KR101219406B1 - A the dust reduction system which uses a nothing power cyclone method - Google Patents

Abstract

The present invention relates to a dust reduction device using a non-powered cyclone, and more particularly, it is installed in a building such as subway station, etc. installed in an air conditioner for supplying air to the room, etc. The present invention relates to a dust reduction device using a non-powered cyclone textile which filters foreign substances and supplies purified clean air to a room.
The present invention for achieving the above object is a case portion formed with a space portion on the inside, the cyclone is installed on the cantilever portion of the kasu portion, foreign matter guide portion for guiding the foreign matter separated from the cyclone by covering the space portion of the case and It is installed on the lower end of the case is characterized in that consisting of a foreign matter collecting unit for collecting foreign matter.

Description

A dust reduction system which uses a nothing power cyclone method

The present invention relates to a dust reduction device using a non-powered cyclone, and more particularly, it is installed in a building such as subway station, etc. installed in an air conditioner for supplying air to the room, etc. The present invention relates to a dust reduction device using a non-powered cyclone textile which filters foreign substances and supplies purified clean air to a room.

In general, indoors of buildings such as subway stations continue to supply fresh air from the outside. An air conditioner is used for this purpose.

In this way, the air conditioner is provided with an air filter for removing foreign matter from the polluted air from the outside and the internal circulating air. Conventional air filters have a structure in which fine passage holes are formed through which air passes but foreign substances in contaminated air do not pass. Such air filters are very important to maintain.

At this time, if the passage hole of the air filter is clogged, as well as the deterioration of the foreign material removal performance, loss of the air supply pressure is generated, the operating efficiency of the air conditioner is lowered.

Therefore, continuous maintenance such as cleaning and replacement is necessary so that the passage hole of the air filter is not blocked.

Thus, in the case of the conventional air filter, if the passage hole is blocked by foreign matters, the filter was cleaned or replaced.

When the air filter is cleaned by vacuum cleaning in such a manner as to clean the filter, a separate accessory such as a pump facility for suctioning and a bag filter capable of collecting the collected foreign matter is required.

In addition, due to the foreign matter deposited on the suction unit frequently occurs a failure of the equipment, there was a problem that the efficiency is lowered because the foreign matter is blocked in the suction unit and the transfer pipe.

On the other hand, spraying the water to wash the filter by spraying water has a problem that requires a separate additional equipment for supplying, circulating, disposal of the washing water.

The present invention has been made in order to solve the above-described problems, so that the vortex is generated by the flow rate of the air flowing into the room from the outside so that only the purified air by filtering the foreign matter, such as dust contained in the air to be supplied to the room Its purpose is to.

In addition, by purifying the air by separating the foreign matter, such as dust contained in the air by the flow rate of the air flowing from the outside, there is no need to provide a separate operating power source to prevent power waste.

By allowing the vortices to be generated due to the flow rate, the structure is simple because no parts such as bearings and belts used for generating centrifugal force are used, and no trouble or replacement of parts is required due to the attachment of contaminants. The aim is to reduce maintenance costs and at the same time reduce maintenance costs.

On the other hand, as the vortex is formed by the flow rate flowing from the outside, foreign substances such as dust contained in the air are separated, and the separated foreign matter is discharged through a separate line, thereby purifying the secondary air polluted and supplied to the room. Its purpose is to prevent it.

In addition, by providing a washing unit for washing by spraying water, the purpose is to remove the contaminants attached to the cyclone to always keep the cyclone clean.

The present invention for achieving the above object is a case portion including a case formed with a coupling portion connected to the space portion and the space portion therein, a housing installed in the case space portion of the case portion, and is installed inside the housing Cyclone consisting of a vortex generating member, a cover member for covering the rear portion of the housing, a foreign matter guide portion for guiding the foreign matter separated from the cyclone by covering the space portion of the case portion, and is installed at the bottom of the case portion to collect foreign matter Containing a foreign matter collecting portion and the cleaning unit is installed to be spaced apart to the rear portion of the foreign matter guide portion, the housing has a pair of mounting holes formed in the inlet hole in the inner side of the coupling hole, and the side of the installation port A separation chamber formed to be connected to the inlet hole, and a guide formed at a lower end of the separation chamber; It is formed in a direction opposite to the separation chamber is formed and comprises a fixed plate fixed to the case, the cover member is formed to correspond to the installation port of the housing, the inner side is formed with a space corresponding to the separation chamber of the housing and one side to this space The inclined protrusion and the opposite direction is formed to include an air outlet formed to protrude outward and the foreign matter guide port protruding outwardly to the bottom of the cover member to correspond to the guide of the housing, the foreign material guide is formed on one side Information room; Is connected to the guide chamber, the first through-hole is formed to correspond to the coupling hole formed in the case of the case portion is inserted into the air outlet formed in the cover member of the cyclone, the fitting is formed in the lower end of the first through hole is coupled to the foreign matter guide sphere A guide plate in which a ball is formed; And a cover plate covering the guide chamber of the guide plate and having a second through hole corresponding to the first through hole.

Here, the coupling hole is characterized in that the pair is provided with two pairs.

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At this time, the installation port of the housing is characterized in that the support is fixed by a plurality of ribs is provided with a fixture installed in the inlet central portion of the inlet hole.

Further, the vortex generating member is installed in the inlet hole of the housing, one side is formed in a conical shape, the opposite direction is provided with a shaft formed with an expansion port, the outer peripheral surface of the shaft formed in the conical shape in the inner circumferential surface of the inlet hole It characterized in that the plurality of wings are fixed to the support.

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In addition, the foreign matter collecting unit is installed in the case lower portion of the case, the inner side is formed with a collecting chamber is open on one side, the upper is provided with a collecting member formed with an inlet connected to the guide chamber formed in the guide plate of the foreign matter guide, Covering the collection chamber opening of the, characterized in that the blocking plate formed with a binding hole connected to the collection chamber.

Here, the discharge member is coupled to the binding hole of the blocking plate is characterized in that it is further provided.

On the other hand, the case of the case, the guide plate and the cover plate of the foreign matter guide, and the collecting member of the foreign matter collecting unit is characterized in that each provided with a pair.

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Here, the washing unit is a pair of connecting pipes corresponding to each other in the vertical direction on both sides of the cover plate, the injection pipe is installed between the connecting pipes and both sides connected to the connection pipe, the pair of connections Characterized in that consisting of the supply pipe is installed in any one of the pipe.

The present invention configured as described above has an effect that vortices are generated by the flow rate of air introduced into the room from the outside, so that only the purified air is supplied to the room by filtering foreign substances such as dust contained in the air.

In addition, by purifying the air by separating the foreign substances such as dust contained in the air by the flow rate of the air flowing from the outside, there is an effect that it is not necessary to provide a separate operating power source to prevent power waste.

By allowing the vortices to be generated due to the flow rate, the structure is simple because no parts such as bearings and belts used for generating centrifugal force are used, and no trouble or replacement of parts is required due to the attachment of contaminants. In addition to reducing the cost and maintenance costs.

On the other hand, as the vortex is formed by the flow rate flowing from the outside, foreign substances such as dust contained in the air are separated, and the separated foreign matter is discharged through a separate line, thereby purifying the secondary air polluted and supplied to the room. It is effective to prevent it.

In addition, by further comprising a washing unit for washing by spraying water, there is an effect to remove the contaminants attached to the cyclone to always keep the cyclone clean.

1 is an exploded perspective view showing a dust reduction device using a non-powered cyclone method according to the present invention.
Figure 2 is a perspective view showing a dust reduction device using a non-powered cyclone method according to the present invention.
3A is a cross-sectional view illustrating a line AA of FIG. 2.
3B is a cross-sectional view illustrating the BB line of FIG. 2.
Figure 4 is a perspective view of the case portion of the present invention.
5 is a perspective view showing a cyclone of the present invention.
6 is a cross-sectional view showing a cyclone of the present invention.
7 is a cross-sectional view showing a foreign matter collecting portion of the present invention.
8 is a view showing the working relationship of the dust reduction device using a non-powered cyclone method according to the present invention.

Hereinafter, the dust reduction apparatus using the non-powered cyclone method according to the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a dust reduction device using a non-powered cyclone method according to the present invention.

Figure 2 is a perspective view showing a dust reduction device using a non-powered cyclone method according to the invention, Figure 3a is a cross-sectional view showing a line AA of Figure 2, Figure 3b is a cross-sectional view showing a line BB of Figure 2, Figure 4 5 is a perspective view showing a cyclone of the present invention, Figure 6 is a perspective view showing a cyclone of the present invention, Figure 6 is a cross-sectional view showing a cyclone of the present invention, Figure 7 is a cross-sectional view showing a foreign matter collecting portion of the present invention.

As shown in FIGS. 1 to 7, the dust reduction device 100 using the non-powered cyclone method according to the present invention includes a case part 110 installed upright in a vertical direction.

Here, the case part 110 is provided with a case 112 having a space 114 formed at one side thereof to be opened, and a coupling hole 116 connected to the space 114.

At this time, the coupling hole 116 formed in the case 112 is formed of two pairs of two pairs.

In addition, the case 112 may be installed one or more in succession with each other according to the space in which the dust reduction device 100 using the non-powered cyclone method is installed.

In addition, the cyclone 210 is installed in the case 112 and the space 114 of the case unit 110 to generate vortices by the flow rate of air introduced from the outside to separate the air and the foreign matter.

Here, the cyclone 210 is provided with a housing 212 is fixed to the space portion 114 of the case 112.

At this time, the housing 212 is located in the space portion 114 of the case 112, the inlet hole 214a is formed on the inside of the pair of installation is fitted to each of the coupling hole 116 of the case 112 A sphere 214 is provided, and a separation chamber 216 is formed at the rear of the pair of installation holes 214 to collect a pair of inflow holes 214a into one and separate foreign matter from the air. At the lower end portion thereof, a guide port 216a protruding outward is formed, and a fixing plate 217 is fixed to the case 112 by a fixing means such as a bolt in the opposite direction in which the separation chamber 216 is formed.

In addition, the inlet hole 214a of the inlet hole 214 has a fixed body 218 fixed by a plurality of ribs 218a.

Furthermore, a vortex generating member 220 is provided inside the housing 212 to allow vortices to occur due to the flow rate of air introduced from the outside.

At this time, the vortex generating member 220 is inserted into the inlet hole (214a) formed in the inner side of the housing 212, the space is formed inside, the end is formed in a conical shape, the opposite direction is formed to have a large diameter and expand inclined The shaft 222 is formed with the expansion port 222a is formed, the outer portion of the shaft 222 formed in a conical shape is formed in a screw shape is formed wing 224 is installed on the inner peripheral surface of the inlet hole (214a).

In addition, a cover member 230 that covers one side of the housing 212, and is fixed to the housing 212 by fixing means such as a bolt so that the opening of the separation chamber 216 is covered.

At this time, the cover member 230 has a space formed inside to correspond to the separation chamber 216 of the housing 212, the one side facing the space direction is formed to be inclined protruding so as to decrease the diameter of the shaft 222 expansion The inside of the sphere 222a is spaced apart from the inner circumferential surface, and the opposite direction is formed with an air outlet 232 protruding in the opposite direction provided with the shaft 222, the lower end of the cover member 230 of the housing 212 The foreign material guide 234 is formed to correspond to the guide 216a and protrude to be inclined downward.

In addition, the expansion part 222a of the shaft 222 is installed to be spaced apart from the inner space of the space of the cover member 230, and is formed with the inner space of the space formed inside the expansion port 222a of the shaft 222 to cover the member 230. It is installed in a state covered with a spaced apart from the outer portion of the air outlet 232 protruding into the inner space portion of the).

Therefore, when external air flows into the inlet hole 214a of the housing 212, vortices are generated in the process of passing through the plurality of blades 224 by the flow rate of air flowing into the inlet hole 214a. Foreign matter such as dust having a greater specific gravity than air due to vortex is discharged to the outside through the foreign matter guide port 234 of the cover member 230 while turning the edge of the separation chamber 216, and the air is discharged through the air outlet 232. Will be supplied indoors

In addition, a foreign material guide 310 is installed at the rear of the case 112 of the case part 110 to collect and guide foreign matter separated from air in the cyclone 210.

Here, the foreign material guide 310 is formed in the guide chamber 314 inside the rear and the lower portion is open, is connected to the guide chamber 314, the air outlet formed in the cover member 230 of the cyclone 210 ( The guide plate 312 is formed with a plurality of first through holes 316 through which 232 passes.

At this time, the guide plate 312 is formed with a fitting hole 318 through which the foreign matter guide hole 234 formed in the cover member 230 of the cyclone 210 is inserted.

Furthermore, the air cover the side of the open guide chamber 314 of the guide plate 312, is formed to correspond to the first through-hole 316 formed in the guide plate 312 is formed in the cover member 230 of the cyclone 210 A cover plate 320 having a second through hole 322 formed therein through which the outlet 232 is inserted is provided.

Accordingly, the foreign matter separated from the air in the cyclone 210 and discharged through the foreign matter guide hole 234 is discharged into the guide chamber 314 of the guide plate 312, and the foreign substance discharged into the guide chamber 314 is the guide chamber 314. Will be discharged to the bottom of the.

In addition, a foreign matter collecting unit 410 is installed below the case unit 110 and the foreign matter guide unit to collect foreign substances discharged by the guide of the foreign substance guide unit 310.

Here, the foreign matter collecting unit 410 is provided at the lower portion of the case 112 and the guide plate 312 is provided with a collecting member 412 formed with a collecting chamber 414 to open one side inside.

At this time, the inlet 416 is formed in the upper portion of the collecting member 412 to be connected to the guide chamber 314 of the guide plate 312.

Furthermore, a blocking plate 418 is provided to cover the opening of the collecting chamber 414 formed in the collecting member 412, and a binding hole 418a connected to the collecting chamber 414 is formed.

In addition, the discharge member 420 is fixed by a fixing means such as a bolt to cover the binding hole 418a formed in the blocking plate 418 to discharge the foreign matter collected in the collecting chamber 414 of the collecting member 412 to the outside. Is provided.

In addition, the cleaning unit 510 is provided to be spaced apart from the rear of the foreign matter guide unit 310 to remove contaminants attached to the cyclone 210.

Here, the cleaning unit 510 is provided with a connecting pipe 512 such that a pair of the two sides of the cover plate 320 of the foreign material guide 310 to correspond in the vertical direction.

Furthermore, the injection pipe 514 is installed between the connection pipes 512, and both sides are connected to the pair of connection pipes 512, respectively, to spray water.

At this time, the injection pipe 514 is provided with a plurality of the same height as the air outlet 232 formed in the cover member 230 of the cyclone (210).

In addition, a supply pipe 516 connected to any one of the pair of connection pipes 512 to supply water is provided.

Therefore, when the contaminants are attached to the inside of the housing 212 of the cyclone 210, the contaminants are removed by the water sprayed through the injection pipe 514 to always maintain a clean state.

Referring to the relationship between the dust reduction device using the non-powered cyclone system according to the present invention configured as described above are as follows.

 8 is a view showing the working relationship of the known purification apparatus using a non-powered cyclone method according to the present invention.

As shown therein, the dust reduction apparatus 100 using the non-powered cyclone method according to the present invention firstly receives the outside air as the inlet hole 214a of the installation hole 214 formed in the housing 212 of the cyclone 210. It is introduced and passed through and supplied to the separation chamber 216.

At this time, while passing through the inlet hole (214a) at a high speed, and passing through the blade (224) of the vortex generating member 220 when passing through the inlet hole (214a) of the housing 212 The separation chamber 216 is moved.

In this way, the air moved to the separation chamber 216 of the housing 212 is turned around the inner circumferential surface of the separation chamber 216 by the vortex phenomenon generated in the process of passing through the vortex generating member 220, the air is separated In the process of turning the seal 216, foreign matters such as dust having a greater weight than air are discharged to the outside through the foreign matter guide hole 234 formed in the cover member 230 while turning to the inner edge of the separation chamber 216.

At this time, the foreign matter discharged to the outside of the cover member 230 moves to the guide chamber 314 of the guide plate 312 and at the same time falling to the lower portion of the guide chamber 314 formed in the upper portion of the collecting member 412 Through the accumulation chamber 414 is accumulated through.

In this way, foreign matter accumulated in the collecting chamber 414 of the collecting member 412 is discharged to the outside through the discharge member 420.

On the other hand, the foreign matter is separated by the vortex phenomenon in the cyclone 210 is supplied to the room through the air outlet 232 of the cover member 230.

Therefore, in the process of passing through the cyclone 210 by the flow rate of the air introduced from the outside, the vortex phenomenon is generated by the wing 224 of the vortex generating member 220, the foreign matter from the air by this vortex phenomenon At the same time, the separated foreign matter is discharged to the guide chamber 314 of the guide plate 312 through the foreign matter guide hole 234, and the foreign matter discharged to the guide plate 312 is collected in the collecting member 412 provided at the lower portion thereof. The foreign matter accumulated in the collection chamber 414 is discharged to the outside through the discharge member 420.

In addition, the air from which the foreign matter is separated from the separation chamber 216 of the housing 212 is supplied to the room through the air outlet 232 of the cover member 230.

In addition, the dust contained in the air on the inner circumferential surface of the inlet hole 214a of the shaft 222 or the wing 224 or the housing 212 of the vortex generating member 220 due to the inflow of air inside the cyclone 210 Contaminants such as foreign substances will be attached.

At this time, in order to remove the contaminants attached to the cyclone 210, first supplying water to the connecting pipe 512 through the supply pipe 516 is supplied to the injection pipe 514 through the connecting pipe 512. Then, the water supplied to the injection pipe 514 is sprayed in the direction of the inlet hole 214a through the air discharge hole 232 formed in the cover member 230 of the cyclone 210, the shaft 222 of the cyclone 210 ) Or contaminants attached to the surface of the inner circumferential surface of the wing 224 or the inlet hole 214a are removed.

In the above, a preferred embodiment of the dust reduction apparatus using the non-powered cyclone method according to the present invention has been described. However, the present invention is not limited thereto, and the scope of the claims and the detailed description of the invention and the accompanying drawings are various. It is possible to perform the modifications, and this also belongs to the scope of the present invention.

100: dust reduction device 110: case
112: case 114: space
116: coupling hole 210: cyclone
212 housing 214 mounting holes
214a: inlet hole 216: separation chamber
217: fixed plate 218: fixed body
218a: Rib 220: Vortex generating member
222 shaft 222a extension
224: wing 230: cover member
232: public outlet 234: foreign matter guide sphere
310: foreign matter guide 312: guide plate
314: Information Room 316, 322: First and Second Open
318: fitting 320: cover plate
410: foreign material collecting unit 412: collecting member
414: collecting chamber 416: inlet
418: blocking plate 418a: binding ball
420: discharge member 510: cleaning unit
512 connector 514: injection pipe
516: Supply pipe

Claims (13)

A case part including a space part and a case in which a coupling hole connected to the space part is formed,
A cyclone comprising a housing installed in the case space part of the case part, a vortex generating member installed inside the housing, and a cover member covering the rear part of the housing;
A foreign material guide part for covering the space part of the case part to guide the foreign material separated from the cyclone;
A foreign matter collecting part installed at the bottom of the case part and collecting foreign matters;
Is configured to include a washing unit spaced apart to the rear portion of the foreign material guide,
The housing has an inlet hole is formed on the inside of the pair of mounting holes that one side is coupled to the coupling hole of the case, the separation chamber is formed on the side of the mounting hole connected to the inlet hole, the guide hole formed in the lower end of the separation chamber, and It is configured to include a fixing plate formed in the opposite direction formed separation chamber is fixed to the case,
The cover member is formed to correspond to the installation port of the housing, the inner space is formed in the space corresponding to the separation chamber of the housing and one side protrudes obliquely into the space and the opposite direction is formed so as to correspond to the guide port of the housing It is configured to include a foreign matter guide sphere protruding to the outside at the bottom of the cover member,
The foreign material guide portion and the guide chamber formed on one side; Is connected to the guide chamber, the first through-hole is formed to correspond to the coupling hole formed in the case of the case portion is inserted into the air outlet formed in the cover member of the cyclone, the fitting is formed in the lower end of the first through hole is coupled to the foreign matter guide sphere A guide plate in which a ball is formed; And a cover plate covering the guide chamber of the guide plate, the cover plate having a second through hole corresponding to the first through hole. 2.
The method of claim 1,
The coupling hole is a dust reduction device using a non-powered cyclone system, characterized in that the pair is provided with a pair of two.
delete delete The method of claim 1,
The installation hole of the housing is a dust reduction device using a non-powered cyclone method characterized in that the support is fixed by a plurality of ribs are installed in the inlet center of the inlet hole. The method of claim 1,
The vortex generating member is installed in the inlet hole of the housing, one side is formed in a conical shape, the opposite direction is provided with a shaft formed with an expansion port,
Dust reduction device using a non-powered cyclone method characterized in that the shaft outer peripheral surface formed in the conical shape is provided with a plurality of wings fixed to the inner peripheral surface of the inlet hole of the housing.
delete delete The method of claim 1,
The foreign matter collecting unit is installed in the case lower portion of the case, the inner side is formed with a collecting chamber is open on one side, the upper is provided with a collecting member formed with an inlet connected to the guide chamber formed in the guide plate of the foreign matter guide,
Covering the collection chamber opening of the collecting member, dust reduction device using a non-powered cyclone method characterized in that the blocking plate is formed with a binding hole connected to the collection chamber. The method of claim 9,
Dust reduction device using a non-powered cyclone method characterized in that the discharge member is further provided fixed to the binding hole of the blocking plate. The method of claim 9,
The case, the guide plate and the cover plate of the foreign matter guide portion, the dust collecting device dust collection device using a non-powered cyclone system, characterized in that each pair is provided with a pair.
delete The method of claim 1,
The washing unit and a pair of connecting pipes corresponding to each other in the vertical direction on both sides of the cover plate,
An injection pipe installed between the connection pipes and connected to both sides of the connection pipes;
Dust reduction device using a cyclone method, characterized in that consisting of the supply pipe is installed in any one of the pair of connecting pipe.

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