowing body. an air supply unit for supplying air from the inside of the air jet body, connected to a part of the air jet body spaced apart from the air supply unit, and communicating with the inside of the air jet body to jet the air toward the object to be processed; An air blowing unit and an abrasive foreign matter splash prevention unit preventing the abrasive foreign matter separated from the object to be processed by the air blowing through the air blowing unit from bouncing toward the equipment processing unit, wherein the abrasive foreign material splash prevention unit An inflatable body formed of a predetermined length outside the air jetting unit and made of an elastic material, and a portion of the air flowing inside the air jetting unit and the inside of the air jetting unit so that part of the air flows into the inflatable body. An expansion-side communication hole communicating the inside thereof, and an expansion-side discharge hole through which a plurality of the inflatable body is spaced apart from the side facing the processing object to discharge the air introduced into the inflatable body toward the processing object; , a spray-side discharge hole through which another part of the air flowing inside the air blowing part is discharged, formed through the lower part of the inflatable body among the air blowing parts, and a lower part of the blowing-side discharge hole outside the air blowing part. and an air guide protruding body protruding to a predetermined length along the longitudinal direction of the inflatable body and guiding the movement of the air discharged through the ejection side discharge hole, and supplied from the air supply unit to the air jetting unit. Some of the flowing air Another part of the air introduced into the inflatable body and flowing from the air blowing part is discharged to the outside of the air blowing part through the ejection side discharge hole, and the expanded air among the air flowing from the air blowing part Except for what flows into the sieve and is discharged through the discharge hole on the ejection side, the rest is discharged toward the object to be processed through the end of the air ejection part, and some of the air supplied from the air supply part and flowing in the air ejection part is It is introduced into the inside of the inflatable body through the expansion-side communication hole, inflates the inflatable body, and then is discharged through the expansion-side discharge hole, and the inflated inflatable body covers the upper space of the object to be processed and simultaneously discharges the expansion-side. As the air is discharged through the hole, splashing of the abrasive foreign matter toward the equipment processing unit can be prevented, and another part of the air supplied from the air supply unit and flowing in the air blowing unit passes through the ejection hole. After being discharged through the air guide protrusion, it flows along the surface of the air guide protrusion to form negative pressure in the negative pressure forming space, which is a space surrounded by the inflatable body, the air blowing part, and the air guide protrusion, and the expansion The air is discharged through the expansion-side discharge hole as the inflatable body is pulled toward the air guide projection by negative pressure generated in the negative pressure forming space, which is a space surrounded by the sieve, the air blowing part, and the air guide projection. It is characterized in that the phenomenon that the inflatable body is relatively far away from the object to be processed can be prevented by the repulsive force generated at the time of processing.

According to an abrasive device applied to parts processing equipment for industrial facilities according to an aspect of the present invention, an equipment body, and an equipment processing unit installed inside the equipment body and processing an object to be processed, which is a part for industrial facilities applied to industrial facilities, , A polishing device mounted on parts processing equipment for industrial facilities including an equipment control unit for controlling the operation of the equipment processing unit and applied to parts processing equipment for industrial facilities for polishing the surface of the object to be processed, comprising: a body member and a first rotation As it includes a member, a second rotational member, a rotational force transmission member, and an abrasive member, after the shape processing of the object to be processed is completed in the parts processing equipment for industrial facilities, without moving to another place, in the parts processing equipment for industrial facilities A polishing operation can be performed on the surface of the object to be processed after the shape processing has been completed, thereby shortening the processing time of the product and improving product quality by preventing product defects caused by nicks during the movement of the object to be processed. There is an effect that can be done.

1 is a view showing the appearance of parts processing equipment for industrial facilities equipped with a polishing device applied to the parts processing equipment for industrial facilities according to an embodiment of the present invention.
Figure 2 is a view schematically showing a polishing device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention.
3 is a vertically cut view of some configurations of a polishing device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention.
Figure 4 is an enlarged view of a part of an air blowing member constituting a polishing device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention.
5 is an enlarged view of another portion of an air blowing member constituting a polishing device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention.
6 is an enlarged view of a portion of FIG. 5;

Hereinafter, a polishing device applied to parts processing equipment for industrial facilities according to embodiments of the present invention will be described with reference to the drawings.

1 is a view showing the appearance of parts processing equipment for industrial facilities equipped with a polishing device applied to the parts processing equipment for industrial facilities according to an embodiment of the present invention, and FIG. 2 is a part for industrial facilities according to an embodiment of the present invention. It is a schematic view of a polishing device applied to processing equipment, and FIG. 3 is a vertically cut view of a part of a polishing device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention. FIG. An enlarged view of a portion of an air blowing member constituting an abrasive device applied to parts processing equipment for industrial facilities according to an embodiment of the present invention, and FIG. 5 is applied to parts processing equipment for industrial facilities according to an embodiment of the present invention. This is an enlarged view of another part of the air blowing member constituting the polishing device, and FIG. 6 is an enlarged view of a part of FIG. 5 .

1 to 6 together, the polishing device 100 applied to the parts processing equipment for industrial facilities according to the present embodiment is installed inside the equipment main body 11 and the equipment main body 11, so that the industrial facility Parts processing equipment for industrial facilities (10) including an equipment processing unit (12) in which a processing object (30), which is a part for industrial facilities to be applied, is processed, and an equipment control unit (16) for controlling the operation of the equipment processing unit (12) It is mounted on and polishes the surface of the object to be processed 30, and the body member 110, the first rotation member 115, the second rotation member 120, the rotational force transmission member 125, and the polishing It includes member 130.

The equipment processing unit 12 is rotatably connected to the equipment processing-side rotation shaft 13 rotated to process the processing object 30, and the equipment processing-side rotation shaft 13 is rotatably connected to the inside of the equipment body 11 A rotating shaft movable body 14 that is movably installed in the equipment processing side rotating shaft 13 is moved for processing of the processing object 30, and the processing object 30 for processing the processing object 30 ) It includes a seat 15 for securely seating.

The body member 110 forms an outer frame of the polishing device 100 applied to the parts processing equipment for industrial facilities, and the first rotating member 115 and the second rotating member 120 are formed therein. , The rotational force transmission member 125 is installed.

The body member 110 is bent vertically at the first body case 111 formed to a predetermined length along the longitudinal direction of the equipment processing side rotation shaft 13 and the lower end of the first body case 111. Including the formed second body case 112, it is formed in a 'b' shape as a whole.

In this embodiment, the first body case 111 and the second body case 112 are integrally formed.

Reference numeral 113 denotes fixing the first body case 111 and the main body inserted into the rotating shaft movable body 14 while being coupled to the first body case 111 so that the position of the first body case 111 is fixed. it's a pin

The first rotating member 115 is rotatably connected to the body member 110 and rotates by receiving the rotational force of the equipment processing side rotation shaft 13 constituting the equipment processing part 12. It is connected to the rotating shaft 13 on the processing side of the equipment.

The first rotation member 115 includes an insertion rotation unit 116 and a rotation shaft 117 (shaft).

The insertion rotation part 116 is disposed on the upper side of the rotation shaft 117, is formed in a cone shape that gradually converges toward the upper side, and at least a part is inserted into the equipment processing side rotation shaft 13 It is connected to the rotating shaft 13 on the processing side of the equipment in the form.

When power is supplied to the industrial facility parts processing equipment 10 from the outside, the equipment processing-side rotational shaft 13 is rotated by the equipment control unit 16, and the insertion inserted into the equipment processing-side rotational shaft 13 The rotating part 116 also receives the rotational force of the equipment processing-side rotational shaft 13 and becomes rotatable together with the equipment processing-side rotational shaft 13 .

The rotating shaft 117 is formed to have a predetermined length in the vertical direction, which is the longitudinal direction of the equipment processing side rotating shaft 13, at the lower side of the insertion rotating part 116.

The insertion rotation part 116 and the rotation shaft 117 may be integrally formed, or may be separately formed and then combined by bolting or welding.

As described above, when the equipment processing side rotation shaft 13 is rotated by the equipment control unit 16 as the insertion rotation unit 116 is connected to the equipment processing side rotation shaft 13, the insertion rotation unit 116 and the equipment processing side rotation shaft 13 are rotated. The rotating shaft 117 can be rotated together.

The second rotating member 120 is formed in the shape of a shaft having a predetermined length, is disposed perpendicular to the first rotating member 115, receives rotational force from the first rotating member 115, and rotates the first rotating member 120. It is rotated perpendicular to the direction of rotation of the rotating member 115 .

The rotation axis of the first rotation member 115 and the rotation axis of the second rotation member 120 are perpendicular to each other.

The rotational force transmission member 125 is connected between the first rotational member 115 and the second rotational member 120 to transfer the rotational force supplied to the first rotational member 115 to the second rotational member 120. By transferring to, a bevel gear or the like can be presented as an example.

The rotational axis of the rotational shaft 117 constituting the first rotational member 115 and the rotational axis of the second rotational member 120 are disposed perpendicular to each other, and the rotational force transmission member 125 is connected to the rotational shaft 117 ) is transmitted to the second rotating member 120.

In detail, the rotational force transmission member 125 is formed at the distal end of the rotational shaft 117 and is disposed on the ring gear 126 that rotates together with the rotational shaft 117 and the second rotational member 120. It includes a pinion gear 127 engaged with the driving gear and rotated.

The rotational force of the equipment processing side rotating shaft 13 is transmitted to the first rotational member 115 to rotate the first rotational member 115, and the rotational force of the first rotational member 115 is transmitted to the ring gear 126 ) and the pinion gear 127, the second rotation member 120 can be rotated together with the first rotation member 115.

The polishing member 130 is coupled to the distal end of the second rotating member 120 to polish the surface of the object 30 to be processed, more precisely, the object 30 to be processed.

A through hole having a size corresponding to the outer diameter of the second rotating member 120 is formed in the central portion of the polishing member 130, and the through hole of the polishing member 130 is inserted into the second rotating member 120. The second rotation member 120 and the abrasive member 130 are connected in a form, and accordingly, when the second rotation member 120 rotates, the abrasive member 130 rotates together with the object to be processed ( 30) to polish the surface.

Meanwhile, in the present embodiment, the polishing device 100 applied to the parts processing equipment for industrial facilities further includes an air blowing member 140.

The air blowing member 140 is installed inside the part processing equipment 10 for industrial facilities, and when the processing object 30 is polished by the polishing member 130, the processing object 30 generates Air is blown onto the object 30 to remove abrasive foreign substances from the surface of the object 30 .

In detail, the air blowing member 140 includes an air blowing body 141, an air supplying part 142, an air blowing part 143, and an abrasive foreign matter splash preventing part 150.

The air blowing body 141 is coupled to the rotating shaft movable body 14 constituting the equipment processing unit 12, and has a rectangular parallelepiped shape and has an empty space formed therein.

Reference numeral 144 is a spraying body-side connecting body interposed between the rotating shaft moving body 14 and the air blowing body 141 to connect the air blowing body 141 to the rotating shaft moving body 14.

In this embodiment, at least a part of the rotary shaft movable body 14 is made of a magnetic material, and at least a part of the injection body-side connection body 144 is formed of a magnet, so that the jet body-side connection body 144 is the rotary shaft movable body ( 14) is detachably connected.

The air supply unit 142 is connected to the air injection body 141 and communicates with the inside of the air injection body 141, and supplies air from the outside to the inside of the air injection body 141, and the gas pipe etc. can be presented as an example.

The air supply unit 142 moves the air generated from the air generating unit 20 such as an air compressor installed outside toward the air blowing body 141 .

The air blowing part 143 is connected to a part of the air blowing body 141 spaced apart from the air supplying part 142, and is in communication with the inside of the air blowing body 141 to move toward the object 30. to blow air.

The air blowing part 143 has a predetermined length while its one end is connected to the air blowing body 141, and is formed in a plurality of corrugated shapes, so that it has various shapes depending on the installation position or size of the abrasive member 130. can be formed with

For example, when the size of the abrasive member 130 connected to the second rotating member 120 is relatively large and the separation distance from the air blowing part 143 is relatively close, the air blowing part 143 The abrasive member 130 formed in a curved shape with a curvature and connected to the second rotating member 120 is used for a long time and the size is relatively reduced, so that the distance between the air blowing part 143 and the air blowing part 143 When is relatively far away, the air blowing part 143 is formed in a straight line shape.

An air flow hole 146 is formed in the air blowing part 143 along the length direction of the air blowing part 143, and moves from the air supply part 142 to the inside of the air blowing body 141. The air that has been released is located relatively far from the air blowing body 141 from one side relatively close to the air blowing body 141 through the air flow hole 146 formed in the air blowing part 143. After flowing to the other side, it is sprayed toward the object 30 to be processed.

Reference numeral 145 denotes a flow path disposed relatively close to the air blowing body 141 among the air blowing parts 143 and opening and closing the inside to control the flow of the air through the air supplying part 142. is an on-off valve.

The abrasive foreign matter splash prevention part 150 prevents the abrasive foreign matter from being splashed toward the equipment processing part 12 from the processing object 30 by the air injection through the air blowing part 143 .

In detail, the abrasive foreign matter splash prevention unit 150 includes an inflatable body 151, an expansion-side communication hole 152, an expansion-side discharge hole 153, a spray-side discharge hole 154, and an air guide protrusion (155).

The inflatable body 151 is formed to a predetermined length on the outside of the air blowing unit 143 and is made of an elastic material such as rubber to be elastically deformed.

The inflatable body 151 has a relatively small width compared to its length and is formed in an oval shape with a predetermined length along the outer direction of the air blowing part 143 .

The expansion-side communication hole 152 allows some of the air flowing in the air flow hole 146, which is the inside of the air blowing part 143, to flow into the inflatable body 151 ( 143) and the inside of the inflatable body 151 are communicated.

Some of the air flowing through the air flow hole 146 moves into the inflatable body 151 through the expansion-side communication hole 152, and the air moves into the inflatable body 151. As a result, the inflatable body 151 is inflated in the width direction.

In detail, when the air does not flow in the air flow hole 146 because the air is not supplied from the air supply unit 142, the inflatable body 151 is formed in a form in which inner surfaces thereof are contracted close to each other. When the air is supplied from the air supply unit 142 and the air flows along the air flow hole 146, some of the air flowing from the air blowing unit 143 is transferred to the expansion-side communication hole ( 152), the air is introduced into the inflatable body 151, and the inflatable body 151 is convexly inflated along the width direction by the inflow of the air through the expansion-side communication hole 152.

The inflatable body 151 is formed in an elliptical shape with a predetermined length to the outside of the air blowing part 143, and is inclined downward as it gets farther away from the air blowing part 143.

Then, by the inflow of the air through the expansion-side communication hole 152, the inflatable body 151 is formed to unfold in an umbrella shape in the air blowing part 143, so that the abrasive foreign matter is removed from the workpiece 30. It is possible to prevent bouncing toward the equipment processing part 12 from.

A plurality of the expansion-side discharge holes 153 are formed through the expansion body 151 so as to be spaced apart from each other on the side facing the object 30, and discharge the air introduced into the expansion body 151 to the object 30 to be processed. It is discharged toward (30).

The ejection side discharge hole 154 is formed through the lower part of the inflatable body 151 of the air ejection part 143, and the air flows in the air flow hole 146 inside the air ejection part 143. Another part of the air is expelled.

The air guide protruding body 155 is formed in the shape of a plate having a predetermined area, and along the longitudinal direction of the inflatable body 151 at the lower part of the ejection side discharge hole 154 among the outer sides of the air blowing part 143. It protrudes with a predetermined length and guides the movement of the air discharged through the ejection side discharge hole 154 among the air flowing in the air flow hole 146 constituting the air ejection part 143 .

When formed as described above, some of the air supplied from the air supply unit 142 and then flowing in the air jetting unit 143 flows into the inflatable body 151, and the air jetting unit 143 Another part of the air flowing in is discharged to the outside of the air blowing part 143 through the ejection side discharge hole 154, and among the air flowing in the air blowing part 143, the inflatable body 151 ) and discharged through the ejection side discharge hole 154, the remainder is discharged toward the object 30 through the end of the air ejection part 143.

When the abrasive foreign matter splash prevention unit 150 is configured as described above, while the air is blown from the air blowing unit 143, a part of the air flowing from the air blowing unit 143 passes through the expansion-side communication hole. 152 into the inflatable body 151, inflating the inflatable body 151, and then being discharged through the expansion-side discharge hole 153, so that the abrasive foreign matter bounces toward the equipment processing unit 12 this can be prevented.

In addition, while a part of the air flowing from the air blowing part 143 is discharged through the expansion-side discharge hole 153, another part of the air flowing from the air blowing part 143 is discharged from the blowing side. After being discharged through the hole 154, it flows along the surface of the air guide protrusion 155 and is surrounded by the inflatable body 151, the air blowing part 143, and the air guide protrusion 155. Negative pressure is formed in the negative pressure forming space 156, which is a space.

Then, the negative pressure generated in the negative pressure forming space 156, which is a space surrounded by the inflatable body 151, the air blowing part 143, and the air guide protruding body 155, is surrounded by the space 156. As the inflatable body 151 is pulled toward the air guide protruding body 155, the inflatable body 151 moves toward the object ( 30) can be prevented.

Reference numeral 157 denotes an expansion supporting the inflatable body 151 at the upper part of the inflatable body 151 so that the inflatable body 151 remains inclined downward when the inflatable body 151 is inflated. is a side support.

A plurality of the abrasive foreign matter splash prevention parts 150 are spaced apart at equal intervals with respect to the air blowing part 143 .

In this embodiment, the two polishing foreign matter splash prevention parts 150 are arranged symmetrically with respect to the air blowing part 143, but the present invention is not limited thereto, and the polishing foreign matter splash prevention part 150 Of course, it may be formed of four or six.

Hereinafter, the operation of the polishing device 100 applied to the parts processing equipment for industrial facilities according to the present embodiment will be described with reference to the drawings.

First, the polishing device 100 applied to the parts processing equipment for industrial facilities is mounted on the equipment processing unit 12 . At this time, the first rotation member 115 is connected to the equipment processing side rotation shaft 13, and the air blowing member 140 is connected to the rotation shaft moving body 14.

Then, power is applied to the parts processing equipment 10 for industrial facilities. Then, the equipment controller 16 commands to rotate the first rotating member 115 .

The rotational force of the first rotational member 115 is transmitted to the second rotational member 120 by the rotational force transmitting member 125, and the second rotational member 120 is rotated. As the polishing member 130 connected to 120 rotates, the surface of the object 30 is polished.

While the surface of the object 30 is being polished by the polishing member 130, the air supplied from the air supply unit 142 passes through the air blowing body 141 to the air blowing unit 143. The abrasive foreign matter discharged and generated from the object 30 is removed from the surface of the object 30 .

As described above, the polishing device 100 applied to the parts processing equipment for industrial facilities transmits the body member 110, the first rotating member 115, the second rotating member 120, and the rotational force. By including the member 125 and the abrasive member 130, after the processing of the shape of the object 30 is completed in the parts processing equipment 10 for industrial facilities, the parts for industrial facilities are continuously processed without moving to another place. The equipment 10 can perform a polishing operation on the surface of the object 30 on which the shape processing is completed, thereby reducing the product processing time, as well as being damaged by stamping during the movement of the object 30. By preventing product defects, product quality can be improved.

Although the present invention has been shown and described in relation to specific embodiments above, those skilled in the art may modify the present invention in various ways without departing from the spirit and scope of the present invention described in the claims below. And it will be appreciated that it can be changed. However, it should be clearly stated that all of these modifications and variations are included within the scope of the present invention.

According to the polishing device applied to parts processing equipment for industrial facilities according to one aspect of the present invention, after the shape processing of the object to be processed is completed in the part processing equipment for industrial facilities, the object to be processed is continuously shaped without moving to another place. By performing a polishing operation on the surface, the processing time of the product can be shortened and product quality can be improved by preventing product defects due to stamping during the movement of the object to be processed, so it can be said that the industrial applicability is high.

10: Parts processing equipment for industrial facilities
20: air generating means
30: object to be processed
100: Polishing device applied to parts processing equipment for industrial facilities
110: body member
115: first rotating member
120: second rotating member
125: rotational force transmission member
130: abrasive member
140: air blowing member

Claims (4)

In industrial facility parts processing equipment including an equipment body, an equipment processing unit installed inside the equipment body and processing an object to be processed, which is a part for industrial facilities applied to industrial facilities, and an equipment control unit for controlling the operation of the equipment processing unit Mounted and polishing the surface of the object to be processed,
body member;
a first rotational member rotatably connected to the main body member and connected to the equipment processing-side rotational shaft so as to be rotated by receiving rotational force of the equipment processing-side rotational shaft constituting the equipment processing unit;
a second rotational member disposed perpendicular to the first rotational member and rotated by receiving rotational force from the first rotational member;
a rotational force transmitting member connected between the first rotational member and the second rotational member to transmit rotational force supplied to the first rotational member to the second rotational member;
an abrasive member coupled to the distal end of the second rotating member to abrade the object to be processed; and
An air blowing member installed inside the parts processing equipment for industrial facilities and blowing air to the processing object so that foreign substances generated from the processing object are removed from the processing object when the processing object is polished by the abrasive member. including;
The air blowing member
An air blowing body coupled to the equipment processing unit and having an empty space formed therein;
an air supply unit connected to the air blowing body, communicating with the inside of the air blowing body, and supplying air from the outside to the inside of the air blowing body;
an air blowing part connected to a part of the air blowing body spaced apart from the air supplying part and communicating with the inside of the air blowing body to blow the air toward the object to be processed;
An abrasive foreign matter splash prevention unit for preventing the abrasive foreign matter separated from the processing object by the air injection through the air blowing unit from bouncing toward the equipment processing unit,
The abrasive foreign matter splash prevention unit
An inflatable body formed of a predetermined length and made of an elastic material outside the air blowing unit;
an expansion-side communication hole communicating the inside of the air blowing unit and the inside of the inflatable body so that some of the air flowing inside the air blowing unit flows into the inside of the inflatable body;
an expansion-side discharge hole through which a plurality of the inflatable bodies are spaced apart from each other on the side facing the object to be processed, and discharge the air introduced into the inflatable body toward the object to be processed;
an ejection-side discharge hole through which another part of the air flowing inside the air ejection part is discharged, which is formed through the lower part of the inflatable body among the air ejection parts;
An air guide protruding body protruding to a predetermined length along the longitudinal direction of the inflatable body at the lower part of the ejection-side discharge hole among the outer sides of the air ejection unit and guiding the movement of the air discharged through the ejection-side discharge hole; ,
After being supplied from the air supply unit, some of the air flowing from the air jetting unit flows into the inside of the inflatable body, and another part of the air flowing from the air jetting unit passes through the ejection side discharge hole. Of the air that is discharged to the outside of the jetting unit and flows from the air jetting unit, except for the air flowing into the inflatable body and the air that is discharged through the jetting side discharge hole, the air is discharged toward the object through the end of the air jetting unit,
Some of the air supplied from the air supply unit and flowing in the air injection unit flows into the inside of the inflatable body through the expansion-side communication hole, inflates the inflatable body, and then is discharged through the expansion-side discharge hole. The inflated inflatable body covers the upper space of the object to be processed and the air is discharged through the expansion-side discharge hole at the same time, so that the splashing of the abrasive foreign matter toward the equipment processing unit can be prevented,
Another part of the air supplied from the air supply unit and flowing in the air jetting unit is discharged through the jetting-side discharge hole and then flows along the surface of the air guide protruding body to form the inflatable body, the air jetting unit, and A negative pressure is formed in a negative pressure forming space, which is a space surrounded by the air guide protrusion,
The inflatable body is pulled toward the air guide protruding body by negative pressure generated in the negative pressure forming space, which is a space surrounded by the inflatable body, the air blowing part, and the air guide protruding body, so that the air is blown through the expansion-side discharge hole. An abrasive device applied to part processing equipment for industrial facilities, characterized in that the phenomenon that the inflatable body can be prevented from being relatively separated from the object to be processed by the repulsive force generated when discharged. According to claim 1,
The first rotating member is
An insertion rotation part connected to the equipment processing-side rotation shaft in a form in which at least a part thereof is inserted into the equipment processing-side rotation shaft;
Including a rotation shaft (shaft) formed to a predetermined length at the lower side of the insertion rotation unit,
The insertion rotation unit is connected to the equipment processing side rotation shaft so that when the equipment processing side rotation shaft is rotated by the equipment control unit, the insertion rotation unit and the rotation shaft can be rotated together in parts processing equipment for industrial facilities, characterized in that Applied abrasive device. delete delete

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