KR20220073214A - Air-purge device having air room - Google Patents

Abstract

The present invention relates to an air purge unit having an air room, wherein the air purge unit is formed in a cylindrical shape, the front end is closed and the rear end is open, the base having an insulator seal therein, and the front end of the base An insulator comprising a cover mounted and provided to communicate with the insulator chamber, and an air supply unit connected to an air supply port formed in the cover to supply air into the insulator chamber,
The base includes a first through hole formed to pass through the front and rear surfaces for the electrode rod to penetrate through the central portion of the front surface of the base, a plurality of air injection holes formed radially to penetrate the front and rear surfaces on the front surface of the base, and the base of the base. It includes a ring-shaped support protrusion formed to protrude outward along the edge of the base on the rear side,
The cover includes a fastening protrusion protruding rearward along the rear edge on the rear surface of the cover, and a fitting protrusion protruding rearwardly from the rear center portion of the cover;
Air formed in the space between the fastening protrusion and the fitting protrusion as the fastening protrusion and the fitting protrusion are formed on the rear surface of the cover and a second through hole which is formed to pass through the front and rear surfaces of the fitting protrusion and allows the electrode rod to pass therethrough. A room and an air supply port formed to communicate with the air room on the outer periphery of the cover and receive air from the air supply unit, the present invention injects air into the insulator chamber, exhaust gas There is a remarkable effect of improving the performance of the dust collector by preventing the black carbon contained in the insulator from being stacked on the insulator, the electrode rod and the electrode cell, and maintaining the insulation of the electrode.

Description

Air purge unit with air room {AIR-PURGE DEVICE HAVING AIR ROOM}

The present invention relates to an air purge unit having an air room, and more particularly, an air purge unit having an air room for supplying air into an insulator chamber to prevent carbon from being stacked on an electrode and an electrode cell of an electric dust collector. is about

In general, exhaust gas emitted from ships includes PM (Particulate Matter), dust, and fine dust (hereinafter, collectively referred to as "PM"). These are representative air pollutants that are subject to emission regulations from the Organization.

In particular, since ships use HFO (Heavy Fuel Oil), a low-grade raw material with high viscosity, low volatility, and low flammability, to reduce fuel costs, PM is generated more than other transportation means due to incomplete combustion. .

Since these PMs are usually very small, about a few micrometers in size, they are moved while floating in the air, and they are adsorbed on the hull or facilities provided on the hull, impairing the aesthetics and adversely affecting the marine ecosystem or people.

In order to solve this problem, an electric dust collector is applied to a ship, which is disposed on a flow path through which air flows and collects contaminants such as dust contained in the air.

However, in the conventional electric dust collector, as the period of use increases, the black carbon contained in the exhaust gas is stacked on electrodes and cells, and when a current flows through the electrode on which the black carbon is stacked, electricity is energized and the performance of the dust collector is deteriorated. .

Republic of Korea Patent Publication No. 10-1413644

The present invention has been devised to solve this problem, and the air in which high pressure air is injected into the insulator chamber through a separate air supply unit to prevent black carbon contained in the exhaust gas from flowing into the insulator chamber is formed. It is intended to provide a purge unit.

The present invention relates to an air purge unit having an air room, wherein the air purge unit is formed in a cylindrical shape, the front end is closed and the rear end is open, the base having an insulator seal therein, and the front end of the base An insulator comprising a cover mounted and provided to communicate with the insulator chamber, and an air supply unit connected to an air supply port formed in the cover to supply air into the insulator chamber,

The base includes a first through hole formed to pass through the front and rear surfaces for the electrode rod to penetrate through the central portion of the front surface of the base, a plurality of air injection holes formed radially to penetrate the front and rear surfaces on the front surface of the base, and the base of the base. It includes a ring-shaped support protrusion formed to protrude outward along the edge of the base on the rear side,

The cover includes a fastening protrusion protruding rearward along the rear edge on the rear surface of the cover, and a fitting protrusion protruding rearwardly from the rear center portion of the cover;

Air formed in the space between the fastening protrusion and the fitting protrusion as the fastening protrusion and the fitting protrusion are formed on the rear surface of the cover and a second through hole which is formed to pass through the front and rear surfaces of the fitting protrusion and allows the electrode rod to pass therethrough. It characterized in that it comprises a room and an air supply port formed on the outer periphery of the cover to communicate with the air room to receive air from the air supply unit.

In addition, the first through hole of the base is formed to have a larger diameter than the electrode rod, the fitting projection of the cover is formed to have a lower height than the fastening projection, the rear end of the fitting projection is the base of the It is characterized in that it is provided so as not to contact the front surface.

Therefore, the present invention injects air into the insulator chamber, prevents black carbon contained in the exhaust gas from being stacked on the insulator, electrode rod, and electrode cell, and maintains the insulation of the electrode, thereby improving the performance of the dust collector. have.

1 is a conceptual diagram of an air purge unit having an air room according to the present invention.
FIG. 2 is an enlarged view of the insulator shown in FIG. 1 .
3 is a front view of FIG. 2 ;
4 is a state diagram in which the air purge unit in which the air room is formed according to the present invention is mounted on the electric dust collector.

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

Since the accompanying drawings are only examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

1 is a conceptual diagram of an air purge unit having an air room according to the present invention.

As shown in FIG. 1 , the air purge unit 100 having an air room according to the present invention includes an insulator 120 composed of a base 140 and a cover 160 , and air supplying air into the insulator. A supply unit 180 is included.

Hereinafter, before describing the insulator 120 of the present invention, the electrostatic precipitator 10 to which the present invention is applied will be briefly described.

As shown in FIG. 4 , a general electric dust collector 10 to which the present invention is applied includes a housing 12 having a space formed therein, and a dust collector mounted inside the housing to collect dust.

The dust collecting unit includes a plurality of electrode plates and dust collecting plates alternately arranged, and electrode cells connected to be spaced apart from each other;

and a voltage applying plate 14 on which electrodes are disposed so as to be respectively connected to the front and rear of the electrode cell to apply a voltage to the electrode plate of the electrode cell.

The electrode and the electrode plate are electrically connected by an electrode rod 16 , and the electrode rod is insulated by the insulator 120 .

That is, the insulator supports the end of the electrode and serves to insulate the housing.

In addition, in the present invention, the electrostatic precipitator is briefly described to explain the insulator, and since the electrostatic precipitator is a generally widely used and customary means, a detailed description thereof will be omitted.

Figure 2 is an enlarged side view of the insulator, Figure 3 is a front view of the insulator.

The insulator 120 according to the present invention is made of mica, which is an insulating material, and is provided to wrap and insulate a part of the end of the electrode.

2 to 3 , the insulator 120 includes a base 140 having a space formed therein, and a cover 160 that is mounted on the front end of the base and communicates with the base and the inner space. include

Hereinafter, for clarity of explanation, the present invention will be described by referring to one surface of the base on which the cover is mounted as the front end.

The base 140 is formed in a cylindrical shape with one side (rear side) open and a space (hereinafter referred to as 'insulator room') formed therein,

A first through hole 142 and an air injection hole 144 for passing the electrode 16 through are formed on the other closed surface (front) of the base, and an open surface has a ring-shaped support along the edge to the outside. A projection 146 is formed.

The first through-hole 142 is an element for the electrode 16 to pass through, and the diameter of the first through-hole is formed to be larger than the diameter of the electrode, and is formed between the electrode rod fastened to the cover to be described later and the through hole. Make a gap hole.

A plurality of air injection holes 144 are radially formed on the other surface of the base, and are elements for supplying (injecting) air supplied from an air supply unit 180 to be described later into the insulator chamber.

The support protrusion 146 is an element for fastening the insulator 120 to the voltage applying plate 14 .

A plurality of fasteners (not shown) are radially formed on the ring-shaped support protrusion, and the fastener is an element for a separate fastening member (not shown) to pass through, and the insulator is a voltage applied by the fastening member. It is stably fastened to the plate, etc.

Meanwhile, a cover 160 is mounted on the front end of the base.

The cover 160 has a disk shape, and a second through hole 162 through which the electrode rod passes is formed in the central portion of the cover.

In addition, a fastening protrusion 164 protruding rearward along the edge is formed on the rear edge of the cover, and a fitting protrusion 166 protruding rearwardly is formed in the rear center portion, and the fitting protrusion has a second through hole 162 . ) is provided to form an extension.

Accordingly, an air room (R) is formed in the space between the fastening protrusion and the fitting protrusion.

In addition, the fitting protrusion is formed to have a lower height than the fastening protrusion, and the rear end of the fitting protrusion is provided so as not to contact the front surface of the base, and thus the air room is formed to communicate with the insulator chamber.

In addition, an air supply port 168 is formed on the outer periphery of the cover 160, and the air supply port is provided to communicate with the air room.

The air supply port 168 is connected to an air supply unit 180 to be described later, and is an element receiving air.

When air is supplied into the air room through the air supply port, the pressure of the air room rises, and accordingly, the air inside the air room is discharged through the air injection hole and the gap hole formed in the first through hole.

When air at a high flow rate is supplied to the inside of the insulator chamber through the air injection hole and the gap hole, the air blows the carbon stacked inside the insulator chamber and the carbon stacked on the electrode, and the exhaust gas flows into the insulator chamber. It has the effect of preventing the inflow.

Meanwhile, the air supply unit 180 is an element for providing high-pressure air into the insulator chamber.

The air supply unit includes an air supply pipe 182 connected to the air supply port 168, an air tank 184 connected to the air supply pipe, air is accommodated therein to supply air to the insulator chamber, and the air supply pipe It is mounted on and includes a valve 186 for opening and closing the air supply pipe.

When an open signal is applied to the air tank and the valve by the controller or the like, high-pressure air is supplied to the air room R through the air supply port 168 .

The air room is provided to communicate with the insulator by the air injection hole 144 and the gap hole formed between the first through hole and the electrode, and the high-pressure air supplied to the air room is supplied to the insulator through the air injection hole and the gap hole. It is sprayed towards the thread.

Since the air injection hole is provided to have a flow path smaller than that of the air room, the air flowing into the insulator chamber through the air injection hole after passing through the air room is provided to have a high flow rate.

The air injected into the insulator chamber with a certain kinetic energy blows the black carbon stacked on the electrode rod and the black carbon stacked on the inside of the insulator chamber at a high pressure to improve the performance of the dust collector.

As described above, the present invention has been described with reference to the embodiment shown in the drawings, but this is only for explaining the invention, and various modifications or equivalents from the detailed description of the invention to those of ordinary skill in the art to which the present invention pertains It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

10: electrostatic precipitator
12: housing
14: voltage application plate
16: electrode rod
100: air purge unit with air room formed
120: insulator
140: base
142: first through hole
144: air injection hole
146: support projection
160: cover
162: second through hole
164: fastening protrusion
166: fitting projection
168: air supply port
R: air room
180: air supply unit
182: air supply pipe
184: air tank
186: valve

Claims (2)

an insulator formed in a cylindrical shape, the front end being closed and the rear end open, including a base having an insulator seal therein, and a cover mounted on the front end of the base so that the insulator seal and the inside communicate with each other;
An air supply unit connected to an air supply port formed in the cover to supply air into the insulator chamber; including,
The base is
a first through hole formed to penetrate the front and rear surfaces so that the electrode rod penetrates through the front central portion of the base;
A plurality of air injection holes formed radially to penetrate the front and rear surfaces on the front surface of the base;
It includes a ring-shaped support protrusion formed on the rear surface of the base to protrude outward along the edge of the base,
The cover is
a fastening protrusion protruding backward along the rear edge on the rear surface of the cover;
A fitting protrusion formed to protrude rearwardly to the center of the rear surface of the cover;
a second through hole formed to pass through the front and rear surfaces of the fitting protrusion so that the electrode rod passes therethrough;
An air room formed in a space between the fastening protrusion and the fitting protrusion as the fastening protrusion and the fitting protrusion are formed on the rear surface of the cover;
The air purge unit formed with an air room, characterized in that it comprises an air supply port formed to communicate with the air room on the outer periphery of the cover to receive air from the air supply unit.
The method of claim 1,
The first through hole of the base is formed to have a larger diameter than the electrode rod,
The fitting protrusion of the cover is formed to have a lower height than the fastening protrusion, and the rear end of the fitting protrusion is provided so as not to contact the front surface of the base.

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