WO2017074019A1

WO2017074019A1 - Electric dust collector capable of removing dust and gas in injection machine

Info

Publication number: WO2017074019A1
Application number: PCT/KR2016/012079
Authority: WO
Inventors: 김우진; 손창희; 이우종
Original assignee: 한국생산기술연구원
Priority date: 2015-10-31
Filing date: 2016-10-26
Publication date: 2017-05-04
Also published as: KR101721033B1

Abstract

The present invention provides an electric dust collector for removing dust and gas in an injection machine, which is an electric dust collector for collecting and removing dust and gas in the air while the air is introduced through a lateral side thereof and discharged through the lower side thereof, the electric dust collector comprising: a charging part (120) for charging a particle in introduced air with electricity; and a dust collecting part (130) for collecting the charged particle, wherein the dust collecting part has a reservoir (140) for containing water therein so as to decompose and remove water-soluble gas in the introduced air.

Description

[Correction 09.11.2016] by Rule 26 Electric dust collector which can remove dust and gas inside injection machine

The present invention relates to an electrostatic precipitator capable of removing gas and dust generated in the injection molding machine at the same time, and specifically, it is possible to remove gases such as O ₃ , SO _2, etc. generated in the medical equipment injection equipment requiring clean injection. At the same time, it relates to equipment that can also remove suspended dust.

In general, mechanical equipment such as injection equipment generates a lot of gas and dust depending on the operation, so it must be removed. In particular, in the case of a medical device or a device for injecting a medical device there is a need to provide a more clean environment due to its characteristics, in the case of medical device injection equipment it is necessary to further remove gas and dust.

1 illustrates a method of removing dust from a conventional medical device injection device. 1, the filter for dust collection was provided in one side or the upper side of an injection molding machine. However, such a filter does not have a function of simultaneously removing gas by merely performing dust filtering, and has a problem of lowering energy efficiency due to pressure loss caused by passing through the filter.

An object of the present invention is to provide a device capable of simultaneously removing gas and suspended dust such as O ₃ , SO ₂ generated in the injection molding machine to enable a clean injection to the medical device injection equipment.

The present invention for solving the above problems, the present invention relates to an electrostatic precipitator that can remove the gas and dust generated in the injection machine at the same time, specifically O O generated in the medical equipment injection equipment that requires clean injection ₃ , and equipment that can remove gases such as SO ₂ and remove suspended dust at the same time.

In the electrostatic precipitator of the present invention, the charged dust particles in the air at the charging unit are collected in the vertical plate 130 by the potential difference between the vertical plate 130 and the porous hygroscopic medium, and O ₃ and SO ₂ present in the air. A gas such as this is collected in the porous moisture absorption medium so that dust and gas are effectively removed.

In addition, the present invention is an open channel type in which the vertical plate 130 is arranged side by side in the air flow direction and discharges the air through the lower side so that air is introduced through the four sides of the dust collector and does not interfere with the flow of the air. This also has the beneficial effect that little pressure loss occurs.

1 illustrates a method of removing dust from a conventional medical device injection device,

Figure 2 schematically shows the electrostatic precipitator installation of the medical equipment injection equipment according to the present invention,

3 is a perspective view of an electrostatic precipitator according to the present invention,

Figure 4 is a schematic view of the charging unit of the electrostatic precipitator according to the present invention,

5 is a schematic view of a dust collector of an electrostatic precipitator according to the present invention,

6 is a state in which the upper plate of the electrostatic precipitator according to the present invention is removed,

7 is a view of the top plate of the electrostatic precipitator according to the present invention.

The present invention is an electric dust collector for collecting and removing dust and gas in the air in the process of air is introduced from the side, the air is discharged to the lower surface, the charging unit 120 for charging the particles in the air introduced; And a dust collecting part 130 for collecting the charged particles, wherein the dust collecting part has a reservoir 140 for accommodating water therein to decompose and remove the water-soluble gas in the inflowing air. The present invention provides an electric dust collector for dust and gas removal.

The water soluble gas may be O ₃ or SO ₂ , and the charging unit 120 may include a metal frame 121; And a discharge electrode 127 spaced apart from the metal frame.

The charging unit 120, the insulating frame 123 in contact with the metal frame in the same shape as the metal frame; And a conductive member 125 coupled to the insulating frame 123 and disposed in the transverse direction and not disposed in contact with the metal frame. The discharge electrode 127 provided in the conductive member 125 is further included. It includes;

The discharge electrode is a carbon brush discharge electrode in a bundle form.

A high voltage is applied to the discharge electrode and the metal frame 121 is grounded to charge the particles in the air by causing a discharge to occur between the discharge electrode 127 and the metal frame 121.

The dust collector is disposed in a direction parallel to the flow of air introduced at a predetermined interval, but vertically installed vertically in the vertical direction; and disposed below the vertical plate 130 to accommodate water therein It includes; reservoir 140.

The reservoir 140 is filled with water to a predetermined depth in the inner bottom portion, the porous hygroscopic medium is filled into the reservoir while being immersed in water to a certain depth.

The high voltage of the opposite polarity to the metal plate 121 of the charging unit 120 is applied to the vertical plate 130, and the water reservoir connects the ground so that the porous hygroscopic medium is grounded.

Due to the high voltage of the vertical plate 130, a potential difference is formed between the vertical plate and the porous hygroscopic medium, and the charged particles are collected in the vertical plate 130 due to the potential difference.

Air introduced into the inside of the electrostatic precipitator comes into contact with the porous moisture absorption medium present in the reservoir, and in this process, gases such as O ₃ and SO ₂ present in the air are collected in the porous moisture absorption medium.

In addition, the present invention provides a medical equipment injection machine, characterized in that provided with the above electric dust collector.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Here, the repeated description, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a method according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

Figure 2 schematically shows the installation of the electrostatic precipitator of the medical equipment injection equipment according to the present invention, Figure 3 is a perspective view of the electrostatic precipitator according to the present invention, Figure 4 is a schematic of the charging unit of the electrostatic precipitator according to the present invention 5 is a schematic view of the dust collector of the electrostatic precipitator according to the present invention, FIG. 6 is a view showing the top plate of the electrostatic precipitator according to the present invention, and FIG. 7 is a view of the top plate of the electrostatic precipitator according to the present invention. to be.

First, referring to Figure 2 schematically shows the appearance of the electrostatic precipitator 100 according to the present invention where the filter of the conventional injection equipment is located.

Referring to the electrostatic precipitator 100 according to the present invention shown in FIG. 3, the air is introduced into the four sides of the substantially rectangular parallelepiped shape (inlets 1 to 4), and the air introduced into the outside is opened through the lower open space. It can be seen that the discharge. In order to induce such air flow, a duct and a fan 200 are installed at an appropriate position under the electrostatic precipitator.

In the process of the air inside the injection machine is introduced into the interior through the side of the electrostatic precipitator and discharged to the outside through the lower portion, dust or gas existing in the air is collected. For this collection, the charging section for charging the particles in the air is disposed on the side of the electrical current collector and has a dust collection section for collecting the charged particles.

4 is a schematic view of the charging unit 120 of the electrostatic precipitator according to the present invention.

The charging unit 120 of the present invention is characterized by consisting of a brush-type discharge electrode and a square plate-shaped ground plate to charge the fine particles in the air. Looking at the configuration of the charging unit 120, it is provided with a metal frame 121 of the aluminum frame having a rectangular frame shape.

The inner side of the metal frame 121 is further provided with an insulating frame 123 having a rectangular frame shape of the same shape and connected to and in contact with the metal frame 121 and made of an insulator material. The conductive member 125 disposed in the transverse direction at the center point in the vertical direction of the insulating frame 123 is disposed in the transverse direction. The conductive member 125 is disposed not to contact the metal frame. In addition, the conductive member 125 includes a discharge electrode 127 for discharging at a central point of the insulating frame while being disposed in a horizontal direction at approximately the center of the insulating frame 123. The discharge electrode 127 is a bundle of carbon brush discharge electrodes, and discharge occurs between the discharge electrode 127 and the metal frame 121. To this end, a high voltage is applied to the conductive member 125 electrically connected to the discharge electrode made of a carbon brush, and the metal frame 121 is connected to the ground.

4 shows an enlarged view of one of the discharge electrodes 127, it can be confirmed that the carbon brush shape.

Due to the discharge phenomenon caused by the configuration of the discharge electrode 127 and the metal frame 121, fine particles such as dust present in the air introduced into the interior of the electrostatic precipitator of the present invention appear.

The

dust collecting parts

130 and 140 of the present invention will be described with reference to FIG. 5.

The dust collector of the present invention is disposed in a direction parallel to the flow of air introduced at regular intervals, but disposed below the vertical plate 130 and the vertical plate 130 installed vertically in the vertical direction to receive water therein. It consists of a reservoir 140 that can. In addition, the reservoir 140 is filled with water at a predetermined depth in the inner bottom portion, and the porous hygroscopic medium (not shown) exists in a state filled in the reservoir while being immersed in water at a predetermined depth. In addition, although only a portion of the lower portion of the porous hygroscopic medium is immersed in water, water is entirely absorbed into the porous hygroscopic medium by capillary action due to the porous property.

In this state, a high voltage of opposite polarity to the metal plate 121 of the charging unit 120 is applied to the vertical plate 130 of the dust collector. Then, the ground is connected to the reservoir containing the porous moisture absorbing medium so that the porous moisture absorbing medium containing water serves as the ground. Then, a potential difference is formed between the vertical plate 130 and the porous hygroscopic medium, and due to the potential difference, the charged particles in the charging unit are collected in the vertical plate 130 while passing through the charging unit 120. do.

In addition, the air is in contact with the porous moisture absorbent medium present in the reservoir during the inflow from the side of the electrostatic precipitator of the present invention, and in this process, gases such as O ₃ and SO ₂ present in the air are collected in the porous moisture absorbent medium. Will be. In addition, ozone or the like which is decomposed well in water is decomposed and reduced in water while passing through the porous moisture absorbing medium. Thus, water-soluble gas is removed by physical adsorption with the moisture absorbing medium and bonding with water.

6 is a view of the top plate of the electrostatic precipitator according to the present invention is removed, and FIG. 7 is a view of the top plate 140 of the electrostatic precipitator according to the present invention and shows a vertical plate 130 disposed on the top plate.

The dust collector of the present invention simultaneously removes the floating dust and the water-soluble gas generated in the injection machine through the above principle, and exhibits the effect of improving energy efficiency.

100: electric dust collector

120: charging unit

121: metal frame

123: Insulation Frame

125: conductive member

127: discharge electrode

130 and 140: dust collector

130: vertical plate

140: Reservoir

200: fan

Claims

It is an electric dust collector which collects and removes dust and gas in the air in the process of inflow of air from the side and discharge of air to the lower surface.

A charging unit for charging particles in the air introduced thereto; And

Having a dust collecting unit for collecting the charged particles,

The dust collector is provided with a reservoir for accommodating water therein, characterized in that to decompose and remove the water-soluble gas in the air, the injection machine dust and gas removal electric dust collector.
The method of claim 1,

The water-soluble gas is characterized in that the O 3 or SO 2 , the dust collector and the electric dust collector for gas removal.
The method of claim 1, wherein the charging unit,

Metal frame;

Electrode dust collector for dust and gas removal, comprising: a discharge electrode spaced apart from the metal frame.
The method of claim 3, wherein the charging unit,

An insulating frame contacting the metal frame in the same shape as the metal frame; And

A conductive member coupled to the insulating frame and disposed in a horizontal direction, the conductive member being disposed not to be in contact with the metal frame;

Electrode dust collector for dust and gas removal, comprising: a discharge electrode provided in the conductive member.
The method of claim 3, wherein

The discharge electrode is characterized in that the bundle of carbon brush discharge electrode, dust collector and dust collector for gas removal.
The method of claim 5,

And a high voltage is applied to the discharge electrode, and the metal frame is connected to ground, thereby discharging the particles in the air by causing a discharge between the discharge electrode and the metal frame.
The method of claim 1, wherein the dust collecting unit,

Vertical plates disposed in parallel with the flow of air flowing at a predetermined interval and installed vertically in the vertical direction; And

A reservoir disposed under the vertical plate to accommodate water therein; Characterized in that it comprises an injection dust collector and dust collector for gas removal.
The method of claim 7, wherein

The reservoir is filled with water to a predetermined depth in the inner bottom portion, characterized in that the porous hygroscopic medium is filled in the reservoir while being immersed in water to a certain depth, the electric dust collector for injection dust and gas.
The method of claim 8,

The high voltage of the opposite polarity to the metal plate of the charging unit is applied to the vertical plate, and the reservoir is connected to the ground so that the porous hygroscopic medium is grounded, dust collector and electric dust collector for gas removal.
The method of claim 9,

Due to the high voltage of the vertical plate, a potential difference is formed between the vertical plate and the porous hygroscopic medium,

And the charged particles are collected on the vertical plate due to the potential difference.
The method of claim 10,

The air introduced into the interior of the electrostatic precipitator is in contact with the porous hygroscopic medium present in the reservoir, and in this process, the gas such as O 3 , SO 2 existing in the air is collected in the porous hygroscopic medium, Injection machine Electric dust collector for dust and gas removal.
The medical equipment injection machine provided with the electrostatic precipitator of any one of Claims 1-11.