JPH08168951A - Barrel polishing machine - Google Patents

Abstract

PURPOSE: To provide a sanitary barrel polishing machine equipped with a dust collecting mechanism having a mechanism by which dust arising inside polishing vessels is removed during a polishing operation by providing dust collecting devices inside or around the polishing vessels. CONSTITUTION: Dust collecting devices each having a suction/exhaust function and provided with either gaps or a number of small holes 1, 3a are provided inside or around the respective polishing vessels 1 of a vibratory barrel polishing machine, a centrifugal barrel polishing machine, a vortex barrel polishing machine, a fluidization barrel polishing machine, and a rotary barrel polishing machine.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a barrel polishing machine with a dust collecting mechanism for discharging dust generated in a polishing tank of various barrel polishing machines to the outside of the tank during polishing.

[0002]

2. Description of the Related Art Conventionally, a barrel polishing mechanism does not have a device for dryly removing dust generated in a polishing tank during polishing, and after the polishing process is completed and a material to be polished is taken out, the dust in the tank is removed. Dust adhering to the material to be polished was removed by a separately provided cleaning device.

[0003]

In the removal of dust in the polishing tank after the completion of the polishing process, the dust adhering to the material to be polished and the dust in the polishing tank must be removed separately. Not only was it time-consuming, but dust was scattered around when removing it, which was extremely unsanitary. An object of the present invention is to provide a hygienic barrel polishing machine with a dust collecting mechanism provided with a dust collecting device in or around the polishing tank and having a mechanism for removing dust in the tank during polishing.

[0004]

In order to achieve the above object, the present invention provides a number of vibrating barrel polishers A, centrifugal barrel polishers B, and rotary barrel polishers C in the polishing tank 1 or around the polishing tank 1. The dust collector is provided with a small hole and a suction / exhaust function.

[0005]

Since the present invention is configured as described above, the actual polishing process is as follows. In the case of the vibrating barrel polishing machine A, when the polishing machine is started, the polishing tank 1 vibrates, and at the same time, the dust collector 8 (including the suction device 6 and the dust collector 7) is started, and the dust in the polishing tank 1 due to the polishing process is sucked. Hole 3a
Is sucked into the suction pipe 3 through the dust collecting pipe 5, sucked into the suction device 6 and then housed in the dust collector 7. In the case of the centrifugal barrel polishing machine B, as shown in FIG. 2, since the polishing tank 1 is rotated about the main shaft D by centrifugal force, dust generated in the tank passes through the inside of the polishing tank shaft 2 and the external suction pipe 3 Through the dust collecting pipe 5 further connected to the dust collecting device 8 by suction. In the case of the rotary barrel polishing C, as in the case of the centrifugal barrel polishing B, the dust generated in the polishing tank 1 is sucked and stored in the dust collecting device 8 through the polishing tank shaft 2.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing the internal structure of the vibrating barrel polishing machine A. Reference numeral 1 is a polishing tank for loading and polishing an abrasive and a material to be polished. When started, the entire polishing tank 1 is placed on an elastic material 9. Since it is placed, it vibrates irregularly, and the material to be polished is polished by this vibration. Dust generated during the polishing process is sucked through a suction hole 3a provided at the bottom of the suction pipe 3, passes through a dust collecting pipe 5 connected to the polishing tank 1, and is started in synchronization with the polishing tank 1. It is designed to be sucked up by the dust device 8,
The dust in the polishing tank 1 is the small hole 1a at the bottom and the polishing material discharge part 1
1 to be separately accommodated by the dust suction / exhaust pipe 12. FIG. 2 is a view showing the internal structure of the centrifugal barrel polishing machine B, in which 1 is a plurality of polishing tanks that revolve around the spindle 8.
Since the plurality of polishing tanks 1 rotate about the polishing tank shaft 2 as an axis, the material to be polished put into the polishing tank 1 is polished by the synergistic effect of rotation and revolution. Dust generated in the polishing tank 1 during the polishing process passes from a suction port 3b provided at the side of the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 connected to the shaft. The dust collecting device 8 is sucked through. FIG. 3 is a view showing the internal configuration of a rotary barrel polishing machine C that rotates about the polishing tank shaft 2 as an axis.
The material to be polished put into the polishing tank 1 of the rotary barrel polishing machine C together with the polishing material is polished in the rotating polishing tank 1. Dust generated in the polishing tank 1 during the polishing process passes from a suction hole 3C provided on the side of the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 to collect dust. It is supposed to be sucked in 8. FIG. 4 shows the polishing tank 1 in FIG.
In the IV-IV sectional view of FIG. 1, a is a filter provided so that the abrasive is not sucked or discharged. In FIG. 5, passages 4 are provided in the polishing tank shafts 2 on both sides of the polishing tank 1, and air or gas is sent into the polishing tank 1 from one shaft through a suction pipe 5a into the polishing tank 1 while air or gas is supplied from the other shaft. It is a figure which shows the internal structure of the rotary barrel polishing machine which collects dust with a gas and collects it in a dust suction device, and dust can be reliably discharged | emitted in a short time by using both blowing and discharging in this way. Further, by alternately blowing and discharging, or intermittently, it is possible to carry out polishing processing and dust discharge more reasonably and efficiently.

[0007]

Since the present invention is configured as described above, any of the vibrating barrel polishing machine, the centrifugal barrel polishing machine, and the rotary barrel polishing machine can completely remove dust generated in the polishing tank during polishing. Can now be removed on the wall. Therefore, it is no longer necessary to remove the dust in the polishing tank or the dust adhering to the material to be abraded after the conventional polishing process is completed, and the polishing process time is greatly shortened.

[Brief description of drawings]

FIG. 1 is an internal configuration diagram of a vibrating barrel polishing machine with a dust collecting mechanism and its polishing tank.

FIG. 2 is an internal configuration diagram of a centrifugal barrel polishing machine with a dust collecting mechanism.

FIG. 3 is an internal configuration diagram of a rotary barrel polishing machine with a dust collecting mechanism.

4 is a sectional view taken along line IV-IV in FIG.

FIG. 5 is an internal configuration diagram of a rotary barrel polishing machine provided with a suction / discharge function.

[Explanation of Codes] A Vibratory Barrel Polishing Machine B Centrifugal Barrel Polishing Machine C Rotating Barrel Polishing Machine D Main Spindle 1 Polishing Tank 2 Polishing Tank Spindle 3 Suction Pipe 4 Passage 5 Dust Collection Pipe 6 Suction Machine 7 Dust Collector 8 Dust Collector 9 Elastic Material 10 Blow-in device 11 Abrasive discharge part 12 Dust suction and discharge pipe

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[Procedure amendment]

[Submission date] May 20, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Barrel polishing machine with dust collecting mechanism

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a barrel polishing machine with a dust collecting mechanism for discharging dust generated in and around the polishing tank of various barrel polishing machines to the outside of the tank during polishing. .

[0002]

Conventionally, barrel polishing mechanism is not device for removing the dust generated by scattering within the surrounding or polishing machine in polishing polishing tank in a dry, dust scattering during operation, unsanitary
It was work. Further, after the polishing process is completed, the material to be polished is taken out, the dust in the tank is removed, and the dust attached to the object to be polished is removed by a separately provided cleaning device.

[0003]

In removing the dust in the polishing tank after the completion of the polishing process, the dust adhering to the object to be polished and the dust in the polishing tank must be removed separately. Not only was it time-consuming, but dust was scattered around when removing it, which was extremely unsanitary. An object of the present invention is to provide a sanitary barrel polishing machine with a dust collecting mechanism provided with a dust collecting mechanism and a device in and around the polishing tank and having a mechanism for removing dust in the tank during polishing. .

[0004]

In order to achieve the above object, the present invention is directed to a vibrating barrel polishing machine A.A. Centrifugal barrel polishing machine B ・
Rotating barrel polisher C and vortex barrel polisher E / fluid burr
A gap 16 in or around the polishing tank 1 of the polishing machine F.
Alternatively, a dust collector having a large number of small holes and a suction / exhaust function is provided.

[0005]

Since the present invention is configured as described above, the actual polishing process is as follows. In the case of the vibrating barrel polishing machine A, when the polishing machine is started, the polishing tank 1 vibrates, and at the same time, the dust collector 8 (including the suction device 6 and the dust collector 7) is started, and the dust in the polishing tank 1 due to the polishing process is sucked. Hole 3a
Is sucked into the dust suction pipe 3 through the dust collection pipe 5, sucked into the suction device 6 and then housed in the dust collector 7. In the case of the centrifugal barrel polishing machine B, as shown in FIG. 2, since the polishing tank 1 is centrifugally rotated about the main shaft 8, dust generated in the tank passes through the inside of the polishing tank shaft 2 and the external dust suction pipe 3 Through the dust collecting pipe 5 further connected to the dust collecting device 8 by suction. For rotary barrel polishing machine C as well as the centrifugal barrel polishing machine B, dust generated in the polishing tank 1 is sucked accommodated in the dust collector 8 through the polishing tank axis 2. In the case of the vortex barrel E, a fixed polishing tank and a bottom rotary disk 14 are provided below the fixed polishing tank, and the bottom rotary disk 14 fixed to a rotary shaft 13 that rotates by conducting with an electric motor rotates to fill the polishing tank. ing
The abrasive and the object to be polished are rotated by centrifugal force on the bottom turntable 14.
It is pushed out toward the outer circumference. At this time, the inner circumference of the fixed polishing tank
Abrasive material and object to be polished are pushed up along the surface
It flows down to the center of and repeats the vortex. Occur during this polishing
The dust between the top of the tank or the fixed polishing tank and the bottom turntable 14
Dust collection mechanism to collect dust from part of the space 16 or the entire circumference of the mechanism
The cover is provided, and the dust suction port 15 is provided on the cover.
It is sucked and housed in the dust collector 8 through 15. Flow barrel
In the case of F, there is a gap 16 between the fixed polishing tank and the inner surface below it.
And the bottom turntable 14 that comes into contact with the bottom turntable 14
A rotary shaft 13 is fixed to the shaft so that it can rotate freely.
Then, the bottom turntable 14 rotates to fill the polishing tank.
The polishing material and the object to be polished are rotated by centrifugal force on the bottom turntable 14.
It works and is pushed out toward the outer circumference. At this time, in the fixed polishing tank
Abrasive and the object to be polished are pushed up along the circumference
Flow down to the center of the tank and repeat the flow. Occurred during this polishing
Dust collector for collecting dust from the upper part of the tank or a part of the gap 16 between the fixed polishing tank and the bottom turntable 14 or the entire circumference of the mechanism.
The structure cover is provided, and the dust inlet 15 is provided on the cover to absorb the dust.
The dust is collected by suction in the dust collector 8 through the port 15.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing the internal structure of the vibrating barrel polishing machine A. Reference numeral 1 is a polishing tank for loading and polishing an abrasive and a material to be polished. When started, the entire polishing tank 1 is placed on an elastic material 9. Since it is placed, it vibrates irregularly, and the material to be polished is polished by this vibration. Dust generated during the polishing process is sucked through a suction hole 3a provided at the bottom of the dust suction pipe 3, passes through a dust collecting pipe 5 connected to the polishing tank 1, and is started in synchronization with the polishing tank 1. It is designed to be sucked up by the dust device 8,
The dust in the polishing tank 1 is the small hole 1a at the bottom and the polishing material discharge part 1
1 to be separately accommodated by the dust suction / exhaust pipe 12. FIG. 2 is a view showing the internal structure of the centrifugal barrel polishing machine B, in which 1 is a plurality of polishing tanks that revolve around the spindle 8.
Since the plurality of polishing tanks 1 rotate about the polishing tank shaft 2 as an axis, the material to be polished put into the polishing tank 1 is polished by the synergistic effect of rotation and revolution. Dust generated in the polishing tank 1 during the polishing process passes from a suction port 3b provided at the side of the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 connected to the shaft. The dust collecting device 8 is sucked through. FIG. 3 is a view showing the internal configuration of a rotary barrel polishing machine C that rotates about the polishing tank shaft 2 as an axis.
The material to be polished put into the polishing tank 1 of the rotary barrel polishing machine C together with the polishing material is polished in the rotating polishing tank 1. The dust generated in the polishing tank 1 during the polishing process passes from a suction hole 3c provided on the side of the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 to collect dust. It is supposed to be sucked in 8. FIG. 4 shows the polishing tank 1 in FIG.
In the IV-IV sectional view of FIG. 1, a is a filter provided so that the abrasive is not sucked or discharged. In FIG. 5, passages 4 are provided in the polishing tank shafts 2 on both sides of the polishing tank 1, and air or gas is sent into the polishing tank 1 from one shaft through a suction pipe 5a into the polishing tank 1 while air or gas is supplied from the other shaft. It is a figure which shows the internal structure of the rotary barrel polishing machine which collects dust with a gas and collects it in a dust suction device, and dust can be reliably discharged | emitted in a short time by using both blowing and discharging in this way. Further, by alternately blowing and discharging, or intermittently, it is possible to carry out polishing processing and dust discharge more reasonably and efficiently.

[0007]

Since the present invention is configured as described above, the vibrating barrel polishing machine, the centrifugal barrel polishing machine, the eddy current barrel polishing machine is used.
· Flow barrel finishing machine, rotary barrel polishing machine any polishing machine also, it has become possible to remove the dust generated outside the polishing bath during the polishing process to perfectly. Therefore, it is no longer necessary to remove the dust in the polishing tank or the dust adhering to the object to be polished after the conventional polishing process is completed, and the polishing process time is greatly shortened , and the work is hygienic.
And will greatly contribute to the health maintenance of workers.
It

[Brief description of drawings]

FIG. 1 is an internal configuration diagram of a vibrating barrel polishing machine with a dust collecting mechanism and its polishing tank.

FIG. 2 is an internal configuration diagram of a centrifugal barrel polishing machine with a dust collecting mechanism and its polishing tank.

FIG. 3 is an internal configuration diagram of a rotary barrel polishing machine with a dust collecting mechanism and its polishing tank.

4 is a sectional view taken along line IV-IV in FIG.

FIG. 5 is an internal configuration diagram of a rotary barrel polishing machine provided with a suction / discharge function.

FIG. 6 is an internal configuration diagram of a vortex barrel polishing machine with a dust collecting mechanism.
It

FIG. 7 is an internal configuration diagram of a fluidized barrel polishing machine with a dust collecting mechanism.
It

[Explanation of Codes] A Vibratory Barrel Polishing Machine B Centrifugal Barrel Polishing Machine C Rotating Barrel Polishing Machine D Main Spindle E Eddy Current Barrel Polishing Machine F Flow Barrel Polishing Machine 1 Polishing Tank 2 Polishing Tank Shaft 3 Suction Tube 4 Passage 5 Dust Collection Tube 6 Suction Machine 7 Dust collector 8 Dust collector 9 Elastic material 10 Blow-in device 11 Abrasive material discharge part 12 Dust suction / discharge pipe 13 Rotation vertical shaft 14 Bottom rotary plate 15 Dust suction port 16 Gap

[Procedure 3]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 6

[Correction method] Added

[Correction content]

[Figure 6]

[Procedure amendment 4]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 7

[Correction method] Added

[Correction content]

[Figure 7] ─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] October 7, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

[Title of Invention] Barrel polishing machine

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is to attach abrasives and small articles to the inside of a polishing tank of various barrel polishing machines , gaps and the like.
And a smooth turning barrel polisher and powdered grinding
A mechanism for discharging the dust generated when abrasives and dried abrasives are scattered in the polishing tank and around the polishing machine to the outside of the tank during polishing.
Small particles will bite into the swivel and sliding parts inside the tank to prevent scraping.
The present invention relates to a barrel polishing machine having a preventing function .

[0002]

2. Description of the Related Art Conventionally, barrel polishing mechanisms do not have a dry-type device for removing dust generated in the polishing tank or around the polishing machine during polishing, and dust is scattered during the work, which is unclean. there were. Further, after the polishing process is completed, the material to be polished is taken out, the dust in the tank is removed, and the dust attached to the object to be polished is removed by a separately provided cleaning device.

[0003]

In removing the dust in the polishing tank after the completion of the polishing process, the dust adhering to the object to be polished and the dust in the polishing tank must be removed separately. time-consuming only at rather than, dust when removing may be scattered around, was very unsanitary. An object of the present invention is to provide a sanitary barrel polishing machine with a dust collecting mechanism provided with a dust collecting mechanism and a device in and around the polishing tank and having a mechanism for removing dust in the tank during polishing. .

[0004]

In order to achieve the above object, the present invention provides a vibrating barrel polisher A, a centrifugal barrel polisher B,
A gap 16 is formed in or around the polishing tank 1 of the rotary barrel polishing machine C and the vortex barrel polishing machine E / fluid barrel polishing machine F.
Or, a small number of small holes with a discharge or injection mechanism
It is equipped with a dust collector that prevents biting and galling and has a suction / exhaust function in dry polishing .

[0005]

Since the present invention is constructed as described above, for example,
The following is the case where the polishing process is actually performed using the formula .
In the case of the vibrating barrel polishing machine A, when the polishing machine is started, the polishing tank 1 vibrates, and at the same time, the dust collector 8 (including the suction device 6 and the dust collector 7) is started, and the dust in the polishing tank 1 due to the polishing process is sucked. After being sucked into the dust suction pipe 3 through the hole 3a, passed through the dust suction pipe 5, and sucked into the suction device 6, the dust suction device 7 sucks and stores the dust. In the case of the centrifugal barrel polisher B, as shown in FIG.
Since the polishing tank 1 is rotated about the main shaft 8 by centrifugal rotation, dust generated in the tank is connected to the dust suction pipe 3 through the inside of the polishing tank shaft 2 and to the outside, and further through the connected dust collecting pipe 5. Absorbed and housed in 8. In the case of the rotary barrel polisher C, as in the centrifugal barrel polisher B, dust generated in the polishing tank 1 is absorbed and stored in the dust collector 8 through the polishing tank shaft 2.
In the case of the swirl barrel E, a fixed polishing tank and a bottom turntable 14 at the lower part thereof are provided, and a rotary shaft 13 that rotates by conducting with an electric motor.
The bottom rotary disk 14 fixed to the base plate rotates, and the abrasive and the object to be polished filled in the polishing tank are pushed toward the outer peripheral direction by the centrifugal force acting on the bottom rotary disk 14. At this time, the polishing material and the object to be polished are pushed up along the inner peripheral surface of the fixed polishing tank and flow down to the center of the tank to repeat the vortex flow. A dust collecting mechanism cover is provided to collect dust generated during the polishing from the upper part of the tank or a part of the gap 16 between the fixed polishing tank and the bottom rotary disk 14 or the entire circumference of the mechanism, and the cover is provided with the dust suction port 15. The dust is collected in the dust collector 8 through the dust inlet 15. In the case of the fluidized barrel F, it is composed of a fixed polishing tank and a bottom rotary disk 14 which is in contact with the inner surface of the lower part thereof with a gap 16 therebetween. And the bottom rotary disk 14 rotates, and the polishing material and the object to be polished filled in the polishing tank are exerted on the bottom rotary disk 14 by a centrifugal force to be pushed outward. At this time, the abrasive and the object to be polished are pushed up along the inner peripheral surface of the fixed polishing tank and flow down to the center of the tank to repeat the flow. A dust collecting mechanism cover is provided to collect dust generated during the polishing from the upper part of the tank or a part of the gap 16 between the fixed polishing tank and the bottom rotary disk 14 or the entire circumference of the mechanism, and the cover is provided with the dust suction port 15. The dust is collected in the dust collector 8 through the dust inlet 15.
Polishing, whether wet or dry, in these processes
Small particles and powdery waste generated from wood and work pieces
Then, this bites into the gap 16 and the sliding surface part
It will wear significantly, so prevent this and increase the long-term durability of the machine.
In order to maintain the smoothness of the polishing process, the injection mechanism or suction mechanism or
The discharge mechanism removes small particles and powder.
It

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a view showing the internal configuration of the vibrating barrel polishing machine A. Reference numeral 1 is a polishing tank in which a polishing material and an object to be polished are charged and polishing is performed. Since it is placed, it vibrates irregularly, and the object to be polished is polished by this vibration. Dust generated during the polishing process is sucked through a suction hole 3a provided at the bottom of the dust suction pipe 3, passes through a dust collecting pipe 5 connected to the polishing tank 1, and is started in synchronization with the polishing tank 1. The device 8 absorbs the dust in the polishing tank 1 separately from the small hole 1a at the bottom and the abrasive discharge unit 11 by the dust suction / discharge pipe 12. FIG. 2 is a view showing the internal structure of the centrifugal barrel polishing machine B. Reference numeral 1 denotes a plurality of polishing tanks that revolve around a main shaft 8 as an axis. The plurality of polishing tanks 1 rotate about a polishing tank shaft 2 as an axis. Therefore, the material to be polished put into the polishing tank 1 is polished by the synergistic effect of the rotation and the revolution. The dust generated in the polishing tank 1 during the polishing process passes from a suction port 3b provided beside the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 connected to the shaft. Dust collector 8
It is supposed to be sucked into. FIG. 3 is a view showing the internal structure of a rotary barrel polishing machine C that rotates about the polishing tank shaft 2 as an axis. The material to be polished that has been put into the polishing tank 1 of the rotary barrel polishing machine C together with the polishing material rotates on its axis. Polishing is performed in the polishing tank 1. The dust generated in the polishing tank 1 during the polishing process passes from a suction hole 3c provided on the side of the tank through a passage 4 provided in the polishing tank shaft 2 and a dust collecting pipe 5 to collect dust. It is designed to be absorbed by 8. Generally with barrel polisher
When processing, all models are dry even when wet processing
Even during processing, small particles and dust are generated from the abrasive and the work piece.
The eddy current barrel grinding of E, which hinders the polishing work
In the polishing machine and the fluidized barrel polishing machine of F, the gap 16 is small.
Particulate matter or dust bites into the machine and the machine rotation becomes overloaded.
In addition, since it often causes galling and fails,
Operation work by injection mechanism or suction mechanism or discharge mechanism
Remove small particles and dust inside to keep the polishing process smooth
It is configured. FIG. 4 shows IV- of the polishing tank 1 in FIG.
In the IV cross-sectional view, a is a filter provided so that the abrasive is not sucked or discharged. In FIG. 5, passages 4 are provided in the polishing tank shafts 2 on both sides of the polishing tank 1, and air or gas is fed into the polishing tank 1 from one of the shafts through a suction pipe 5a from a suction machine.
In the diagram showing the internal configuration of the rotary barrel polishing machine that collects dust in the dust suction device together with air and gas from the other shaft,
By using both suction and discharge in this way, it is possible to reliably discharge dust in a short time. Further, by alternately performing suction and discharge or intermittently, polishing processing and dust discharge can be performed reasonably and efficiently.

[0007]

Since the present invention is configured as described above, any of the vibrating barrel polisher, the centrifugal barrel polisher, the vortex barrel polisher, the fluidized barrel polisher, and the rotary barrel polisher are being polished. In addition, small particles and dust generated inside and outside the polishing tank can be completely removed. Therefore, it is no longer necessary to remove the dust in the polishing tank or remove the dust adhering to the object to be polished after the completion of the polishing process, which greatly reduces the polishing process time.
Dust is scattered around the polishing machine and inside the factory, and the air inside the factory is
In an unsanitary environment, where workers are exposed to dust and dust
However, this device makes the worker hygienic, which is very useful for maintaining the health and hygiene of the worker.

[Brief description of drawings]

FIG. 1 is an internal configuration diagram of a vibrating barrel polishing machine with a dust collecting mechanism and its polishing tank.

FIG. 2 is an internal configuration diagram of a centrifugal barrel polishing machine with a dust collecting mechanism and its polishing tank.

FIG. 3 is an internal configuration diagram of a rotary barrel polishing machine with a dust collecting mechanism and its polishing tank.

4 is a sectional view taken along the line IV-IV in FIG.

FIG. 5 is an internal configuration diagram of a rotary barrel polishing machine provided with a suction / discharge function.

FIG. 6 is an internal configuration diagram of a vortex barrel polishing machine with a dust collecting mechanism.

FIG. 7 is an internal configuration diagram of a fluidized barrel polishing machine with a dust collecting mechanism.

[Explanation of Codes] A Vibratory Barrel Polishing Machine B Centrifugal Barrel Polishing Machine 14 Bottom Rotating Disk C Rotating Barrel Polishing Machine 15 Dust Intake D Spindle 16 Gap (Injection Gap, Suction Gap, E Eddy Current Barrel Grinder Ejection Gap) F Flow Barrel Grinding Machine 1 Polishing tank 2 Polishing tank shaft 3 Suction tube 4 Passage 5 Dust collection tube 6 Suction machine 7 Dust collector 8 Dust collector 9 Elastic material 10 Suction device 11 Abrasive material discharge part 12 Dust suction and discharge tube 13 Rotating vertical shaft

[Procedure 3]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 6

[Correction method] Added

[Correction content]

[Figure 6]

[Procedure amendment 4]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 7

[Correction method] Added

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[Figure 7]

Claims (4)

[Claims] 1. A barrel polishing machine with a dust collecting mechanism, characterized in that a dust collecting device having a suction and discharge function is provided in and around a polishing tank of a vibrating barrel polishing machine, a centrifugal barrel polishing machine and a rotary barrel polishing machine. . 2. A barrel polishing machine with a dust collecting mechanism, wherein suction and exhaust pipes for injecting or circulating air and gas are provided in the polishing tanks of the vibrating barrel polishing machine, the centrifugal barrel polishing machine, and the rotating barrel polishing machine. 3. A plurality of small holes are provided on the bottom, side, or side of the polishing tank of the vibrating barrel polishing machine, the centrifugal barrel polishing machine, and the rotating barrel polishing machine to discharge or suck dust generated in the tank. A barrel polishing machine with a characteristic dust collection mechanism. 4. The barrel polishing machine with a dust collecting mechanism according to claim 1, wherein the vibrating barrel polishing machine, the centrifugal barrel polishing machine, and the rotating barrel polishing machine are provided with a dust collector and a blowing device.