KR200335780Y1 - Dehumidifier having oxygen generator - Google Patents

Abstract

The present invention is a dehumidifier for removing moisture in the room by the main body is formed with the suction port and the discharge port, and the inside of the main body, the ultra-thin oxygen generator is mounted inside the main body, the ultra-thin oxygen generator A suction pump, a vacuum pump connected to communicate with the suction filter to compress the sucked air, a noise pipe connected to the vacuum pump to attenuate noise and vibration generated while passing through the vacuum pump, and the noise pipe It is installed so as to be communicated to provide a dehumidifier with an oxygen generating device, characterized in that consisting of an oxygen generating module with a built-in ultra-thin membrane membrane separated by oxygen and nitrogen.

Description

Dehumidifier with oxygen generator {Dehumidifier having oxygen generator}

The present invention injects clean oxygen generated by ultra-thin film or hollow fiber oxygen generator to the dehumidified discharge air while passing through a large number of parts to provide a pleasant and healthy indoor environment like a forest to provide clean and clear oxygen to users. A dehumidifier having an oxygen generator that can be supplied.

In general, the dehumidifier inhales the indoor humid air into the main body, lowers the humidity by passing through a heat exchanger consisting of a condenser and an evaporator through which the refrigerant flows, and then discharges the dehumidified air back into the room, thereby reducing humidity in the room. It is a lowering device.

On the other hand, such a dehumidifier may further include a filter unit for filtering impurities in the indoor air circulated by forced convection on the front surface thereof, that is, the side where the indoor air is sucked, and is detachably fitted inside the front surface of the air conditioner. The custom combination will help the dehumidification function additionally.

However, since the dehumidifier simply removes moisture contained in indoor air, there was a limit to highlighting additional functions besides the dehumidification function.

The present invention was conceived in view of the above points, and at the same time to remove moisture in the room and at the same time equipped with an oxygen generator inside the dehumidifier to contain fresh fresh oxygen in the dehumidification air discharged through the discharge port of the dehumidifier at the same time dehumidification The object of the present invention is to provide a dehumidifier with an oxygen generator that can provide users with a pleasant environment as if they are in the forest by spraying clean oxygen into the air.

Figure 1a is a cross-sectional view showing a dehumidifier having an ultra-thin oxygen generator according to the present invention.

1B is a schematic view showing a schematic configuration of an ultra-thin oxygen generator.

Figure 2a is a cross-sectional view showing a dehumidifier having a hollow fiber oxygen generator according to the present invention.

Figure 2b is a schematic diagram showing a schematic configuration of the hollow fiber oxygen generator.

* Description of the symbols for the main parts of the drawings *

1: dehumidifier 2: body

2a: suction port 2b: discharge port

10: blower 14: heat exchanger

14a: evaporator 14b: condenser

18: water tank 20: compressor

40; Ultra-thin oxygen generator 41; Suction filter

42; Vacuum pump 43; Sound tube

44; Ultra thin membrane 45; Oxygen generation module

48; Oxygen discharge pipe 50; Hollow Fiber Oxygen Generator

51; Suction device 52; First compressor

53; First silencer 54; Second silencer

55; Second compressor 56; Hollow Fiber Membrane

59; Oxygen discharge pipe

The dehumidifier having an oxygen generator according to the present invention for achieving the above object is a main body formed with a suction port and a discharge port, and a plurality of parts mounted inside the main body to remove moisture in the room, the main body The ultra-thin oxygen generator is mounted inside the, the ultra-thin oxygen generator is connected to the suction filter, the suction filter is connected to the vacuum pump for compressing the sucked air, and connected to the vacuum pump passes through the vacuum pump It is characterized in that it consists of an oxygen generating module having a built-in ultra-thin membrane that is installed so as to communicate with the noise tube and attenuates the generated noise and vibration, and separated into oxygen and nitrogen.

In addition, the dehumidifier having another oxygen generating device according to the present invention in the dehumidifier to remove the moisture in the room is equipped with a main body is formed in the inlet and the discharge port, and the inside of the main body, the inside of the main body The hollow fiber oxygen generator is equipped, the hollow fiber oxygen generator is connected to the suction device, at least one compressor connected to communicate with the suction device to compress the sucked air, noise generated in the compressor connected to the compressor and At least one silencer for damping vibrations, characterized in that the hollow fiber membrane is installed to communicate with the silencer to separate the supplied air into nitrogen and oxygen.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of a dehumidifier having an oxygen generating device according to the present invention.

Figure 1a is a cross-sectional view showing a dehumidifier having an ultra-thin oxygen generator according to the present invention, Figure 1b is a schematic diagram showing a schematic configuration of the ultra-thin oxygen generator.

As shown, the dehumidifier having an ultra-thin oxygen generator according to the present invention is a dehumidifying unit (1) for purifying the indoor air for generating oxygen, and ultra-thin oxygen generator (40) mounted inside the dehumidifying unit (1) )

First, the dehumidifying unit 1 includes a main body 2 having a suction port 2a through which indoor air is sucked and a discharge port 2b through which dehumidified air is discharged, and a built-in main body 2 to suck air in the room. A heat exchanger (14) comprising a blower (10) generating a blowing force so as to be discharged, and an evaporator (14a) and a condenser (14b) in which dehumidification is performed while the air sucked in the main body (2) passes through And a water tank 18 in which the condensed water generated during the dehumidification action of the heat exchanger 14 is collected, and a compressor 20 for compressing the refrigerant passing through the heat exchanger 14.

The ultra-thin oxygen generator 40 is composed of an oxygen generating module 45 provided with a suction filter 41, a vacuum pump 42, a noise tube 43, and an ultra-thin membrane 44 44. (2) It is mounted in a predetermined position inside, but is installed near the discharge port 2b of the dehumidifying part 1 in this embodiment. That is, the suction filter 41 for purifying the sucked air, the vacuum pump 42 is connected to communicate with the suction filter 41 to compress the purified air through the suction filter 41 to a high pressure, and A noise tube 43 which reduces noise and vibration generated while passing through the vacuum pump 42 and communicates compressed air at high pressure, and is connected to the noise tube 43 through the noise tube 43 It is composed of an oxygen generating module 45 provided with an ultra-thin membrane 44 for separating the delivered air into nitrogen and oxygen. On the other hand, one side of the oxygen generating module 45 is connected to the oxygen generating tube 48 is passed through the ultra-thin membrane 44 to discharge the final generated pure oxygen to the outside. Here, the installation position of the oxygen generating device may be variously modified to supply only the oxygen generated while passing through the ultra-thin membrane 44 to the discharge port 2b of the dehumidifying unit 1.

The dehumidifying unit 1 is operated while the blower 10 is driven. When the blower 10 is operated, the air in the room is introduced into the main body 2 through the inlet port 2a to filter 9. Purified while passing through, the purified air is discharged into the room through the discharge port (2b) located on the upper side by the force of the blower (10).

At this time, as shown in the operation of the ultra-thin oxygen generator 40, the air is introduced through the suction filter 41 with the operation of the vacuum pump 42, the dust from the air by the suction filter 41, etc. The same impurities are filtered out.

The air passing through the suction filter 41 passes through the vacuum pump 42, and the air passing through the vacuum pump 42 passes through the noise pipe 43 having a narrow width.

The noise tube 43 removes noise generated when the air is sucked from the suction filter 41 and noise generated by the vacuum pump 42.

The air passing through the sound pipe 43 is introduced into the oxygen generating module 45, specifically, into the ultra-thin membrane 44 provided inside the oxygen generating module 45.

The air drawn into the ultra-thin membrane 44 is separated into high oxygen and high nitrogen.

Here, although the structure of the ultra-thin membrane 44 is not specifically illustrated, it has a cylindrical or other polygonal body on the outside, a plurality of ceramic separators are provided inside the body. The ultra-thin membrane 44 has a method of separating air into high concentration oxygen and high concentration nitrogen by passing air through an internal path formed by each separator.

The high concentration oxygen produced by the ultra thin membrane 44 is supplied along the oxygen discharge pipe 48 provided outside the oxygen generating module 45 and sprayed to the discharge port 2b of the dehumidifying part 1, thereby providing high concentration to the discharged air. Contains oxygen.

As a result, it is possible to provide a more comfortable indoor environment to the user by the clear and comfortable air discharged through the discharge port (2b) of the dehumidifying unit (1).

On the other hand, although the nitrogen discharge pipe is not shown in this embodiment, provided on the other side of the oxygen generating module 45 to discharge the nitrogen generated in the ultra-thin membrane 44 to the outside.

Figure 2a is a cross-sectional view showing a dehumidifier having a hollow fiber oxygen generator according to the present invention, Figure 2b is a block diagram showing a schematic configuration of the hollow fiber oxygen generator.

As shown, the dehumidifier having a hollow fiber oxygen generator according to the present invention is a dehumidifying unit (1) for purifying the indoor air generating oxygen, and a hollow fiber oxygen generator mounted inside the dehumidifying unit (1) It consists of 50.

First, the dehumidifying unit 1 includes a main body 2 having a suction port 2a through which indoor air is sucked and a discharge port 2b through which dehumidified air is discharged, and a built-in main body 2 to suck air in the room. And a heat exchanger (14) comprising an air blower (10) for generating a blowing force so as to be discharged, and an evaporator (14a) and a condenser (14b) in which dehumidification is performed while the air sucked into the main body (2) passes through; And a water tank 18 in which condensed water generated during the dehumidification of the heat exchanger 14 is collected, and a compressor 20 for compressing the refrigerant passing through the heat exchanger 14.

On the other hand, the hollow fiber oxygen generator 50 is composed of a suction device 51, a plurality of compressors (52, 55), a plurality of silencers (53, 54), hollow fiber membrane (56) and the like dehumidifying unit (1) It is mounted at a predetermined position inside the main body 2. That is, in other words, the suction device 51 for sucking air, one or more compressors (52, 55) connected to communicate with the suction device 51 to compress the sucked air, and the compressor (52, 55) One or more silencers 53 and 54 which are connected to attenuate the noise and vibration generated by the compressors 52 and 55, and are installed to communicate with the silencers 53 and 54 to separate supplied air into nitrogen and oxygen. It consists of a hollow fiber membrane 56. Here, the installation position of the oxygen generating device 50 may be variously implemented to supply only the oxygen generated while passing through the hollow fiber membrane 44 to the discharge port (2b) of the dehumidifying unit (1).

In operation of the hollow fiber oxygen generator 50, the air is sucked through the suction device 51 together with the operation of the first compressor 52, which sucks impurities such as dust from the sucked air. Filter it out.

The air passing through the suction device 51 passes through the first compressor 52, and the air passing through the first compressor 52 passes through the first silencer 53 and the second silencer 54 in order.

The first silencer 53 and the second silencer 54 serve to remove noise generated while passing through the suction device 51 and the first compressor 52.

The air passing through the first silencer 53 and the second silencer 54 is introduced into the hollow fiber membrane 56.

The hollow fiber membrane 56 generates high concentration oxygen and high concentration nitrogen from the air introduced into the interior.

Here, although the internal structure of the hollow fiber membrane 56 is not specifically illustrated, a cylindrical or other polygonal main body is provided outside. In addition, a plurality of hollow-fibers are provided inside the main body of the hollow fiber membrane 56, and a footing part hardened by epoxy resin is formed to fix the hollow fiber and separate oxygen and nitrogen.

The oxygen generated in the hollow fiber membrane 56 passes through the second compressor 55 along the oxygen discharge pipe 59 connected to the main body of the hollow fiber membrane 56 and then through the discharge port of the hollow fiber oxygen generator 50. By spraying to the discharge port 2b of the dehumidifying part 1, high concentration of oxygen is contained in the discharge air. Here, the second compressor 55 is to discharge the oxygen generated in the hollow fiber membrane 56 at a constant pressure.

As a result, the user can be provided with a more comfortable indoor environment by the clear and comfortable air discharged through the discharge port (2b) of the dehumidifying unit (1).

Although not shown in the embodiment, the nitrogen discharge pipe is provided on the other side of the hollow fiber membrane 56 to discharge the high concentration of nitrogen generated in the hollow fiber membrane 56 to the outside.

Dehumidifier equipped with the oxygen generator according to the present invention by supplying the clean and comfortable oxygen supplied from the oxygen discharge pipe such as ultra-thin film or hollow fiber oxygen generator to the discharged air dehumidified in the dehumidification unit, the user is more comfortable and There is an excellent effect to feel as comfortable.

In the above, the present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited only to the above-described embodiment, and those skilled in the art to which the present invention belongs, without departing from the spirit of the technical idea of the present invention described in the utility model registration claims below. Any number of changes can be made.

Claims (2)

In the main body formed with the suction port and the discharge port, the dehumidifier is installed in the interior of the main body to remove moisture in the room, An ultra-thin oxygen generator is installed inside the main body, wherein the ultra-thin oxygen generator is connected to the suction filter, the suction filter, a vacuum pump for compressing the sucked air, and the vacuum pump is connected to the vacuum pump. Dehumidifier having an oxygen generating device comprising a noise tube for attenuating noise and vibration generated while passing through, and an ultra-thin membrane membrane installed to communicate with the noise tube and separating into oxygen and nitrogen. . In the main body formed with the suction port and the discharge port, the dehumidifier is installed in the interior of the main body to remove moisture in the room, The hollow fiber oxygen generator is mounted inside the main body, the hollow fiber oxygen generator is connected to the suction device, at least one compressor for compressing the sucked air connected to communicate with the suction device, and connected to the compressor At least one silencer for attenuating the noise and vibration generated in the dehumidifier having an oxygen generator characterized in that the hollow fiber membrane is installed to communicate with the silencer to separate the supplied air into nitrogen and oxygen.