KR101950154B1 - cleaning type nano cerafilter assembly - Google Patents

Abstract

The present invention relates to a cleaning type nano cerafilter assembly comprising: a filter case; a nano cerafilter; a first vinyl chloride mesh; a second vinyl chloride mesh; and a cleaning liquid injection unit. As a result, the cleaning operation can be performed to remove contaminants particles attached to the nano cerafilter to be used semi-permanently, the maintenance cost due to the replacement of the filter can be greatly reduced.

Description

Cleaning type nano cerafilter assembly < RTI ID = 0.0 >

The present invention relates to a cleaning type nanoshear filter assembly, and more particularly, to a cleaning nanoshear filter assembly capable of efficiently filtering contaminant particles such as fine dust and noxious gas contained in the air, The present invention relates to a cleansing type nanosera filter assembly.

Generally, the air conditioner (air conditioner) adjusts the temperature, humidity and airflow distribution suitable for humans to operate in a certain space, and at the same time removes foreign substances in the air to maintain a comfortable space

An air purifying filter for removing contaminants such as dust and foreign substances in the air is installed in the air conditioner.

That is, the air filter filters out pollutants harmful to the human body such as various kinds of fine dust, dust, and noxious gas floating in the air flowing in and out of the room, adsorbs odorous gas, air, smoke and oil, And is essentially installed on the flow path on the side of the air inlet of the air conditioner so as to be supplied in a purified state.

However, since the air purifying filter applied to the air conditioner according to the related art is made of a nonwoven fabric, the polluted particles adhering to the surface of the nonwoven fabric are not easily removed and the polluted particles continue to pass through the filter, .

In addition, since the conventional air purifying filter is periodically inspected and replaced or cleaned and reused, maintenance and maintenance of the filter are troublesome and inconvenient, and the operating rate of the air conditioner is lowered .

Korean Patent Registration No. 10-1363333 (Apr. 20, 2014)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to effectively remove contaminant particles such as fine dust and noxious gas contained in air, And to provide a semi-structured nanoshear filter assembly that can be used semi-permanently.

In addition, the filter member is intended to provide a cleansed nano ceramic filter assembly capable of preventing waterproof, nonflammable, antibacterial, and fungal occurrence in advance.

Another object of the present invention is to provide a cleansed nano-ceramics filter assembly capable of improving the layered arrangement structure of the filter members to increase the contact area with the air to greatly improve the filtration efficiency.

In order to accomplish the above object, a cleaning type nanoshear filter assembly according to the present invention includes: a filter case formed of a lower frame and an upper frame, the filter case having a rectangular hollow having front and rear openings and having a vertically detachable coupling; A nanoshear filter coupled to the filter case and collecting contaminant particles; A first vinyl chloride mesh disposed on the front surface of the filter case and collecting contaminants primarily; A second polyvinyl chloride mesh disposed on a rear surface of the filter case and collecting contaminants passing through the nanosera filter; And a cleaning liquid injecting unit installed at an upper portion of the filter case to supply a cleaning liquid to clean the nanosera filter, wherein a rim of the front surface and a rear surface of the lower frame and the upper frame are arranged in an inward direction And a cleaning fluid inflow part partitioned into a plurality of spaces is formed on the longitudinal surface of the upper frame so that the cleaning fluid supplied from the cleaning fluid jetting unit can pass therethrough, The nano ceramic filter is fabricated by impregnating an inorganic porous fiber material with an ultrafine nanoceramic liquid so that a plurality of filter members are laminated in a lateral direction, And a plurality of first and second assemblies, The filter element has a surface width corresponding to the lateral width of the filter case, and a recess is formed on the surface and the back surface of the filter element, the recess and the acid being continuously formed along the longitudinal direction with a predetermined depth toward the outside, Wherein the plurality of filter members are arranged in a direction opposite to each other on the front surface and the rear surface so that the mountains of the groove portions intersect with each other to make point contact with each other, The inclined angle in the oblique direction is maintained at 30 degrees and the cleaning liquid injection unit is provided in the upper part of the upper frame and has a fitting protrusion which is fitted to the washing liquid inflow part so as to be detachable, Forming a plurality of spray holes for spraying a cleaning liquid onto the upper portion of the nanoshear filter A three-way valve is provided at a longitudinal center portion of the injection pipe, and the three-way valve is disposed on the basis of the three-way valve, The pipe is composed of a first pipe and a second pipe divided into one side and the other side, and the rinse solution inflow pipe is coupled to the remaining connection ports of the three-way valve crossing the first pipe and the second pipe.

And a plurality of through holes are formed in the lower portion of the main body to form a plurality of through holes so that the cleaning liquid injected from the injection holes of the injection pipe can be uniformly discharged in the width direction of the nanoshear filter.

According to the present invention having the above-described constitution, since the cleaning liquid spraying unit is provided on the upper part of the filter case to supply the cleaning liquid to clean the nanosera filter, the cleaning liquid spraying unit So that it is possible to greatly reduce the maintenance cost due to the replacement of the filter and also to maximize the cleaning effect by guiding the path through which the cleaning liquid flows naturally from top to bottom.

In addition, by forming a coating layer on the ceramics filter, it is possible to prevent a mold from being generated by providing waterproof and antimicrobial properties as well as providing a fire-retardant fire-retardant effect, thereby creating a pleasant indoor space and living environment .

1 is a perspective view illustrating a cleaning type nano-ceramic filter assembly according to an embodiment of the present invention.
2 is an exploded perspective view of FIG.
FIG. 3 is a perspective view and an enlarged view showing a layered structure and a structure of the nanoshear filter of FIG. 2;
FIG. 4 is a side view showing the surface area of the nanoshear filter of FIG. 2 and the action of the recess.
FIG. 5 is a bottom perspective view showing the configuration of the cleaning liquid ejecting unit of FIG. 2. FIG.
FIG. 6 and FIG. 7 are perspective views showing a configuration according to another embodiment of the cleaning liquid ejecting unit of FIG. 2;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a cleansing type nanocerar filter assembly according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and that the inventor should properly interpret the concepts of the terms to best describe their invention It should be construed as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory only and are not restrictive of the invention, It should be understood that various equivalents and modifications are possible.

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

As shown in the figure, the cleansing type nanocerar filter assembly 100 according to the present invention includes a lower frame 111 and an upper frame 112, which form a rectangular hollow having front and rear openings and are vertically detachable, A nano-ceramic filter 120 coupled to the filter case 110 and collecting contaminant particles, a filter 130 disposed on the front surface of the filter case 110 for collecting contaminants, A second PVC network 140 disposed on the rear surface of the filter case 110 for collecting contaminants passing through the nanoshear filter 120, And a cleaning liquid injecting unit 150 installed at an upper portion of the nanocera filter 110 to supply the cleaning liquid to clean the nanocera filter 120.

First, the filter case 110 is a square structure having a hollow portion opened on the front and back sides, and functions to stably fix the nanosera filter 120 to be described later.

The filter case 110 includes a lower frame 111 and an upper frame 112 so that the nanoshear filter 120 can be attached and detached in the vertical direction.

Specifically, the lower frame 111 has a substantially U-shaped structure supporting both side surfaces and the lower surface of the nanocerar filter 120, and the upper frame 112 is open And is made of a straight member that fits on the top.

In addition, protrusions 111a and 112a protruding inward are formed on the rims of the front and rear surfaces of the lower frame 111 and the upper frame 112 to prevent the nano-ceramics filter 120 from flowing .

A rinse liquid inlet 112b is formed in the longitudinal direction of the upper frame 112 to divide the rinse liquid supplied from the rinse liquid ejecting unit 150 into a plurality of spaces, 111 are provided with a cleaning liquid discharge hole 111b for discharging the cleaning liquid to the outside.

That is, the cleaning liquid supplied from the cleaning liquid jetting unit 150 passes through the cleaning liquid inlet 112b to clean the nanosera filter 120, and then is discharged to the outside through the cleaning liquid discharge hole 111b.

Meanwhile, the nanoshear filter 120 is coupled to the filter case 110, and filters the air to collect contaminant particles such as micro-branches and noxious gas contained in the air.

Preferably, the nanoshear filter 120 is fabricated by impregnating an inorganic porous fiber with an ultrafine nanoceramic solution.

The nanosera filter 120 according to the present invention has a single assembly structure in which a plurality of filter members are formed in a laminated manner in a lateral direction.
The filter member has a surface width corresponding to the lateral width of the filter case 110. The surface and the back surface of the filter case 110 are formed with recessed portions 121 in which a plurality of valleys and mountains are continuously formed along the longitudinal direction, do.

That is, the structure of the recessed portion 121 is continuously formed in the zigzag direction on the front surface and the back surface of the filter member.

Further, the recessed portion 121 has a structure inclined obliquely from one side toward the other side when viewed from the surface direction.

The plurality of filter members that are overlapped with each other are continuously formed in a structure in which the recesses of the recessed portions 121 are mutually opposed to each other on the front surface and the back surface so that point-contact can occur.

In addition, it is preferable that the inclined angle of the recessed portion 121 is maintained at 30 degrees. This is because, as the length increases by an angle inclined by 30 degrees when passing through air, not only a sufficient distance for filtering can be ensured, but also an effect of maximizing the cleaning effect by guiding the path through which the cleaning liquid flows naturally from top to bottom .

In other words, the filtration time for removing contaminating particles such as fine dust and noxious gas can be prolonged by the 30-degree inclination angle structure of the recess 121, and the cleaning efficiency of the cleaning liquid can be increased, The cleaning effect can be maximized.

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The first PVC net 130 is disposed on the front surface of the filter case 110, and collects contaminants primarily.

That is, in case of large contaminants, it is possible to remove the contaminants from the first chloride net 130 before contacting the nanosera filter 120.

The second vinyl chloride network 140 is disposed on the rear surface of the filter case 110 to perform secondary collection when contaminants passing through the nanosera filter 120 are generated do.

The cleaning liquid injection unit 150 is installed on the upper part of the filter case 110 and serves to supply the cleaning liquid to clean the nanosera filter 120.

That is, by constituting the cleaning liquid injection unit 150, the cleaning operation for the nanosera filter 120 can be repeatedly performed, so that the nanosera filter can be used semi-permanently.

The cleaning liquid injecting unit 150 includes a cleaning liquid main body 151 provided at an upper portion of the upper frame 112 and having a fitting projection 151a to be detachably fitted to the cleaning liquid inlet 112b, A spray pipe 152 provided in the cleaning liquid main body 151 and having a plurality of spray holes 152a for spraying a cleaning liquid onto the nanoshear filter 120, And a cleaning liquid inlet pipe 153 connected to one point of the cleaning liquid supply pipe.

In addition, a three-way valve 154 may be provided at a longitudinal center portion of the injection pipe 152.

Therefore, the injection pipe 152 is composed of a first pipe 152b and a second pipe 152c, which are divided into one side and the other side with respect to the three-way valve 154.

At this time, the rinse solution inlet pipe 153 is connected to the remaining connectors of the three-way valve 154 crossing the first pipe 152b and the second pipe 152c.

That is, the washing liquid supplied through the washing liquid inlet pipe 153 is branched into a first pipe 152b and a second pipe 152c connected to both directions of the three-way valve 154. [

In addition, a plurality of through holes are formed in the lower portion of the cleaning liquid main body 151 so that the cleaning liquid injected from the injection holes of the injection pipe 152 can be uniformly discharged in the width direction of the nanosera filter 120 The network (155) may be additionally provided.

6 and 7 show another embodiment of the cleaning liquid jetting unit 150. The cleaning liquid jetting unit 150 is provided with a coupling part 151a 'having a bent structure in which the upper edge of the upper frame 112 is in surface- A cleaning liquid injecting portion 152 'formed with a cleaning liquid supply passage 152a' having an upwardly projecting structure whose width is narrowed downward from the longitudinal center portion of the cleaning liquid main body 151 ' A plurality of spray holes 152b 'formed on both longitudinal sides of the sprayer 152', a washing liquid inlet pipe 153 'installed at one end of the washing liquid main body 151' to receive a washing liquid, And a cover 154 'for finishing the open upper portion of the cleaning liquid spraying portion 152'.

This provides the effect of forming the cleaning liquid spraying part 152 'by structuring the cleaning liquid main body 151' without forming a separate injection pipe having a tubular shape.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Will be apparent to those of ordinary skill in the art.

100: cleansing nano-ceramic filter assembly 110: case
120: NANOCERA filter 130: Vinyl chloride mesh
140: Second Vinyl Chloride Network 150: Cleaning liquid injection unit

Claims (2)

A filter case formed of a lower frame and an upper frame in which a rectangular hollow portion having an open front side and a rear side is formed and which is detachably coupled in a vertical direction;
A nanoshear filter coupled to the filter case and collecting contaminant particles;
A first vinyl chloride mesh disposed on the front surface of the filter case and collecting contaminants primarily;
A second polyvinyl chloride mesh disposed on a rear surface of the filter case and collecting contaminants passing through the nanosera filter; And
And a cleaning liquid spray unit installed on the filter case to supply a cleaning liquid to clean the nanosera filter,
Wherein each of the lower frame and the upper frame has a protrusion formed on an edge of a front surface and a rear surface of the upper frame so as to protrude inwards so that the nanosera filter can not flow,
A cleaning liquid inflow portion partitioned into a plurality of spaces is formed on the longitudinal surface of the upper frame so that the cleaning liquid supplied from the cleaning liquid jetting unit can pass therethrough and a cleaning liquid inflow portion is formed on the bottom surface of the lower frame, A ball is formed,
Wherein the nanoshear filter is fabricated by impregnating an inorganic porous fiber material with an ultrafine nanoceramic liquid and comprises a single assembly structure in which a plurality of filter members are laterally stacked on each other, A groove having a surface width corresponding to a lateral width of the filter case and having a predetermined depth and a predetermined depth along the longitudinal direction is continuously formed on the front and back surfaces of the filter case, And a plurality of filter members are arranged on the front surface and the back surface in opposite directions so that the troughs of the troughs intersect with each other to make point contact,
The tilted angle of the concave portion is maintained at 30 degrees,
The cleaning liquid injecting unit includes a cleaning liquid main body provided at an upper portion of the upper frame and provided with a fitting projection to be detachably fitted to the cleaning liquid inlet portion, And a cleaning liquid inflow pipe connected to one point in the longitudinal direction of the injection pipe to supply a cleaning liquid,
Wherein a three-way valve is provided in a longitudinal center portion of the injection pipe, the injection pipe is composed of a first pipe and a second pipe divided into one side and the other side with respect to the three-way valve, And a second pipe joined to the other end of the three-way valve crossing the pipe and the second pipe.
The method according to claim 1,
And a plurality of through holes are formed in the lower portion of the main body to form a plurality of through holes so that the washing liquid sprayed from the spray holes of the spray pipe can be evenly discharged in the width direction of the nanoshear filter. Orthotropic Nano Ceramic Filter Assembly.

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