KR100853375B1 - Movable dry rotation dehumidifier - Google Patents

Abstract

A movable rotary solid dehumidifier is provided to allow a user to conveniently use the dehumidifier at any place by using wheels installed at the movable rotary solid dehumidifier. A movable rotary solid dehumidifier(100) comprises a body(10), a rotor(30), a blowing device, and a processing line(21). The processing line is connected with the blowing device and connected with the outside of the body by passing through the rotor. A first regeneration line(22) is branched from the processing line to pass through the rotor. A second regeneration line(23) is connected with the first regeneration line, and connected with the outside of the body by passing through the rotor in the reverse direction after passing through a regeneration heater. Dampers(24) are installed on the processing line and the regeneration lines to adjust outdoor air introduction.

Description

Movable Dry Rotation Dehumidifier

The present invention relates to a dry rotary dehumidifier, and more particularly, to a movable dry rotary dehumidifier which can be moved and used for dehumidification at a desired place by moving and simplifying its operation.

In general, a dry rotary dehumidifier is a device that lowers humidity by supplying dehumidified air after lowering humidity by passing humidified air through a rotor.

The general configuration of the dry rotary dehumidifier is briefly described with reference to FIG. 1 as follows.

As shown in the drawing, a filter 1 for filtering external air, a rotor 2 through which air introduced through the filter 1 passes through dehumidification, and a dehumidification air blower 3 for discharging the dehumidified air are provided. Have

In addition, the rotor 2 is configured to be connected to the drive motor 6 to rotate.

In addition, the moisture absorbed by the rotor 2 allows a part of the introduced air or separately introduced air to pass through the heater 2 and then to the heating heater 4 to increase the temperature.

In addition, the heated air passes through the rotor 2 again to discharge the moisture absorbed by the rotor 2 to the outside through a separate discharge blower (5).

The prior art of such a dry rotary dehumidifier is disclosed in Republic of Korea Utility Model Publication No. 20-0323078, which will be schematically described with reference to FIG.

As shown in the drawing, the conventional dehumidifier is driven by the dehumidifying air treatment fan 23 to dehumidify the outdoor air i by passing through a portion of the dehumidification rotor 21 located in the intake air flow region 21a, and dehumidifying the air (j). Intake air g is supplied to the room.

On the other hand, the regeneration outside air is warmed by the rotor regeneration heater 29 by driving the rotor regeneration fan 25, and then passed through the dehumidification rotor 21 positioned in the exhaust flow region 21b to allow the regeneration air 21 to flow in the intake air region 21 a. An exhaust stream h is formed in a direction opposite to the intake air g so as to remove and discharge the adsorbed moisture.

In addition, the dehumidification rotor 21 is configured to rotate (c) from the intake air flow region 21a to the exhaust flow region 21b by the driving of the motor 35.

However, the conventional dehumidifier has a disadvantage in that the space to be dehumidified is limited because it is fixedly used in one place.

In addition, there is a disadvantage in that the cost is increased by using two blowers and the weight of the product is heavy.

An object of the present invention is to solve the problems as described above, free to move to the desired place, removable dry ash that can be installed to remove moisture by connecting in the machine room, such as helicopters, aircraft as needed It is to provide a typical dehumidifier.

In addition, the use of a single blower, the weight is lighter than the conventional and the configuration is simple to provide a movable dry rotary dehumidifier that can reduce the installation cost and facilitate the installation work.

In order to achieve the above object, the movable dry rotary dehumidifier of the present invention is a main body of the dehumidifier, a rotor in which dehumidification is performed, a blower for introducing outside air, a processing line connected to the blower and passing out of the main body through the rotor, the processing line Dehumidification is installed in the main body including a second regeneration line branched from the first regeneration line passing through the rotor, the second regeneration line connected to the first regeneration line, passing through the rotor after passing through the regeneration heater connected to the outside of the main body It is composed of a module, each of the processing line and the regeneration line is provided with a damper for controlling the inflow of outside air and a plurality of wheels is installed in the lower portion of the main body.

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In addition, the main body is characterized in that the core reel wound around the power line is installed.

In addition, one side of the rotor is characterized in that the processing unit connected to the processing line along the circumferential direction, the first regeneration unit connected to the first regeneration line, the second regeneration unit is connected to the second regeneration line.

According to the movable dry rotary dehumidifier according to the present invention, since the dehumidifier can be moved and used by the wheel installed in the dehumidifier, there is an advantage in that it is not limited to one place and can be freely moved to a desired place.

In addition, by using a single blower, cost is reduced, weight is reduced, and installation is easy.

In addition, dehumidification is possible even if the distance between the power supply and the place to be dehumidified by the core reel is somewhat apart.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

As shown, the dehumidifier 100 according to the present embodiment has a main body 10 forming an external shape, a blower 20 for introducing outside air into the main body 10, a rotor 30 in which dehumidification is performed, and the blower A processing line 21 connected to the 20 and connected to the outside of the main body through the rotor 30, a first regeneration line 22 branched from the processing line 21 and passing through the rotor 30, and the first A second regeneration line 23 connected to the first regeneration line 22 and connected to the outside of the main body by passing through the regeneration heater 40 and then passing backward through the rotor 30 is installed.

The rotor 30 is formed in a cylindrical shape, the first regeneration connected to the processing unit 31, the first regeneration line 22 is connected to the processing line 21 in the circumferential direction on one side of the rotor (30) The second regeneration unit 33 connected to the unit 32 and the second regeneration line 23 is installed.

In addition, a belt or chain 35 is installed on the outer circumferential surface of the rotor 30 and the belt or chain 35 is connected to the driving motor 34 so that the rotor 30 is rotated by ON / OFF of the dehumidifier. Do it.

As a result, the rotor 30 is rotated so that the fixed processing unit 31, the first regeneration unit 32, and the second regeneration unit 33 are sequentially cycled to continuously obtain dehumidified air.

That is, as shown in FIG. 3, the rotor 30 is positioned according to the positions of the processing unit 31, the first reproducing unit 32, and the second reproducing unit 33 on the basis of when the rotor 30 is stopped. Is divided into a processor section 31 ', a first playback section 32', and a second playback section 33 '.

At this time, when the rotor 30 rotates according to the operation of the dehumidifier 100, the processor section 31 ′ positioned in the processor 31 cycles through the second and third regeneration units 33 and 32. .

Accordingly, in the treatment section 31 ′ of the rotor 30 where the treatment section 31 is located, moisture in the outside air is adsorbed to dehumidify to form intake air, and the intake air at the end of the treatment line 21 is formed. It is supplied to the dehumidification space through the air discharge part 50.

Here, the intake air discharge unit 50 may be supplied with a dehumidified air to the dehumidification space by using a separate connection pipe (not shown).

Then, a regeneration heater 40 is provided between the first regeneration unit 32 and the second regeneration unit 33, that is, between the first regeneration line 22 and the second regeneration line 23. 40 is preferably installed in the heat insulation box 41 so that the temperature of the heated air is maintained.

In addition, in the first regenerator section 32 ′, the rotor 30 is cooled while passing outside air, and in the second regenerator section 33 ′, the processing unit is driven by the outdoor air whose temperature is increased while passing through the regeneration heater 40. The moisture adsorbed at 31 is removed to form exhaust air, and the exhaust air is discharged out of the main body 10 through the exhaust air discharge part 60 at the end of the second regeneration line 23.

On the other hand, where the outside air is introduced to install a filter (11) to remove dust and the like of the outside air, a plurality of wheels (12) are installed on the bottom surface of the main body 10 to facilitate movement.

In addition, even if the place to be dehumidified by the core reel 13 for connecting the power and the power connection is far away from the power connection is possible to facilitate the use of moving the dehumidifier.

In addition, a damper 24 serving as a valve is installed in the processing line 21 and the first regeneration line 22, respectively, to control the opening and closing of the processing line 21 and the first regeneration line 22 and to supply outside air. Allow you to control the amount of water used.

The dehumidifier first moves the dehumidifier through the wheel 12 installed on the bottom surface of the dehumidifier, and is positioned to be adjacent to the machine room of a helicopter or an aircraft, and the core reel 13 installed in the dehumidifier is released. Use by connecting power.

Next, the operation of the dehumidifier configured as described above is as follows.

When the dehumidifier is operated through the start switch (not shown) of the dehumidifier, the damper installed in the processing line 21 and the first regeneration line 22 is opened, and the rotor 30 rotates as the driving motor 34 operates. Exercise, blower 20 is activated.

Here, the outside air flows into the processing line 21 and the first regeneration line 22 by the blower 20, and the outside air passes through the filter 11 installed in the main body 10, Filter it out.

First, the outside air introduced through the processing line 21 passes through the processing unit 31 section of the rotor 30 to remove moisture to form intake air, and the intake air is provided through the discharge unit 50 to the dehumidification space ( Machine rooms such as helicopters and aircrafts).

Meanwhile, the outside air introduced through the first regeneration line 22 passes through the first regeneration unit 32 section of the rotor 30.

At this time, the outside air cools the rotor 30 heated by the high temperature air passing through the second regeneration unit 33 section of the rotor 30 to be described later while passing through the first regeneration unit 32 section, It undergoes a heat exchange process in which the temperature rises.

As described above, the outdoor air whose temperature rises through heat exchange passes through the regeneration heater 40 and further increases in temperature.

Here, the outside air whose temperature is raised passes through the second regeneration unit 33 section of the rotor 30 to absorb moisture adsorbed to the rotor 30 to form high-temperature and humid exhaust air. 2 is discharged out of the main body 10 through the exhaust air discharge part 60 at the end of the regeneration line 23.

1 is a conceptual view showing a general dry rotary dehumidifier.

2 is a view showing a movable dry rotary dehumidifier according to the present invention.

3 is a conceptual view showing a dehumidifier according to the present invention.

Explanation of symbols on the main parts of the drawings

100: Dehumidifier

10: main body

11: filter

12: wheels

13: core reel

21: processing line

22: play line

24: damper

30: rotor

31: processing unit

32: first playback unit

33: second playback unit

40: play heater

Claims (4)

Main body of the dehumidifier, Rotor with dehumidification, Blower for inflowing outside air, A processing line connected to the blower and connected to the outside of the main body through the rotor, A first regeneration line branched from the processing line and passing through the rotor, A dehumidification module connected to the first regeneration line and including a second regeneration line connected to the outside of the main body by passing through the rotor in reverse after passing through the regeneration heater, The treatment line and the regeneration line are each provided with a damper for controlling the inflow of outside air, A movable dry rotary dehumidifier, characterized in that a plurality of wheels are installed in the lower portion of the main body. delete The method of claim 1, Movable dry rotary dehumidifier characterized in that the core reel is wound around the power line is installed. The method of claim 3, One side of the rotor is a processing unit connected to the processing line along the circumferential direction, A first reproducing unit connected to the first reproducing line; And a second regeneration unit connected to the second regeneration line.

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