KR101899141B1 - Positive Pressure Air Purifier and Sterilizer with Multi-Suction - Google Patents

Abstract

The present invention relates to a positive pressure air purifier having multi-stage suction ports. More specifically, the present invention relates to a positive pressure air purifier having multi-stage suction ports, capable of preventing polluted air from being introduced indoors from the outside by making an interior in a positive pressure state and of ventilating indoor air by introducing outdoor air as well as another indoor air. To this end, according to the present invention, the positive pressure air purifier having multi-stage suction ports includes: an air introduction pipe to introduce the outdoor air; a blower to forcibly introduce air through the air introduction pipe or forcibly introduce air from a body lower portion; and a sterilization purifying filter part embedded therein with an ultraviolet lamp and a light catalyst tube filter to sterilize or deodorize the air forcibly introduced through the blower and including a case formed of a metallic material.

Description

{Positive Pressure Air Purifier and Sterilizer with Multi-Suction}

More particularly, the present invention relates to a positive pressure air purifying and sterilizing apparatus having a multi-stage suction port, and more particularly, to a positive pressure air purifying apparatus having a multi- Pressure air purifying and sterilizing apparatus having a multi-stage suction port for introducing air into a room and ventilating the indoor air.

Modern people live more than 90% indoors, and they breathe a lot of air with people around them. Therefore, the quality of indoor air has great significance in public health. Generally, in multi-use facilities such as schools, hospitals, shopping malls and subway stations, the room contains fine dust, foreign matter and microbial pollutants. These pollutants cause infectious, allergic and respiratory diseases.

Conventional air purification sterilization equipment uses pulp or fiberglass HEPA filters to collect fine dusts. However, efficiency is decreased due to other pressure loss over time, and expensive filters should be replaced periodically There was a problem.

In order to remove the odor, the odor is adsorbed by using an activated carbon carbon filter or the like, but there is a problem that the odor which is adsorbed is not discharged any more after a certain period of time.

In order to sterilize, a sterilizer of ultraviolet rays and anion type is widely used, but a sterilizer of only an ultraviolet type has a disadvantage of high electric power consumption, and an anion type sterilizer has a problem of reliability of sterilization.

In order to reduce the concentration of carbon dioxide in indoor air, ventilation equipment is used frequently. However, there is a disadvantage in that a large amount of energy in the room air is discharged to the outside, resulting in a large loss of energy.

Korean Patent No. 10-1585223 Korean Patent Publication No. 10-2012-0077724

The object of the present invention is to provide an air purifying and sterilizing apparatus capable of introducing outside air as well as indoor air.

Another object of the present invention is to provide an air purifying and sterilizing apparatus capable of blocking the inflow of polluted air from the outside into the room.

Another object of the present invention is to provide an air purification sterilizing apparatus capable of filtering fine dust and sterilizing infectious pathogens.

To this end, the positive pressure air purifying and sterilizing apparatus having the multi-stage suction port of the present invention includes an air inflow pipe through which air of the outside air flows; A blower for forcibly introducing air through the air inflow pipe or for forcibly introducing air from a lower portion of the main body; And a sterilizing filter member including a UV lamp and a photocatalytic tube filter for sterilizing or deodorizing the air forced through the blower and including a case made of a metal material.

The positive pressure air purifying and sterilizing apparatus having a multi-stage suction port according to the present invention can easily ventilate indoor air by introducing outside air using an air inlet pipe connected to the outside. In addition, the present invention has an advantage that foreign air can be prevented from flowing into the room by forming positive pressure by introducing outside air.

In addition, the present invention proposes a method of using the guide rail for two purposes. In other words, the guide rail functions not only to fix the ultraviolet lamp but also to guide the photocatalytic tube filter. In addition, the present invention is advantageous in that a manufacturing cost can be reduced by manufacturing a photocatalytic tube filter using one mold.

1 is a view showing a positive pressure air purifying apparatus having a multi-stage suction port according to an embodiment of the present invention.
2 is an exploded perspective view of a positive pressure air purifying and sterilizing apparatus having a multi-stage suction port according to an embodiment of the present invention.
3 shows a sterilization purge filter element according to an embodiment of the present invention.
4 shows an exploded exploded view of a sterilization purge filter element according to an embodiment of the present invention.
Figure 5 shows a separating member according to an embodiment of the invention.
6 shows a structure of a guide rail according to an embodiment of the present invention.
Figure 7 illustrates a rubber holder according to one embodiment of the present invention.
8 to 9 illustrate a photocatalytic tube filter according to an embodiment of the present invention.
Figure 10 illustrates an air vent and a lid according to one embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

FIG. 1 is a perspective view of a positive pressure air purifying and sterilizing apparatus having a multi-stage suction port according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of a positive pressure air purifying apparatus having a multi- Respectively. Hereinafter, a positive pressure air sterilizing apparatus having a multi-stage suction port according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2. FIG.

According to Fig. 1, the positive pressure air purifying apparatus having a multi-stage inlet includes a main body, a bottom frame, and an air inflow pipe. Of course, other configurations than the above-described configuration may be included in the positive pressure air purifying apparatus having the multi-stage suction port proposed in the present invention.

The floor frame 100 is located on the bottom surface of the positive pressure air purifying device having a multi-stage suction port, and is formed in a plate shape having a predetermined thickness, and a plurality of leg members are formed.

The main body 200 is mounted with a plurality of members constituting a positive pressure air purifying device having a multi-stage suction port. A member mounted inside the main body will be described in detail in Fig. The main body 200 is not in close contact with the bottom frame but is spaced apart by a certain distance. Therefore, air flows into the room through the bottom surface of the main body.

The air inlet pipe 300 is fastened to the main body, and external air flows into the main body. The air inflow pipe 300 includes a damper 302, and the damper 302 allows the outside air to flow into or out of the main body.

2 is an exploded perspective view of the positive pressure air purifying and sterilizing apparatus having a multi-stage suction port as described above.

2, the positive pressure air purifying and sterilizing device having a multi-stage suction port includes an air inlet pipe, a damper, an air inlet pipe coupling member, a side filter member, a lower filter member, a blower, a duct, a sterilizing filter member, . Of course, other configurations than the above-described configuration may be included in the positive pressure air purifying apparatus having the multi-stage suction port proposed in the present invention.

The bottom frame 100 has a rectangular shape and has a plate-like shape having a constant thickness. A plurality of leg members are formed on the bottom surface of the bottom frame, and a main body fastening member 102 for fastening the main body to a predetermined distance is fastened to the upper end thereof. One side of the main body fastening member 102 is fastened to the bottom frame 100, and the other side is fastened to the main body case 212. A lower filter member 204, a blower 208 and a duct 210, a side filter member 206 and a sterilizing filter member 218 are mounted inside the body case 212.

The lower filter member 204 is composed of a plurality of filters. The lower filter member 204 is composed of a HEPA filter, a medium filter, a carbon filter, and a pre-filter, and is accommodated in the lower filter member housing 202. Of course, other filters than the above-described configuration may be included in the lower filter member. The lower filter member 204 filters the air introduced between the bottom surface of the body case 212 and the bottom frame 100.

The air inflow pipe (300) has a cylindrical shape, and external air flows in. As described above, the air inflow pipe 300 includes a damper 302 for introducing or blocking external air. The damper 302 is connected to a differential pressure sensor, a carbon dioxide sensor, a temperature sensor, and the like, and the damper is driven according to the air quality of the room measured by each sensor. That is, when the indoor carbon dioxide concentration is higher than the set concentration, the damper is operated to allow the outside air to flow in. When the difference between the indoor and outdoor air pressures is equal to or lower than the set pressure, do. When external air needs to be introduced to maintain the temperature of the room measured by the temperature sensor at the set temperature, the damper is operated to operate the external air to flow. In addition, it controls whether the damper is driven according to the measured values from various sensors. In addition, a fan coil unit is installed at the front end of the damper to heat or cool the air introduced from the outside. In other words, the fan coil unit is composed of a heating member or a cooling member.

The air inlet pipe 300 is fastened to the air inlet pipe fastening member 304 and the air inlet pipe fastener 304 is fastened to the body case 212. Therefore, the outside air flows into the main body through the air inflow pipe 300 and the air inflow pipe coupling member 302.

The air introduced from the outside flows into the blower 208 via the side filter member 206. The side filter member 206 is also composed of a plurality of filters in the same manner as the lower filter member 204. The side filter member 206 is composed of a HEPA filter, a carbon filter, and a pre-filter. Of course, other filters than the above-described configuration may be included in the side filter member 206 and may be composed of the same filter as the lower filter member 204. [

The blower 208 performs a function of forcibly introducing air. As described above, the blower 208 forcibly introduces the outside air through the air inflow pipe 300, or forces the room air to flow through the bottom frame 100 and the case body 212. In other words, the blower 208 introduces air from at least two places and normally flows the indoor air through the bottom frame 100 and the body case 212. However, if necessary, the air inlet pipe 300 to the outside.

The air introduced through the blower 208 is supplied to the sterilizing filter member 218 through the duct 210. The detailed configuration of the sterilization and purification filter member 218 will be described later. The air purified or filtered by the sterilizing filter member 218 is discharged to the outside of the main body. As described above, the present invention introduces air from at least two locations through the blower 208, and purifies or filters the introduced air in various ways and discharges it to the outside of the main body.

The air discharging member 220 is located at the upper end of the main body case and discharges the air filtered by the sterilizing purifying filter member 218 to the outside of the main body. The cover 222 is positioned at the upper end of the air discharging member 220 and is formed into a flat plate type having a certain thickness.

FIG. 3 shows a sterilizing filter element according to an embodiment of the present invention, and FIG. 4 shows an exploded exploded view of a sterilizing filter element according to an embodiment of the present invention.

The sterilization purifying filter member includes a sterilization purifying filter member case, and various members constituting the sterilization purifying filter member are mounted inside the sterilization purifying filter member case. 3, various electric appliances for driving ultraviolet lamps including ballasts are mounted on the front case of the sterilizing filter member. Various members including an ultraviolet lamp, a photocatalytic tube filter, and a urethane carbon filter are mounted inside the sterilization purifying filter member case. Hereinafter, each configuration of the sterilizing filter member will be described with reference to FIG.

4, the sterilizing filter member includes a front case, a photocatalytic tube filter, an ultraviolet lamp, a guide rail, and a separating member (separator). Of course, other configurations than the above-described configuration may be included in the sterilizing filter member proposed in the present invention.

The front case 218a constitutes the front surface of the sterilizing filter member 218 and various electric products for driving the ultraviolet lamp including the ballast are mounted. The front case 218a is formed with a plurality of first fastening holes for fastening with the separating member. The front case 218a is made of a metal material such as aluminum having good reflection efficiency. Therefore, the front case 218a functions as a reflector that reflects ultraviolet light emitted by the ultraviolet lamp.

The separating member 218b is coupled to the front case 218a and a second fastening hole is formed to be fastened to the first fastening hole of the front case 218a. The separating member 218b is fastened not only to the front case 218a but also to a rear case (not shown).

Figure 5 shows a separating member according to an embodiment of the invention. Hereinafter, the structure of the separation member according to one embodiment of the present invention will be described in detail with reference to FIG.

5, the separating member has a second fastening hole 218b-1 fastened to the front case or the rear case, and a third fastening hole 218b-2 fastened to the guide rail. The second fastening holes 218b-1 are formed on the front surface, while the third fastening holes 218b-2 are formed on both sides. The separating member is formed into a bar type having a certain length, and both ends are bent when one side is open. The bent ends are formed with the third fastening holes 218b-2 as described above.

The guide rail 218d is fastened to the side case 218e of the sterilizing filter member, and a plurality of through holes are formed. To be more specific, the guide rail 218d is formed with a fourth fastening hole to be fastened to the side case 218e and a fifth fastening hole to be fastened to the separating member 218b, and a plurality of holes are formed.

6 shows a structure of a guide rail according to an embodiment of the present invention. Hereinafter, the structure of the guide rail according to one embodiment of the present invention will be described in detail with reference to FIG.

6, the guide rail is of a rod type having a predetermined thickness, and includes a fourth fastening hole 208d-3 fastened to the side case and a fifth fastening hole 208d-3 fastened to the third fastening hole of the separating member. 1) is formed. In addition, the guide rail proposed in the present invention is formed with a through hole 208d-2 through which an ultraviolet lamp is introduced. 6, it can be seen that five guide holes are formed in one guide rail.

The side case 218e also has a through hole through which the ultraviolet lamp 218f is drawn. In other words, the ultraviolet lamp 218f passes through the through hole formed in the guide rail 218d in a state of passing through the through hole formed in the side case 218e. Therefore, the ultraviolet lamp 218f is fixed by the side case 218e or the guide rail 218d.

In addition, the present invention proposes a rubber holder 218g in order to prevent breakage of the ultraviolet lamp when the ultraviolet lamp is closely attached to the side case of the metallic material or the guide rail. That is, a part of the rubber holder 218g is drawn into the receiving portion 208d-4 formed on the through hole formed in the side case 218e and on the through hole of the guide rail 218d and is formed on the drawn rubber holder 218g The ultraviolet lamp 218f is passed through the through hole 218g-3.

Figure 7 illustrates a rubber holder according to one embodiment of the present invention. Hereinafter, a rubber holder according to an embodiment of the present invention will be described in detail with reference to FIG.

According to Fig. 7, the rubber holder has a different outer diameter, and draws the rubber holder from the inside of the side case to the outside. In more detail, the first portion 208g-1 having a relatively large diameter in the rubber holder is accommodated in the accommodating portion 208d-4 formed in the through hole 208d-3 of the guide rail, . Therefore, the first portion 208g-1 having a relatively large diameter in the rubber holder is positioned on the guide rail, and the second portion 208g-2 having a relatively small diameter is protruded by a predetermined length to the side case and the outside. As described above, the first portion 208g-1 having a relatively large diameter is drawn and fixed on the guide rail and the side case, so that the remaining portion of the rubber holder is also stably fixed.

As such, the present invention prevents the ultraviolet lamp from being broken by allowing the ultraviolet lamp to be in close contact with the through hole formed in the side case and the through hole formed in the guide rail through the rubber holder as an elastic material.

As described above, the guide rails are fastened to the side case, and one guide rail is not fastened to the side case, but the guide rails are fastened to the side case at regular intervals. Therefore, the guide rail fastened to the side case serves as a guiding means for guiding the photocatalytic tube filter having a certain thickness. That is, the photocatalytic tube filter is inserted between the guide rails fastened to the side case at regular intervals.

8 to 9 illustrate a photocatalytic tube filter according to an embodiment of the present invention. Hereinafter, a photocatalytic tube filter according to an embodiment of the present invention will be described in detail with reference to FIGS. 8 to 9. FIG.

First, a process of assembling one photocatalytic tube filter using an upper photocatalytic tube filter and a lower photocatalytic tube filter will be described with reference to FIG. According to Fig. 8, the upper and lower photocatalytic tube filters have the same shape.

A filter coupling member 218c-1 is formed on the inner side of the lower photocatalytic tube filter, and a draw-in hole 218c-2 and a rod member 218c-3 are formed at one end thereof. The other end is not formed with a lead-in hole and a rod member. The filter fastening member 218c-1 formed on the inner side of the lower photocatalytic tube filter is fastened to the upper photocatalytic tube filter, and the filter fastening member formed inside the upper photocatalytic tube filter is fastened to the lower photocatalytic tube filter. As described above, the upper and lower photocatalytic tube filters are fastened to each other using the filter fastening member. In the state where the upper photocatalytic tube filter and the lower photocatalytic tube filter are fixedly engaged, one end is formed with the inlet hole 218c-2 and the rod member 218c-3, and the other end is also formed with the inlet hole 218c- A hole 218c-3 is formed. The top photocatalytic tube filter and the bottom photocatalytic tube filter do not coincide with each other at the time of fastening but are formed so as to be able to expose the inlet hole 218c-2 and the rod member 218c-3, The upper photocatalytic tube filter and the lower photocatalytic tube filter are tightened in a state where the photocatalytic tube filter formed with the photocatalytic filter 218c-3 is protruded.

Hereinafter, a method of connecting two photocatalytic tube filters in parallel by using FIG. 9 will be described. According to Fig. 9, the rod member formed on the second photocatalytic tube filter is introduced into the inlet hole formed in the first photocatalytic tube filter. As described above, the inlet hole and the rod member are exposed to the outside, thereby drawing the rod member formed in the second photocatalytic tube filter into the inlet hole formed in the exposed first photocatalytic tube filter. Through this process, a plurality of photocatalytic tube filters are connected in parallel.

Figure 10 illustrates an air vent and a lid according to one embodiment of the present invention. Hereinafter, the air discharging member and the lid according to an embodiment of the present invention will be described in detail with reference to FIG.

As described above, the air exhaust member 220 is located at the upper end of the main body case of the air exhaust member, and exhausts the air filtered by the sterilizing filter member to the outside of the main body. The air discharging member 220 has an air discharging surface formed so as to be inclined so that the inside air can be discharged. The lid 222 is positioned at the top of the air exhaust member and is formed into a flat plate type having a certain thickness. The lid 222 is fastened to the air discharging member using a separate fastening member.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention .

10: air 100: bottom frame
200: main body 300: air inflow pipe
202: Lower filter member housing
204: lower filter member 206: side filter member
208: blower 210: duct
218: sterilization purifying filter member 220: air discharging member
222: cover

Claims (9)

An air inflow pipe through which outside air flows;
A blower for forcibly introducing air through the air inflow pipe or for forcibly introducing air from a lower portion of the main body;
And a sterilizing filter member including a case made of a metallic material and having an ultraviolet lamp and a photocatalytic tube filter for sterilizing or deodorizing the air forced through the blower,
The sterilization purifying filter member includes a side case, a front case, and a rear case made of a metal material,
Wherein the front case is mounted with an electronic component for driving the ultraviolet lamp, a first fastening hole is formed,
A separation member having a second fastening hole and a third fastening hole formed therein;
The second fastening hole is fastened to the first fastening hole,
The side case includes a first through hole and a sixth through hole,
And a guide rail having a fifth fastening hole to be fastened to the sixth fastening hole, a second passage hole, and a fourth fastening hole to be fastened to the third fastening hole while the photocatalytic tube filter is drawn into the guide rail,
The ultraviolet lamp is introduced into the first through hole and the second through hole,
Wherein the photocatalytic tube filter is inserted between two guide rails fastened to the side case in a spaced-
The photocatalytic tube filter comprises an upper photocatalytic tube filter and a lower photocatalytic tuff filter,
One end of the upper photocatalytic tube filter is formed with a rod member which can be drawn into the inlet hole and the inlet hole,
The other side of the lower photocatalytic tube filter is formed with a rod member which can be drawn into the inlet hole and the inlet hole,
The inlet hole and the rod member are exposed to the outside while the upper and lower photocatalytic tube filters are fastened together,
Wherein the direction in which the photocatalytic tube filter is drawn and the direction in which the ultraviolet lamp is drawn are perpendicular to each other.
The air conditioner according to claim 1,
And a damper for blocking inflow of air is installed inside the damper, and the damper is driven according to indoor air condition information measured from the sensor.
The air filtering apparatus according to claim 2, further comprising a side filter member for filtering the air introduced through the air inlet pipe,
Wherein the side filter member comprises a pretreatment filter, a carbon filter, and a hepafi filter.
The air conditioner according to claim 3, further comprising a lower filter member for filtering the air introduced from the lower portion of the main body,
Wherein the main body is spaced apart from the bottom frame by a predetermined distance to allow air to flow from the bottom of the main body.
3. The method of claim 2,
Wherein a fan coil unit for heating or cooling the air introduced from the outside is formed at the front end of the damper.
delete delete The positive pressure air sterilizing apparatus according to claim 1, wherein the ultraviolet lamp uses a rubber holder to block direct contact with the first through hole and the second through hole.
delete

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