KR20200058693A - Air cleaner - Google Patents

Abstract

In the present invention, an air cleaner is introduced in which a filter area is secured by double filtering by a first filter unit and a second filter unit in the filter housing to increase the amount of foreign matters to be collected and to improve the filtering effect through air circulation.

Description

Air cleaner {AIR CLEANER}

The present invention relates to an air cleaner, and to an air cleaner in which a filtering effect is improved by increasing a filtration area.

In general, the air purifier removes dust or contaminants contained in the air by allowing the outside air to pass through the filter, and forcibly intakes and exhausts the outside air using a fan so that the outside air can be discharged through the filter. The air is filtered through the process.

Typically, the air purifier is divided into a filter type and an electrostatic precipitator type, and the filter type filters dust or contaminants in the air while passing through the filter, and the electrostatic precipitator type removes dust or contaminants in the air by being adsorbed to the dust collector by an electric field. .

Meanwhile, in a vehicle, power is obtained by burning fuel in an engine. At this time, air is required for the combustion of fuel, and the air required for fuel combustion is introduced from the outside of the vehicle.

In addition, if fine dust is contained in the air flowing into the engine, a fine substance is sucked into the cylinder and ignited, so wear of the cylinder inner wall occurs due to friction with the piston when the engine is driven. This causes a decrease in engine power and increases fuel consumption.

In order to prevent such a problem, an ordinary vehicle installs an air purifier on an air intake line for inhaling outside air into the engine to remove dust or foreign substances contained in the air.

In addition, in vehicles such as passenger cars, air cleaners are installed inside the engine room, and commercial vehicles such as trucks and buses are equipped with air cleaners on the outside of the vehicle.

In addition, a conventional air cleaner comprises a filter unit (filter paper) for filtering foreign substances in the air, and a housing for fixing the filter unit, and the housing is mounted on the vehicle.

By the way, the capacity (dust collection capacity) of the air purifier is proportional to the area of the filter unit, and in the case of a generally applied circular type filter unit, it is used by bending the filter to increase the area, and the pitch is made as dense as possible to filter the area. However, the area increase of the filter unit is limited within the same outer diameter size of the housing.

The above descriptions as background arts are only for improving understanding of the background of the present invention, and should not be accepted as acknowledging that they correspond to the prior arts already known to those skilled in the art.

KR 10-2018-0058496 A (2018.06.01)

The present invention has been proposed to solve this problem, and has an object to provide an air cleaner that increases the amount of foreign matter collected by securing a filter area inside the filter housing.

The air cleaner according to the present invention for solving the above-mentioned problems has an internal space, a filter housing in which an inlet through which air is introduced and an outlet through which air is discharged are formed; It is provided inside the filter housing, and is provided with a first filter having an insertion space in communication with the discharge portion, and is formed smaller than the filter housing, and a part of the air introduced through the inflow portion passes through the first filter and is filtered into the insertion space. A first filter configured to be moved and the rest of the air is directly moved to the insertion space; And is formed smaller than the insertion space is provided in the insertion space of the first filter, a second filter having a hollow is provided, the remaining air moved to the insertion space of the first filter is introduced into the hollow and then passes through the second filter It includes; a second filtration unit to be filtered and moved to the insertion space.

The filter housing is characterized in that the outlet is formed at one end, the other end is closed, and the inlet is formed to be disposed in a direction perpendicular to the outlet.

One end panel of the first filtration part is provided with one side panel having a communication hole connected to one end of the filter housing and communicating with the discharge part, and the other end has a through-hole spaced apart from the other end of the filter housing and into which the second filtration part is inserted. The other side panel is provided, and one side panel and the other side panel are characterized by being connected to a first filter having an insertion space.

A closed panel having a closed cross section is provided at one end of the second filtration section, and a coupling panel is formed at the other end of the opening to communicate with the through hole and is coupled to the through hole of the first filtration section, and the closed panel and the coupling panel are hollow. It characterized in that it is connected to the second filter having a.

It is characterized in that a thread is formed in the through hole of the other side panel in the first filtration portion, and a corresponding thread corresponding to the thread is formed around the coupling panel in the second filtration portion.

The other side panel of the first filtration portion is formed with a support pad extending to the other side and contacting the other end of the filter housing, and the support pad is composed of a plurality and is spaced apart along the periphery of the other side panel.

The first filtering portion is characterized in that the width of the communication hole of one panel is larger than the width of the through hole of the other panel, and the insertion space is formed to be the same as the width of the communication hole.

According to the air cleaner having the structure as described above, the filter area is secured by double filtering by the first filtration unit and the second filtration unit inside the filter housing, thereby increasing the amount of foreign matter collection and filtering effect through air circulation. Is improved.

1 is a view showing an air cleaner according to an embodiment of the present invention.
2 to 5 are views for explaining the air cleaner shown in FIG. 1;

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

1 is a view showing an air cleaner according to an embodiment of the present invention, and FIGS. 2 to 5 are views for explaining the air cleaner shown in FIG. 1.

1, the air cleaner according to the present invention has an inner space 110, a filter housing 100 having an inlet portion 110 through which air is introduced and an outlet portion 120 through which air is discharged; A first filter 220 provided inside the filter housing 100 and having an insertion space 210 in communication with the discharge unit 120 is provided, and is formed smaller than the filter housing 100 to form an inlet 110 A part of the air introduced through the first filter 220 is filtered and moved into the insertion space 210, the remaining air is first filter 200 configured to move directly to the insertion space 210; And is formed smaller than the insertion space 210 is provided in the insertion space 210 of the first filtration unit 200, the second filter 320 having a hollow 310 is provided, the first filtration unit 200 Includes a second filter unit 300 to allow the remaining air moved to the insertion space 210 of the flow through the second filter 320 and then filtered and moved to the insertion space 210 after flowing into the hollow 310 do.

Thus, the present invention is composed of a filter housing 100, a first filtration unit 200, a second filtration unit 300. The filter housing 100 has an internal space in which the first filtering unit 200 is provided, and in the case of the first filtering unit 200, it is formed smaller than the internal space through the inlet 110 of the filter housing 100 Part of the introduced air is filtered through the first filter 220 of the first filtration unit 200 and moved to the insertion space 210, and the remaining air does not pass through the first filter 220 and the insertion space 210 ). Here, the rest of the air moved directly to the insertion space 210 flows into the hollow 310 of the second filtering unit 300 provided in the insertion space 210, and the second filter 320 of the second filtering unit 300 ) And is moved to the insertion space 210.

That is, a part of the air introduced through the inlet 110 of the filter housing 100 is filtered through the first filter 220 of the first filtration unit 200 and moved to the insertion space 210, and then the filter housing It is discharged to the discharge unit 120 of the (100), the rest of the air is moved directly to the insertion space 210, but is moved to the hollow 310 of the second filtration unit 300 provided in the insertion space 210, the second filtration After moving to the insertion space 210 through the second filter 320 of the unit 300, it is discharged to the discharge unit 120 of the filter housing 100. In this way, inside the filter housing 100, the first filtration unit 200 and the second filtration unit 300 are composed of two layers to secure the filter area, and the first filtration unit 200 and the second filtration unit 300 As the filter area of the is secured, the amount of foreign matter capture increases, and the filtering effect is improved.

In detail with respect to the present invention described above, as shown in FIGS. 1 and 5, the filter housing 100 has an outlet portion 120 formed at one end, the other end closed, and the inlet portion 110 It may be formed to be disposed in a direction perpendicular to the discharge unit 120.

Due to this, the air introduced through the inlet 110 may be discharged after passing through the first filter 220 of the first filter 200 and moving to the insertion space 210, and the remaining air is first. After being moved along the longitudinal direction of the filter unit 200, it can be directly moved to the insertion space 210 and configured to pass through the second filter 320 of the second filtering unit 300.

If, in the filter housing 100, the inlet portion 110 and the outlet portion 120 are disposed on a straight line, the air introduced through the inlet portion 110, the first filter portion 200 or the second filter portion ( 300) can be filtered only by foreign matter. Therefore, in the filter housing 100, the inlet 110 and the outlet 120 are arranged in a vertical direction, and as shown in FIG. 7, the inlet 110 and outlet 120 are disposed adjacent to each other. This is preferred.

On the other hand, one end of the first filtration unit 200 is provided with one side panel 230 coupled to one end of the filter housing 100 and formed with a communication hole 231 communicating with the discharge unit 120, the other end In the other side of the filter housing 100 is provided with the other side panel 240 is formed with a through hole 241 is spaced apart from the second filtration part 300 is inserted, one side panel 230 and the other side panel 240 is It may be connected to the first filter 220 having an insertion space 210.

In this way, the first filtration unit 200 is composed of one side panel 230, the other side panel 240, and the first filter 220. The first filtration unit 200 is formed to have a shorter length than the filter housing 100, one side panel 230 is fixed to one end of the filter housing 100, and the other side panel 240 is fixed to the filter housing 100 ). Due to this, air introduced through the inlet 110 may pass through the first filter 220 or may move to a space spaced between the other side of the panel 240 and the other end of the filter housing 100. In addition, the second filtration unit 300 may be inserted into the insertion space 210 by inserting the second filtration unit 300 through the through hole 241 formed in the other side panel 240.

The other side panel 240 of the first filtration part 200 is formed with a support pad 242 extending to the other side and contacting the other end of the filter housing 100, and the support pad 242 is composed of a plurality and the other side It may be spaced apart along the perimeter of the panel 240.

2 and 5, a support pad 242 is formed on the other side panel 240 of the first filtration unit 200, so that one end of the first filtration unit 200 is attached to the one side panel 230. It is fixed by being coupled to one end of the filter housing 100, and the other end is fixed to the other end of the filter housing 100 through the support pad 242 of the other side panel 240, the first filtration unit ( The entire position of 200) is fixed. The support pad 242 may be formed of a urethane pad, and may be composed of a plurality and spaced along the circumference of the other side panel 240 to allow air to flow between the spaced apart gaps of the support pad 242.

Meanwhile, a closed panel 330 having a closed cross section is provided at one end of the second filtration part 300, and coupled to the through hole 241 of the first filtration part 200 at the other end, and the hollow 310. A coupling panel 340 having an opening hole 341 communicating therewith is provided, and the closing panel 330 and the coupling panel 340 may be connected to the second filter 320 having the hollow 310.

Thus, the second filtration unit 300 is composed of a closed panel 330, a coupling panel 340, and a second filter 320. The second filtration unit 300 is inserted through the through hole 241 of the first filtration unit 200 and provided in the insertion space 210, and the coupling panel 340 penetrates the first filtration unit 200. The position is fixed by being coupled to the hole 241. In addition, as the opening hole 341 through which the air that has not passed through the first filter 220 of the first filtration unit 200 is formed is formed in the coupling panel 340, the hollow 310 through the opening hole 341 is formed. ), And the closed panel 330 has a closed cross-section, so that the air introduced into the hollow 310 may pass through the second filter 320 and move back to the insertion space 210.

For fixing the second filtration part 300, as shown in FIGS. 3 and 4, threads 241a are formed in the through hole 241 of the other side panel 240 in the first filtration part 200. In addition, a corresponding thread 342 corresponding to the thread 241a may be formed around the coupling panel 340 in the second filtering part 300. Due to this, in the state in which the second filtering unit 300 is inserted through the through hole 241 of the first filtering unit 200, the other side panel 240 and the second filtering unit of the first filtering unit 200 ( The coupling panel 340 of 300) may be screwed to each other to be coupled.

Meanwhile, the first filtration unit 200 is formed such that the width of the communication hole 231 of one panel 230 is larger than the width of the through hole 241 of the other panel 240, and the insertion space 210 is a communication hole ( 231). Due to this, even if the second filtration unit 300 is provided as the insertion space 210 of the first filtration unit 200 communicating with the discharge unit 120, the first filtration unit 200 in the insertion space 210 A space communicating with the discharge unit 120 is formed between the first filter 220 and the second filter 320 of the second filtration unit 300, thereby forming the first filter 220 and the second filter 320. The filtered air may be discharged to the discharge unit 120.

Accordingly, the width of the discharge portion 120 of the filter housing 100, the communication hole 231 of the first filtration unit 200, the insertion space 210 of the first filtration unit 200 is formed the same, The width of the through hole 241 of the first filtration unit 200 and the hollow 310 of the second filtration unit 300 may be the same.

The air flow of the present invention described above is as follows.

6, the air introduced through the inlet 110 of the filter housing 100 is partially filtered after passing through the first filter 220 of the first filter 200 It is discharged to the discharge unit 120 through (210). On the other hand, the remaining air that has not passed through the first filter 220 is moved between the other side of the panel 240 and the other end of the filter housing 100 of the first filter 200, the hollow of the second filter 300 ( 310, the air moved to the hollow 310 is filtered through the second filter 320 and then discharged to the discharge unit 120 through the insertion space 210.

Due to this, a part of the air introduced into the filter housing 100 through the inlet 110 is filtered through the first filter 200, and the rest of the air is filtered through the second filter 300. , The filter area is secured by double filtering to increase the amount of foreign matter collected, and the filtering effect is improved through air circulation.

Although the present invention has been illustrated and described in relation to specific embodiments, it is understood in the art that the present invention can be variously improved and changed within the limits that do not depart from the technical spirit of the present invention provided by the following claims. It will be obvious for those of ordinary skill.

100: filter housing 110: inlet
120: discharge unit 200: first filtration unit
210: insertion space 220: first filter
230: One side panel 231: Communication hole
240: the other side panel 241: through hole
241a: Thread 242: Support pad
300: second filtration department 310: hollow
320: second filter 330: closed panel
340: combining panel 341: opening hole
342: Corresponding thread

Claims (7)

A filter housing having an interior space and having an inlet portion through which air is introduced and an outlet portion through which air is discharged;
It is provided inside the filter housing, and is provided with a first filter having an insertion space in communication with the discharge portion, and is formed smaller than the filter housing, and a part of the air introduced through the inflow portion passes through the first filter and is filtered into the insertion space. A first filter configured to be moved and the rest of the air is directly moved to the insertion space; And
It is formed smaller than the insertion space, is provided in the insertion space of the first filtration unit, is provided with a second filter having a hollow, and the remaining air moved to the insertion space of the first filtration unit is introduced into the hollow and then inserted through the second filter. An air cleaner comprising; a second filtration unit to be filtered and moved into the space. The method according to claim 1,
The filter housing is an air cleaner characterized in that the outlet is formed at one end and the other end is closed, and the inlet is formed to be disposed in a direction perpendicular to the outlet. The method according to claim 2,
One end panel of the first filtration part is provided with one side panel having a communication hole connected to one end of the filter housing and communicating with the discharge part, and the other end has a through-hole spaced apart from the other end of the filter housing and into which the second filtration part is inserted. The other side panel formed is provided, and the air cleaner characterized in that the one side panel and the other side panel are connected to a first filter having an insertion space. The method according to claim 3,
A closed panel having a closed cross section is provided at one end of the second filtration section, and a coupling panel is formed at the other end of the opening to communicate with the through hole and is coupled to the through hole of the first filtration section, and the closed panel and the coupling panel are hollow. Air cleaner, characterized in that connected to the second filter having a. The method according to claim 4,
A thread is formed in the through hole of the other panel in the first filtration part,
An air cleaner comprising a second screw having a corresponding screw thread corresponding to a screw thread formed around the coupling panel. The method according to claim 2,
An air cleaner that extends to the other side of the other side of the first filter and is formed with a support pad that comes into contact with the other end of the filter housing, and is composed of a plurality of support pads and spaced along the periphery of the other side panel. The method according to claim 3,
The first filtration portion is an air cleaner characterized in that the width of the communication hole of one panel is larger than the width of the through hole of the other panel, and the insertion space is formed to be the same as the width of the communication hole.

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