KR101036974B1 - Thermo-hygrostat - Google Patents

Abstract

PURPOSE: A thermo-hygrostat is provided to reduce energy by increment of cooling efficiency since cold water is heat-exchanged in a subsidiary cooler. CONSTITUTION: An air line comprises a main cooling line, a gasification type humidifier(103), a subsidiary cooling unit(203), and a humidification/subsidiary cooling line. A main cooling device(202) is installed in the main cooling line. The gasification type humidifier performs humidification by contact between falling water and sucked air. The cold water circulating pipe of the subsidiary cooling unit is serially connected to the main cooling device. The subsidiary cooling unit is combined with the backend of the humidifier. The humidification/subsidiary cooling line is branched form the main cooling line in parallel thereto.

Description

Thermo-hygrostat {Thermo-hygrostat}

The present invention relates to a thermo-hygrostat, and more particularly, to a high-efficiency thermo-hygrostat having a humidification line provided with vaporization humidification means and auxiliary cooling means.

In general, the thermo-hygrostat used in the computer room is a device for controlling the temperature and humidity of the room, consisting of a heat exchanger that exchanges heat with a circulating brine, and cooling means for cooling the intake, and a steam method or heating for increasing the humidity of the intake. Humidification means, a filtering means, a blowing fan, and the like to humidify using a method.

Conventional thermo-hygrostats configured as described above have a lot of energy consumption due to humidifiers by humidifying using steam type, heating type, nozzle type, etc. In particular, these humidifiers increase the temperature of the intake air during humidification, thereby increasing the load during cooling. There was a problem in that eventually increase the energy consumption further.

The invention described in Utility Model Registration No. 258993, which was developed as an alternative to solve this problem, reduces the energy consumption due to the humidifier by adopting the vaporized humidifier by arranging the vaporized humidifier in parallel with the heating heater and the cooling mechanism. In this prior art, when the room temperature rises and the relative humidity drops, the cooler stops and only the humidifier operates, making it difficult to keep the temperature constant.

In addition, when the temperature of the intake air circulating in the conventional thermo-hygrostat is low, the saturation efficiency of the vaporized humidifier is lowered, so that the humidification after reheating has a problem that the efficiency is not high.

In order to solve the problems as described above, the present invention is formed by dividing the air line into the main cooling line and the humidification and sub-cooling line, install the main cooler in the main cooling line, humidifier and sub-cooler in the humidification and sub-cooling line By connecting the pipes of the main cooler and the subcooler in series with each other, the cooling medium heat exchanges in the subcooler once more, thereby improving the cooling efficiency and saving energy. An object of the present invention is to provide a thermo-hygrostat that prevents water from being scattered from the humidifier by installing an auxiliary cooler adjacent to the rear side of the humidifier.

In addition, the present invention is provided with a natural vaporizing humidifier that humidifies the room air through the falling water to reduce the energy consumption rate significantly compared to the conventional thermo-hygrostat while simplifying the structure of the conventional vaporized humidifier. It is an object of the present invention to provide a thermo-hygrostat that solves all the problems of the technology.

In addition, an object of the present invention is to provide a thermo-hygrostat, which is equipped with an external air inlet means and an external air inflow control means in the thermo-hygrostat to reduce energy consumption by utilizing the external air when necessary.

In addition, an object of the present invention is to provide a thermo-hygrostat that is easy to manufacture and install by using a thermo-hygrostat with a simple structure that is not complicated, less trouble during use, and easy to maintain and repair.

In order to solve the problems as described above, the constant temperature and humidity of the present invention,

Airline through which air sucked from the room flows,

A main cooling line equipped with a main cooler,

A vaporized humidifier that humidifies by contacting falling water with inhaled air, and

The main cooling unit and the circulation line of the cold water are connected in series and provided with a subcooler coupled to the rear end of the humidifier, and is configured to include a humidification and subcooling line installed in parallel with the main cooling line. It is done.

In addition, the present invention is in the above configuration,

 An air filter installed at the front air line of the main cooling line and the humidification and auxiliary cooling lines;

Heater installed in the rear air line of the main cooling line and the humidification and auxiliary cooling line,

A blowing fan installed in the rear air line of the heater and

Is connected to the air line between the heater and the blowing fan is characterized in that it further comprises an air inlet line for introducing outside air.

In addition, the present invention is in the above configuration,

The outside air inlet line may further include an outside air temperature sensor for temperature detection and a damper for adjusting the outside air inflow amount.

In addition, the present invention is in the above configuration,

Connecting the front and rear cold water circulation line of the subcooler, and further provided with a bypass line consisting of two pipes installed in parallel,

Bypass valve is installed in one of the two pipes, characterized in that the constant flow valve is installed in another pipe.

In addition, the present invention is in the above configuration,

A first water reservoir installed at a lower portion of the main cooler to collect falling water;

A second water tank installed in the lower part of the humidifier and the sub-cooler to collect the falling water;

A water storage tank in which water collected in the first and second water tanks is dropped and finally stored;

A water supply line connecting the water storage tank and the humidifier;

A pump installed in the water supply line,

It further comprises a plurality of water supply valves installed in parallel to each other in the water supply line,

The plurality of water supply valves are characterized in that each operation is determined and controlled according to the humidity value detected by the humidity sensor installed in the room.

In addition, the present invention is in the above configuration,

It is characterized in that the perforated plate formed with a plurality of holes in the front side of the main cooler of the air line.

In addition, the present invention is in the above configuration,

It is further provided with an inlet which is installed in the upper part of the thermo-hygrostat and introduces air into the room, and an outlet and a blower fan which is installed in the lower part of the thermo-hygrostat and discharges the air into the room. Characterized in that configured to be discharged.

Through the problem solving means as described above, the present invention by reducing the energy by increasing the cooling efficiency by heat exchange in the sub-cooler once more, as well as by installing the sub-cooler adjacent to the rear end of the humidifier in the main cooling line There is an advantage that can prevent the water from scattering.

In addition, the present invention is provided with a natural vaporizing humidifier that humidifies the room air through the falling water to reduce the energy consumption rate significantly compared to the conventional thermo-hygrostat while simplifying the structure of the conventional vaporized humidifier. There is an advantage that can solve the problems of various technologies.

In addition, the present invention has an advantage that can reduce the energy consumption by using the outside air, if necessary, by the air intake means and the outside air inflow control means in the thermo-hygrostat.

In addition, the present invention has the advantage of easy to manufacture and install by configuring a constant temperature and humidity chamber of a simple structure that is not complicated, fewer failures in use and easy maintenance and repair.

In addition, the present invention utilizes the saturation efficiency of the evaporative humidifier is that the efficiency is increased as the temperature of the air sucked into the humidifier is high and the humidity is low, the air is sucked from the upper portion of the relatively high temperature of the indoor air humidification and There is an advantage that the efficiency can be improved by cooling.

In addition, since the condensed water generated in the main cooler is used as the water supply of the humidifier without discarding it to the outside, there is an advantage of saving water.

1 is a conceptual diagram briefly showing the configuration of a thermo-hygrostat according to the present invention.
Figure 2 is a cross-sectional view briefly showing the installation structure of the thermo-hygrostat according to the present invention.

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

1 is a conceptual diagram briefly showing the configuration of the thermo-hygrostat according to the present invention, Figure 2 is a cross-sectional view showing the installation structure of the thermo-hygrostat according to the invention briefly.

The thermo-hygrostat according to the present invention is installed in a room where the temperature and humidity of the room must be kept constant, such as a computer room, and the indoor air is sucked to humidify, cool, humidify, and heat. ) To supply it back to the room.

To this end, the thermo-hygrostat according to the present invention is provided with a humidifier, a cooler, and a heater. As shown in FIGS. 1 and 2, the present invention constitutes an air line through which the air sucked from the room flows. Is branched into a main cooling line for cooling the air and a humidifying and auxiliary cooling line for the cooling of the humidified and humidified air is configured to have a section in which the two air lines are arranged in parallel.

As described above, the main cooling line and the humidification and sub-cooling lines which are branched and arranged in parallel are provided with a main cooler 202 for cooling the air flowing in the main cooling line, and the main cooler 202 has a main cooler. In order to uniformly distribute the flow of air flowing into the cooler 202 throughout the main cooler 202, the porous plate 201 having a plurality of holes is arranged obliquely to have an even cooling effect.

In addition to the role of uniformly dispersing the flow of air flowing into the main cooler 202 throughout the main cooler 202, the porous plate 201 acts as a resistor of the air flowing into the main cooler 202, thereby humidifying. And also serves to ensure that the air is sufficiently distributed in the auxiliary cooling line to prevent too much air flowing only to the main cooling line.

The installation angle, the number and size of the holes of the porous plate 201 may be appropriately selected in view of the role of the above-described porous plate 201 by those skilled in the art.

Here, the main cooler 202 is a heat exchanger, such as a cooling coil (Cooling coil), the cold water (冷水) flows inside, the cold water is configured to exchange heat with the air passing through the main cooler (202), and In order to supply the cold water to cool the air is provided with a cold water inlet tube and a cold water inlet tube through which cold water can be introduced and discharged.

The lower portion of the main cooler 202 is provided with a first reservoir 107 for collecting condensed water that is condensed in the main cooler 202 and falls.

In the humidification and sub-cooling lines, a humidifier 103 is disposed at the front part, and the humidifier 103 is a natural vaporization type humidifier in which vaporization occurs while the air introduced between the falling water passes. Is used.

To this end, in the present invention is installed in the water supply line and the water supply line for supplying the water stored in the water supply tank 109 for storing the water for supply to the humidifier 103 and the water stored in the water supply reservoir 109 to the humidifier 103. The pump 110 is provided with a forced water supply.

In addition, the water supply line is provided with water supply valves 101 and 102 for adjusting the amount of water supplied to the humidifier 103 according to the degree of need for humidification, and branching the water supply line to multiple water supply valves 101 and 102 in parallel. It is preferable that the branched water supply line is evenly distributed at predetermined intervals before and after each of the humidifiers 103 to be evenly supplied to the entire humidifier 103 by being combined with the humidifier 103.

Here, the plurality of water supply valves 101 and 102 are controlled according to whether each operation is determined according to the humidity value detected by the humidity sensor installed in the room.

In addition, the sub-cooler 203 is installed in the humidification and sub-cooling line, the sub-cooler 203 is made of a heat exchanger, such as a cooling coil (Cooling coil), similar to the main cooler 202, the air introduced as the cold water flows The secondary cooler 203 in the present invention is installed in contact with the rear end of the humidifier 103, which occurs when the water falling in the humidifier 103 and the incoming air hits This is to prevent water scattering phenomenon.

Here, the cold water inlet pipe of the sub-cooler 203 is connected to the cold water discharge pipe of the main cooler 202, the sub-cooler 203 and the main cooler 202 is connected in series, which is introduced into the main cooler (202) It is to reduce the energy by increasing the cooling efficiency by recycling the air and the cold water already heat-exchanged in the secondary cooler 203 once again.

In the case where the use of the subcooler 203 is unnecessary as necessary, as illustrated in FIG. 1, the cold water inlet pipe and the cold water inlet pipe of the subcooler 203, that is, the subcooler 203, are shown in FIG. 1. It is preferable that a bypass line is provided to directly connect the cold water to discharge the cold water without passing through the subcooler 203.

The bypass line is composed of two pipes installed in parallel to each other, one of the two pipes is the bypass valve 205, the other pipe is provided with a constant flow valve 206, the bypass valve ( 205 is a valve for bypassing through the bypass line when it is not necessary to circulate the cold water to the subcooler 203 as described above, the constant flow valve 206 is supplied to the subcooler 203 The cold water supply flow rate is installed so as not to exceed the storage flow rate of the subcooler 203. The remaining flow rate except the constant supply flow rate to the subcooler 203 is bypassed by passing through the constant flow valve 206.

Here, the inlet of the pipe provided with the constant flow valve 206 is preferably located on the upstream side in the cold water flow compared with the inlet of the pipe provided with the bypass valve 205.

As shown in FIG. 1, the three-way control valve 204 is provided in the circulation line of the cold water to control or bypass the amount of cold water passing through the main cooler 202 and the sub cooler 203. .

In addition, a second reservoir 105 is installed below the humidifier 103 and the subcooler 203 to collect the water falling from the humidifier 103 and the condensed water condensed and dropped from the subcooler 203.

In addition, the first and second reservoirs 107 and 105 are connected to the water supply reservoir 109 through piping, so that the water collected in the first and second reservoirs 107 and 105 is connected to the water supply reservoir 109 through the piping. The water collected in the first and second reservoirs 107 and 105 may be supplied to the water supply reservoir 109 along the pipes 106 and 108 by free fall without using a transfer means such as a separate pump. The water supply reservoir 109 is preferably installed at a lower position than the first and second reservoirs 107 and 105.

As described above, in the present invention, the water condensed in the main cooler 202 and the sub cooler 203 can be used as water supply for the humidifier 103, thereby saving water.

In addition, the water storage tank 109 has a water level sensor 113 for detecting a water level of water stored in the storage tank, and a replenishing water line 111-supplied with water for replenishing insufficient water due to indoor humidification. 1) and the supplementary water valve 111, and a drain line 112-1 and a drain valve 112 for discharging the stored water due to excessive condensate water generation, maintenance purposes, and the like are provided.

In more detail, when the water level is insufficient due to the detection of the water level sensor 113 or the user command, refill water valve 111 is opened so that fresh water is introduced, and water is excessive. When water discharge is required due to maintenance, drain valve 112 is opened to discharge the stored water.

In addition, the air filter 301 for removing impurities and foreign substances contained in the air sucked from the room is installed in the main air line and the front air line of the humidification and sub-cooling lines as described above.

In addition, a heater 302 for heating the air is provided in the rear air lines of the main cooling line and the humidification and sub-cooling lines so that the air is heated when the temperature detected by the indoor temperature sensor installed in the room is low.

The rear side of the heater 302 is provided with a blowing fan 306 for forcibly supplying air to the room and forming a negative pressure to introduce air from the room.

As one of the main features of the present invention, an air inlet line is connected to the air line between the heater 302 and the blower fan 306, and a damper 303 is installed in the air inlet line, which has a high indoor temperature during the winter season. The outdoor temperature is for introducing and using outside air when the constant temperature and humidity function is possible through the use of outside air as in the case of low temperature, and controlling the temperature detected by the outside temperature sensor 305 and the temperature detected by the indoor temperature sensor. When it is determined in 312 that the inflow of the outside air is necessary, the inflow amount of the outside air is controlled by adjusting the opening degree of the damper 303.

In addition, in the present invention, there is provided with air blowing means such as a blowing fan 310 controlled by the control unit 312 so as to discharge the indoor air when the outside air is introduced or when necessary.

And, as shown in Figure 2, the structure of the thermo-hygrostat according to the present invention has an inlet for introducing air in the room on the top of the thermo-hygrostat, the air filter 301 is installed at the inlet, the lower portion of the thermo-hygrostat By adopting a down-flow type constant temperature and humidity chamber in which an air outlet and a blower fan 306 are installed, the cooling efficiency and the vaporization efficiency and the airflow distribution of the humidifier have a good advantage.

101, 102: water supply valve 103: humidifier
105: second reservoir 107: first reservoir
109: water reservoir 110: pump
111: supplementary water valve 112: drain valve
113: water level sensor 201: porous plate
202: main cooler 203: sub cooler
204: three-way control valve 205: bypass valve
206: constant flow valve 301: air filter
302: heater 303: damper
305: outside temperature sensor 306: blowing fan
312: control unit

Claims (8)

In the constant temperature / humidity device which controls the temperature and humidity of the room by humidifying, cooling, humidifying and heating the room by inhaling the air,
Airline through which inhaled air flows,
A main cooling line equipped with a main cooler,
A vaporized humidifier that humidifies by contacting falling water with inhaled air, and
The main cooling unit and the circulation line of the cold water are connected in series and provided with a subcooler coupled to the rear end of the humidifier, and is configured to include a humidification and subcooling line installed in parallel with the main cooling line. Thermo-hygrostat The method according to claim 1,
An air filter installed at the front air line of the main cooling line and the humidification and auxiliary cooling lines;
Heater installed in the rear air line of the main cooling line and the humidification and auxiliary cooling line,
A blowing fan installed in the rear air line of the heater and
A thermo-hygrostat characterized in that it further comprises an air inlet line for connecting the air line between the heater and the blowing fan for introducing outside air The method according to claim 2,
The air inlet and humidity line is characterized in that the air temperature sensor for detecting the temperature and a damper for adjusting the amount of inlet air is further provided. The method according to claim 1,
Connecting the front and rear cold water circulation line of the subcooler, and further provided with a bypass line consisting of two pipes installed in parallel,
A bypass valve is installed in one of the two pipes, and a constant flow valve is installed in the other pipe. The method according to claim 1,
A first water reservoir installed at a lower portion of the main cooler to collect falling water;
A second water tank installed in the lower part of the humidifier and the sub-cooler to collect the falling water;
A water storage tank in which water collected in the first and second water tanks is dropped and finally stored;
A water supply line connecting the water storage tank and the humidifier;
A pump installed in the water supply line,
It further comprises a plurality of water supply valves installed in parallel to each other in the water supply line,
The plurality of water supply valve is a thermo-hygrostat, characterized in that each operation is determined or controlled according to the humidity value detected by the humidity sensor installed in the room The method according to claim 1,
The thermo-hygrostat, characterized in that the porous plate with a plurality of holes is installed on the front side of the main cooler of the air line.
The method according to claim 1,
Inlet is installed in the upper portion of the thermo-hygrostat and the air inlet for the room, and a discharge port and a blower fan installed in the lower portion of the thermo-hygrostat to discharge the air into the room, by sucking the indoor air from the top to the bottom Thermo-hygrostat, characterized in that configured to be discharged delete

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