KR200396089Y1 - Exhaustion device using compressed air - Google Patents

Abstract

 The present invention relates to a dust reduction device using a compressed air to suction and remove dust and the like by the suction force generated by the vortex generated by the high-speed flow of compressed air and the pressure drop inside the tube.

 Conventionally, a vacuum cleaner is used, but since fluid (air) moves while directly blowing on the impeller, there is a risk of noise and failure due to friction with the impeller. It caused a lot of noises to make the working environment worse, and the air discharged from the vacuum cleaner scattered new dust on the floor in the workplace, so that the cleanliness could not be maintained.

 The present invention is a compressed air supply unit including a jet port for ejecting the compressed air compressed by a separate compressor obliquely inclined in the closed space; A confluence unit forming a closed space inside the body to generate a suction force due to a low pressure phenomenon formed by a flow of compressed air ejected at high speed from the compressed air supply unit; A suction part including a suction nozzle connected to a suction pipe to suction and transfer dust by suction force due to the low pressure phenomenon of the confluence part; It is installed on the flow path of the air discharged from the confluence, characterized in that consisting of a filter for separating the foreign matter and air, such as dust.

Description

Exhaustion device using compressed air

The present invention relates to a dust reduction device using a compressed air to suction and remove dust and the like by the suction force generated by the vortex generated by the high-speed flow of compressed air and the pressure drop inside the tube.

Chips and dusts generated during mechanical processing such as cutting or polishing deteriorate the environment of the workplace, and in particular, if the work is continued while attached to the workpiece, there is a problem that not only the precision of the work but also the work efficiency are deteriorated. .

Particularly, the fine dust generated during the polishing process by the luther, which is an abrasive device, directly affects the worker's respiratory system as well as the working environment, thereby impairing the health of the worker.

Therefore, in a polishing work process in which such a large amount of dust is generated, a device that immediately sucks out and discharges dust, etc. before it is scattered is required.

Conventionally, a vacuum cleaner is used as the dust suction device, but there are various problems.

As is commonly known, a vacuum cleaner generates suction force to suck foreign substances together with air, and the suctioned air is a device that separates air and foreign substances while passing through a separate filter.

In other words, the air is transferred from one side to the other by the high speed rotation of the impeller rotated by the motor, and the fluid (air) moves while being directly attached to the impeller. There was a risk of noise generation and failure due to friction with.

 In addition, as the vacuum cleaner is started immediately at the work site, a lot of noise is generated, which makes the working environment worse. The air discharged from the vacuum cleaner causes new dust on the floor of the workplace to maintain cleanliness.

The present invention devised to improve such a problem is to provide a dust extraction device using compressed air to minimize the occurrence of noise and to prevent the generation of new scattering dust, and to easily suck out the dust generated in the work area immediately. The purpose is.

The present invention devised to achieve the above object is a compressed air supply unit including a spout for ejecting the compressed air compressed by a separate compressor obliquely in the closed space; A confluence unit forming a closed space inside the body to generate a suction force due to a low pressure phenomenon formed by a flow of compressed air ejected at high speed from the compressed air supply unit; A suction part including a suction nozzle connected to a suction pipe to suction and transfer dust by suction force due to the low pressure phenomenon of the confluence part; It is installed on the flow path of the air discharged from the confluence, characterized in that consisting of a filter for separating the foreign matter and air, such as dust.

In the present invention, the outlet of the compressed air supply unit is characterized in that the compressed air is ejected to have a predetermined angle of inclination in the air advancing direction on one side wall surface of the confluence.

In addition, the outlet of the compressed air supply unit is characterized in that formed at a predetermined angle in the circumferential direction to form a vortex inside the confluence.

The suction nozzle of the suction part is coupled to the work tool so as to be sucked immediately upon generation of dust, characterized in that the workplace more clean.

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

1 is a schematic configuration diagram showing the overall configuration of the present invention, Figure 2 is a perspective view of the main part of the present invention.

The constitution of the present invention is a compressed air supply unit 10 for supplying high-speed compressed air, a suction unit 20 for sucking dust, etc. and a confluence unit 30 for generating suction force, and a filter unit 40 for removing dust, etc. It is roughly divided into).

The compressed air supply unit 10 is an elbow 14 for connecting the pneumatic pipe 13 to the pneumatic pipe 13 for supplying the compressed air compressed by the compressor 12 and the body 31 forming the closed space. And a spout 11 for spouting compressed air into the confluence portion 30 while obliquely inclining in the body 31.

The confluence unit 30 is formed by forming a closed space inside the body 31 to generate a suction force in the low pressure phenomenon formed by the flow of compressed air ejected at high speed from the compressed air supply unit 10. .

The suction unit 20 is connected to the suction tube 21 and the body 31 through the nipple 23 so as to suction and transport the dust by the suction force due to the low pressure phenomenon of the confluence unit 30, the suction tube 21 Includes a suction nozzle 22 installed in close proximity to the work tool.

The filter unit 40 is installed on the flow path of air discharged from the confluence unit 30 and includes a filter for separating foreign substances such as dust contained in the discharged air.

 3 is a cross-sectional view showing an internal configuration of the present invention, in which the confluence part 30 formed inside the body 31 forms a relatively large space, and the outlet 11 of the compressed air supply part 10 is the confluence. One side of the wall 30 is formed so that the compressed air is blown with a predetermined angle of inclination in the air advancing direction.

As another embodiment of the present invention, the outlet 11 of the compressed air supply unit 10 may be formed by forming a predetermined angle in the circumferential direction to form a vortex in the confluence unit 30.

Looking at the effect of the present invention configured as described above.

When the high-pressure compressed air supplied from the compressor 12, the compressed air supply unit 10, is ejected at high speed through the ejection opening 11 in the body 31, in the discharge direction in one side in the confluence portion 30, which is a relatively large space. Air flow is generated and suction force is generated while the pressure decreases with the vortex at the rear end of the confluence unit 30 to suck foreign matter, dust, etc. through the suction unit 20 connected thereto.

4 is a working state diagram showing the removal process of the gate 61 formed in the injection workpiece 60 according to the present invention as the suction nozzle 22 of the suction unit 20 is installed in close proximity to the working tool 50 Ensure that chips or dust generated by the work tool are sucked out immediately.

That is, in the injection workpiece 60 by injection molding, protrusions 61, such as gates, which are not necessary for the final finished product but are essentially formed during the injection operation process, are formed. It can be removed easily.

In the present invention, the compressor 12 for compressing air and the confluence part 30 for generating suction force and the filtration part 40 are not installed in the work space but are separately installed outside to perform a very quiet and clean work in the workplace. Do it.

As described above, the present invention provides a clean working environment by preventing the generation of noise and the spread of dust in a work process such as precision finishing work such as injection molding, and in particular, a plurality of workers use an integrated work tool. It is a very useful technology to increase the efficiency of work and to enable precise work by supplying high pressure compressed air and collecting the collected foreign matters together.

1 is a schematic configuration diagram showing the overall configuration of the present invention.

2 is a perspective view of main parts of the present invention;

Figure 3 is a cross-sectional view of the working state showing the internal configuration of the present invention.

Figure 4 is a perspective view of the working state of the suction unit according to the present invention.

5 is a cross-sectional view of the working state of the suction unit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: compressed air supply unit 11: compressed air outlet

12: Compressor 13: Pneumatic Tube

14: elbow 20: suction

21: suction pipe 22: suction nozzle

23: nipple

30: confluence 31: body

40: filtration unit 50: working tool

60: workpiece

Claims (4)

  A compressed air supply unit 10 including a jet port 11 for ejecting the compressed air compressed by the compressor 12 at an oblique angle into the closed space; A confluence unit 30 forming a closed space inside the body 31 to generate a suction force due to a low pressure phenomenon formed by a flow of compressed air ejected at high speed from the compressed air supply unit 10; A suction part 20 including a suction nozzle 22 connected to a suction pipe 21 to suction and transfer dust and the like by suction force due to the low pressure phenomenon of the confluence part 30; Is installed on the flow path of the air discharged from the confluence unit 30, the dust extraction device using the compressed air, characterized in that composed of a filter unit 40 to separate the foreign matter and air, such as dust. The method of claim 1, Blowing device (11) of the compressed air supply unit 10 is a suction device using the compressed air, characterized in that the compressed air is ejected with a predetermined angle of inclination in the air advancing direction on one wall surface of the confluence (30). The method according to claim 1 or 2, Blowing device 11 of the compressed air supply unit 10 is formed using a compressed air, characterized in that formed at a predetermined angle in the circumferential direction to form a vortex inside the confluence (30). The method of claim 1, The suction nozzle 22 of the suction unit 20 is coupled to the work tool 50 in close proximity to the suction device, characterized in that the dust is sucked out immediately.