KR102116997B1 - Vaporization-type Air Supply System for Energy-saving and Easy Maintenance - Google Patents

Abstract

The present invention is to solve the conventional problems as described above, the object of the present invention is to form a water tank in the housing, a certain portion of the pad assembly that is rotated by a driving motor in the water tank is locked, one side of the pad assembly A fan unit is installed on the pad assembly to be rotated by the drive motor to absorb the water stored in the water tank, but by passing air through the pad assembly where the water is absorbed, it provides a vaporized air supply system that cools the air by vaporization. Is to do.
According to the present invention, the pad assembly is rotated while the water supply pumps are not respectively installed in a plurality of vaporized air supply devices installed on the roof, and the water absorption pumps are respectively driven because the moisture absorbing pads are properly immersed in the water tank and kept wet. The energy to do is saved, while the moisture absorbing pad is submerged in the water tank while the water absorbing pad rotates, the water absorbed pad is cleaned and cleaned by the pad cleaning brush and the water contained in the water tank, and the water contained in the water tank is discharged at a predetermined cycle. While supplying fresh water or water supplied to the water tank is continuously discharged through the drain pipe after circulating the water tank, water in the water tank can be kept clean.

Description

Energy-saving evaporative air supply system for easy maintenance {Vaporization-type Air Supply System for Energy-saving and Easy Maintenance}

The present invention relates to a vaporized air supply system, and more specifically, by rotating a pad assembly in which a certain part is submerged in a water tank, so that the moisture absorption pad of the pad assembly is automatically wetted with water in the water tank, and passes through the air with the moisture absorption pad. It relates to an energy-saving evaporative air supply system that is easy to maintain so that the air is evaporated and cooled.

A vaporized air supply device such as a cold air blower (hereinafter referred to as a 'vaporized air supply device') takes heat from outside air by taking heat from the outside air as it passes through a pad of a certain thickness (hereinafter referred to as a 'hygroscopic pad') soaked in water. It is a device that generates cold air by relatively lowering the temperature of the outside air by vaporization.

This evaporative air supply device has a relatively low energy consumption compared to other air-conditioning devices (for example, air conditioners), and thus has been installed in industrial fields such as factories.

However, the evaporative air supply device installed in factories as described above is inevitably neglected for the operator to cleanly manage the moisture absorbing pad of the evaporative air supply device, and thus, various dusts, etc. get stuck on the moisture absorbing pad, and bacteria, such as mold, propagate. Thereby, odors are generated and complaints of unpleasantness frequently occur.

Moreover, the evaporative air supply device is often installed on the roof of a factory because it is constructed to supply cold air by ducts to the room. In this case, it is not easy for the worker to climb on the roof to clean the moisture absorbing pads of the evaporative air supply device.

In addition, when the size of the plant is large, several evaporative air supply devices are installed, and each self-circulating pump for supplying water to the moisture absorbing pads in the evaporative air supply devices is installed, thereby increasing energy consumption. In addition, there is a problem that maintenance problems of filters and pumps are frequently generated due to the scale generated inside the pipeline through which water is supplied.

Therefore, it is required to develop an improved structured vaporized air supply system that does not require each worker to install a self-circulating pump in the vaporized air supply device, even if the operator does not periodically clean the moisture absorption pad or the like.

KR 10-1360682 B1 KR 10-1209335 B1 KR 10-1534289 B1

The present invention is to solve the conventional problems as described above, the object of the present invention is to form a water tank in the housing, a certain portion of the pad assembly that is rotated by a driving motor in the water tank is locked, one side of the pad assembly A fan unit is installed on the pad assembly to be rotated by the drive motor to absorb the water stored in the water tank, but by passing air through the pad assembly where the water is absorbed, it provides a vaporized air supply system that cools the air by vaporization. Is to do.

In order to achieve the object of the present invention as described above, the energy-saving evaporative air supply system, which is easy to maintain and maintain according to the present invention, is a vaporized air supply that supplies humidified air or cooled air into the room by a vaporized air supply device. In the system, the evaporative air supply system, One or more vaporized air supply device is installed on the roof or the outside of the building; It includes; a water supply pipe for supplying water to the evaporation-type air supply device; the evaporation-type air supply device includes a housing; A water tank which is located at an inner lower portion of the housing to store water; A pad assembly installed to be immersed in the water tank and rotated by a driving motor; A fan unit installed on one side of the pad assembly so that air outside the pad assembly passes inside the pad assembly; A controller for controlling water supply to the drive motor, the fan unit and the water supply pipe; Including, the pad assembly is characterized in that it can absorb the stored water of the water tank during rotation.

In the energy-saving evaporative air supply system for easy maintenance according to the present invention, the pad assembly is characterized in that it forms a cylindrical or inclined cylindrical shape.

In an energy-saving evaporative air supply system that is easy to maintain and maintain according to the present invention, a pad washing brush for washing the pad assembly while being in contact with the outer surface of the pad assembly is installed in the water tank.

In the energy-saving evaporative air supply system for easy maintenance according to the present invention, the water tank is provided with a water supply pipe guiding that water is supplied to the water tank through the water supply tank, and a drain pipe for discharging water in the water tank It is characterized in that the water in the water tank is discharged every predetermined period through the drain pipe.

In the energy-saving evaporative air supply system that is easy to maintain and maintain according to the present invention, a water tank washing brush is connected to the pad assembly, so that the bottom surface of the water tank is washed by the water tank washing brush while the pad assembly rotates. It is characterized by being able to.

In the easy-maintenance energy-saving evaporative air supply system according to the present invention, the water tank is provided with a water supply pipe guiding that water is supplied to the water tank through the water supply tank, and guiding water discharged inside the water tank. A drain pipe is installed, and water is continuously supplied into the water tank through the water supply pipe, and water in the water tank is continuously discharged through the drain pipe.

In the energy-saving evaporative air supply system for easy maintenance according to the present invention, the water in the water tank is pushed in the direction of the drain pipe by the inflow pressure of water flowing into the water tank through the water supply pipe. It is characterized in that it is discharged to the outside through the drain pipe.

In the energy-saving evaporative air supply system for easy maintenance according to the present invention, the water tank 20 is recessed in an arc shape to correspond to the outer surface shape of the pad assembly 30 at the center of the upper surface, and the water supply pipe 3A ) Receiving water through the water receiving groove 22; The water receiving groove 22 is recessed at both sides so as to be adjacent to the water receiving groove 22, and is tapered so as to become wider from the front end to the rear end so that the front end communicates with the water receiving groove 22, and the water receiving It characterized in that it consists of; a water discharge groove (23) for guiding the water accommodated in the groove (22) to move to the drain pipe (3B).

According to the present invention, the pad assembly is rotated while the water supply pumps are not respectively installed in a plurality of vaporized air supply devices installed on the roof, and the water absorption pumps are respectively driven because the moisture absorbing pads are properly immersed in the water tank and kept wet. Energy to do is saved.

In addition, while the moisture absorbing pad is rotated, the moisture absorbing pad is kept clean while foreign substances, etc. are washed by the water and the pad washing brush in the water tank while being immersed in the water tank.

In addition, it is possible to keep the water in the tank clean by supplying fresh water while discharging the water contained in the tank at a predetermined cycle or by continuously discharging the water supplied to the tank through the drain pipe after circulating the tank.

1 is a configuration diagram of an energy-saving evaporative air supply system that is easy to maintain and maintain according to an embodiment of the present invention.
Figure 2 is a side view of Figure 1;
Figure 3 is a perspective view showing a vaporized air supply device according to an embodiment of the present invention.
4 is a bottom perspective view of an evaporative air supply device according to an embodiment of the present invention.
Figure 5 is an exploded perspective view of Figure 3;
6 is a cross-sectional view showing in detail a vaporized air supply device according to an embodiment of the present invention.
7 is a perspective view showing in detail a pad assembly according to an embodiment of the present invention.
8 is a cross-sectional view of FIG. 7;
9 is a partially enlarged view showing in detail the assembly structure of the pad assembly according to the embodiment of the present invention.
FIG. 10 is a state diagram of use in FIG.
11 is a plan view showing the flow of water in a water tank according to an embodiment of the present invention.
12 is a front view showing a pad assembly according to another embodiment of the present invention.
13 is a cross-sectional view showing an example of a vaporized air supply device according to another embodiment of the present invention.
14 is a cross-sectional view showing in detail a vaporized air supply device according to another embodiment of the present invention.

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

1 and 2, the vaporized air supply system of the present invention is to supply water to one or more vaporized air supply devices (2), vaporized air supply devices (2) installed on the roof (1) or the outside of the building It includes a water supply tank (3).

The evaporative air supply device 2 is connected to a duct 2A for supplying humidified or cooled air to the interior of the building, and a drain pipe for discharging stored water to the lower side of the evaporative air supply device 2 (3B) is connected The drain pipe 3B is provided with a valve controlled by a controller, so that the drain pipe 3B can be automatically opened and closed.

The water supply tank 3 is provided with a water supply pump (not shown) inside, and a water supply pipe 3A for supplying water to the vaporized air supply device 2 is connected.

In addition, the water supply tank 3 is provided with an inlet (not shown) so that the washing solution can be selectively injected. Alternatively, a chemical injection device (not shown) for introducing the washing solution into the water supply pipe 3A may be installed.

The washing liquid is selectively supplied through the inlet of the water supply tank 3 or the chemical injection device of the water supply pipe 3A, so that the inside of the water supply pipe 3A and the water tank 20 is washed by the washing liquid, and the scale and water tank 20 accumulated in the pipeline are washed. ) Removes contaminants.

 In addition, contaminants accumulated in the water tank 20 may be removed by opening the drain pipe 3B.

3 to 6, the vaporized air supply device 2 includes a housing 10, a water tank 20, a pad assembly 30, a fan unit 40 and a controller.

Hereinafter, for the convenience of description, the direction in which the air is discharged by the outside air flowing into the vaporized air supply device 2 is described as the front and the opposite direction as the rear.

The housing 10 is made of a square frame structure, and air inlets 11 and air outlets 12 through which the inflowed air is discharged are formed on both sides and the upper and rear sides so that air is introduced from the outside to the inside. In addition, other parts except the air inlet 11 and the air outlet 12 are covered by using separate plates.

In addition, support rollers 13 and 14 that rotatably support both sides of the pad assembly 30 are installed inside the housing 10.

The water tank 20 is located inside the lower portion of the housing 10.

The water tank 20 forms a water supply pipe 3A guiding that water is supplied to the water tank 20 through the water supply tank 3, and a drain pipe 3B for discharging water in the water tank 20. do.

The water tank 20 is recessed in an arc shape to correspond to the outer surface shape of the pad assembly 30 at the center of the upper surface, the water receiving groove 22 receiving water through the water supply pipe 3A, and the water receiving groove The water receiving groove 22 is recessed at both sides so as to be adjacent to (22), and is tapered to be wider from the front end to the rear end so that the front end communicates with the water receiving groove 22, and the water receiving groove 22 is formed. It is composed of a water discharge groove 23 to guide the water accommodated in the drain pipe (3B) to move.

The water tank 20 supplies water to the water receiving groove 22 through the water supply pipe 3A, and water from the water discharge groove 23 through the drain pipe 3B is external to the water tank 20. To discharge.

The water tank 20 discharges and supplies water in the water tank 20 by the controller.

The water tank 20 discharges the water inside the water tank 20 through the drain pipe 3B every predetermined period or continuously supplies water into the water tank 20 through the water supply pipe 3A, Water inside the water tank 20 is continuously discharged through the drain pipe 3B.

A pad washing brush 21 in contact with the pad assembly 30 to be described later is installed in the water tank 20.

Here, the pad cleaning brush 21 is configured to be rotated while the washing head is formed radially along the outer surface of the rod having a length so that the pad cleaning brush 21 is rotated while contacting the outer surface of the pad assembly 30. ) Can remove contaminants precipitated in the water tank 20 while rotating.

Referring to FIGS. 7 and 8, the pad assembly 30 is installed such that the cylindrical surface of the pad assembly 30 is horizontally submerged at a certain level while forming a slanted cylindrical shape, and the pad assembly 30 ) Is installed so that the driving motor (M) is installed on one side to rotate.

The pad assembly 30 is formed in an inclined cylindrical shape as a whole, so that the sound pressure formed by the operation of the fan unit 40 regardless of the front and rear of the pad assembly 30 is in the longitudinal direction (or inclined direction) of the pad assembly 30. Therefore, the external air can be more uniformly introduced into the pad assembly 30 over the entire area of the pad assembly 30, thereby improving humidification or cooling performance.

The pad assembly 30 is radially arranged to connect the outer surfaces of the first and second side covers 31A, 31B and the first and second side covers 31A, 31B having different diameters while being spaced apart from each other at predetermined intervals. The plurality of support frames 32, a plurality of moisture absorption pads 33 installed in a spaced space between the support frames 32, and a mesh network 34 installed to surround the outer surface of the moisture absorption pad 33 And it includes a fixing mesh 35 for fixing the mesh net 34 to the support frame 32, respectively.

The first side cover 31A covers one end of the pad assembly 30, and a discharge hole for discharging outside air flowing in from the outside of the pad assembly 30 to the inside through the moisture absorption pad 33 is formed in the center portion. do.

The second side cover 31B is formed in a disc shape to cover the other end of the pad assembly 30.

When the moisture absorption pad 33 is radially arranged, the support frame 32 is formed in a “V” shape in cross section so that it can be naturally arranged in a cylindrical shape.

Further, protrusions supporting the moisture absorbing pads 33 are formed on both lower sides of the support frame 32.

The moisture absorption pad 33 is formed with a myriad of flow paths communicating from the outside to the inside of the pad assembly 30.

The moisture absorption pad 33 is manufactured by repeatedly stacking plate materials so that the wavy shapes face each other.

9, the mesh net 34 is made of a flexible material such as a string and installed to surround the outer surface of the moisture absorption pad 33. The mesh net 34 is supported by a radially arranged moisture absorption pad 33 It functions to support the moisture absorption pad 33 so as not to escape from the frame 32.

The fastener 35 is formed of a zigzag shape, and is made of a wire having elasticity, etc., and the fastener 35 is pressure-assembled to the upper portion of the support frame 32.

The fastener 35 is pressurized and inserted into the upper inside of the support frame 32 together with the mesh net 34 from the upper side of the mesh net 34 and the support frame 32 by the elastic restoring force of the fastener 35 It is inserted and fixed to the upper portion of the mesh network 34 is thereby securely fixed to the support frame 32.

The controller controls the driving motor (M), the fan unit 40, water supply to the water supply pipe (3A), opening and closing of the drain pipe (3B), and the like.

Referring to FIG. 10, when power is applied to the fan unit 40 and the driving motor M under the control of the controller, the fan assembly 40 and the pad assembly 30 are rotated, and the pad assembly 30 is rotated. The assembly 30 remains immersed in the water tank 20 while being continuously wetted with water.

Here, the pad assembly 30 is rotated through the water receiving groove 22 of the water tank 20, which is recessed in an arc shape, so that the pad assembly 30 receives water accommodated in the water receiving groove 22. Keep absorbed and moistened.

At this time, the water accommodated in the water receiving groove 22 is the inflow pressure of the water supplied to the water receiving groove 22 through the water supply pipe 3A at a time exceeding a predetermined time according to the control method of the controller, or continuous By being pushed by the inflow pressure of the water supplied to the water receiving groove 22 through the water supply pipe 3A, the water accommodated in the water receiving groove 22 is moved to the front end of the water receiving groove 22.

Then, the water that has reached the front end of the water receiving groove 22 moves to the water discharge groove 23, moves along the water discharge groove 23 having a larger diameter toward the rear end, and then the drain pipe 3B. ) Is discharged to the outside of the water tank 20.

That is, by moving along the pair of water discharge grooves 23 facing each other, the water discharged to the drain pipe 3B is collected by the drain pipe 3B and discharged to the outside.

Then, the outside air introduced through the air inlet 11 of the housing 10 by the fan unit 40 passes through the moisture absorption pad 33 of the pad assembly 30 and enters the inside of the pad assembly 30, It is discharged toward the duct 2A through the air outlet 12 of the housing 10.

By this process, the moisture absorption pad 33 soaked in water is cooled while the outside air passes, and the cooled air is supplied to the room through the duct 2A, and the moisture absorption pad 33 that is vaporized and dried by taking away the outside heat The side is again immersed in the water tank 20 by rotation, and wetted appropriately.

In addition, as the pad assembly 30 is rotated, foreign substances attached to the outer surface of the moisture absorbing pad 33 may be washed and removed while it is in constant contact with the pad cleaning brush 21 of the water tank 20.

Here, the water contained in the water tank may be discharged to the outside of the water tank through the drain pipe according to the control method of the controller.

That is, when looking at the method according to the first embodiment, as time passes, if foreign matter or the like attached to the outer surface of the moisture absorbing pad 33 remains in the water tank 20, the water tank 20 at regular intervals under the control of the controller The water stored in the water is discharged out through the drain pipe 3B, and after the water in the water tank 20 is discharged through the drain pipe 3B, new water is supplied into the water tank 20 through the water supply pipe 3A. Therefore, the water in the water tank 20 can be kept clean.

On the other hand, looking at the method according to the second embodiment, when water is continuously supplied into the water tank 20 through the water supply pipe 3A by the control of the controller, this water is a moisture absorption pad contained in the water tank 20 It passes by (33) and moves to the drain pipe 3B direction.

At this time, a part of the water passing through the moisture absorbing pad 33 is absorbed by the moisture absorbing pad 33, and some water not absorbed is discharged to the outside of the water tank 20 through the drain pipe 3B.

Here, the water contained in the water tank 20 is pushed by the inflow pressure of the water supplied into the water tank 20 through the water supply pipe 3A and moves in the direction of the drain tube 3B, thereby Water is discharged to the outside through the drain pipe 3B.

In particular, according to the method of the second embodiment, the vaporized air supply device (2) has a vaporized cooled moisture absorption pad (33) soaked in water continuously supplied into the water tank (20) through the water supply pipe (3A). Purifying the air by collecting the foreign substances or dust contained therein, and accordingly, air purified through cooling through the moisture absorption pad 33 is supplied to the room through the fan unit 40 to supply clean air to the room It is to perform functions simultaneously.

Referring to FIGS. 12 and 14, a water washing brush 32A may be installed on the support frame 32 as necessary.

The water tank cleaning brush 32A may have a cross-section formed in a “T” shape and be maintained in an inserted state on the support frame 32 by an elastic restoring force.

At this time, the water tank washing brush 32A is installed on at least one of the support frames 32 among the plurality of support frames 32.

Then, the water tank 20 is formed in an arc shape to form a concentric circle with the pad assembly 30.

When the pad assembly 30 is rotated by such a structure, the bottom surface of the water tank 20 is washed by the water tank washing brush 32A by sweeping and passing the bottom surface of the water tank. .

Here, the pad washing brush 21 may be fixedly installed in the water tank 20 by washing plants on a rod-shaped support having a predetermined width and length.

In this case, the pad cleaning brush 21 is rubbed with the outer surface of the rotating pad assembly 30 to wash the moisture absorbing pad 33 as well.

As described above, the present invention is a pad assembly 30 is rotated without installing a self-circulating pump in each of a plurality of vaporized air supply devices installed on the roof, so that the moisture absorbing pad 33 is locked in the water tank 20 and wetted with water. Since it can maintain the dark state, energy for driving each self-circulating pump is saved.

In addition, as the moisture absorbing pad 33 is immersed in the water tank, foreign substances and the like are washed by the water and the pad washing brush 21 contained in the water tank 20 so that the moisture absorbing pad 33 is kept clean.

14 shows another embodiment in which the pad assembly 30 'has a cylindrical shape.

In this embodiment, the pad assembly 30 'has the same configuration as the embodiment shown in FIG. 6, except that it has a cylindrical shape.

In this case, as the pad assembly 30 'has a cylindrical shape, the position or shape of the air inlet 11 or air outlet 12 is changed, but the water tank 20 or the pad cleaning brush 21 is also shown. It has the same configuration as in Example 6.

In addition, the configuration of the pad cleaning brush 21 and the water tank washing brush 32A shown in FIG. 12 may be equally applied to FIG. 14.

The present invention is not limited to the above embodiments and can be variously modified or modified within a range not departing from the technical gist of the present invention. will be

1: roof 2: vaporized air supply
2A: Duct 3: water supply tank
3A: water supply pipe 3B: drain pipe
10: housing 11: air inlet
12: air outlet 13, 14: support roller
20: Water tank 21: Pad cleaning brush
22: water receiving groove 23: water discharge groove
30: pad assembly 31A: first side cover
31B: second side cover 32: support frame
32A: water tank cleaning brush 33: moisture absorption pad
34: mesh net 35: anchor
40: fan unit M: drive motor

Claims (8)

In the vaporized air supply system for supplying the humidified air or cooled air into the room by the vaporized air supply device,
The vaporized air supply system,
A vaporized air supply device 2 installed on the roof 1 or the outside of the building;
A water supply pipe (3A) for supplying water to the vaporized air supply device (2);
Including,
The vaporized air supply device (2),
A housing 10;
A water tank 20 positioned at an inner lower portion of the housing 10 to store water;
A pad assembly 30 installed to be partially submerged in the water tank 20 and rotated by a driving motor M;
A fan unit 40 installed on one side of the pad assembly 30 so that air outside the pad assembly 30 passes inside the pad assembly 30;
A controller for controlling water supply to the drive motor (M), the fan unit (40), and the water supply pipe (3A); It includes,
The pad assembly 30 absorbs the water stored in the water tank 20 while rotating,
The water tank 20,
A water supply pipe (3A) for guiding the supply of water to the water tank (20) through the water supply tank (3), and a drain pipe (3B) for guiding the discharge of water inside the water tank (20) are formed, and the upper surface It is recessed in an arc shape to correspond to the outer surface shape of the pad assembly 30 in the central portion, forming a water receiving groove 22 receiving water through the water supply pipe 3A, and neighboring the water receiving groove 22 The water receiving groove 22 is recessed at both sides so that it is tapered so as to become wider from the front end to the rear end so that the front end communicates with the water receiving groove 22, and the water accommodated in the water receiving groove 22 is the By forming a water discharge groove (23) guiding to move to the drain pipe (3B), the water inside the water tank (20) by the inlet pressure of the water flowing into the water tank (20) through the water supply pipe (3A) is Water is continuously supplied into the water tank 20 through the water supply pipe 3A so that it is pushed in the direction of the drain pipe 3B and discharged to the outside through the drain pipe B, but through the drain pipe 3B. Evaporation-type air supply system, characterized in that the continuous discharge of water in the water tank (20). According to claim 1,
The pad assembly 30 is a vaporized air supply system characterized in that it forms a cylindrical or inclined cylindrical shape. According to claim 1,
The pad tank is in contact with the outer surface of the pad assembly 30 in the water tank 20
A vaporized air supply system characterized in that a pad washing brush (21) for washing the lip body (30) is installed. According to claim 1,
The water tank 20 is provided with a water supply pipe 3A guiding that water is supplied to the water tank 20 through the water supply tank 3, and a drain pipe 3B for discharging water in the water tank 20. Become,
Vaporized air supply system, characterized in that through the drain pipe (3B) discharges the water inside the water tank (20) every predetermined period. According to claim 1,
A water tank washing brush 32A is connected to the pad assembly 30, so that the pad assembly
Vaporized air supply system, characterized in that the bottom surface of the water tank 20 can be washed by the water tank cleaning brush 32A while 30 is rotating. delete delete delete

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