KR101042297B1 - A thermo-hygrostat - Google Patents

Abstract

PURPOSE: A thermo-hygrostat is provided to divide a chamber using a damper so as to control flow of indoor air and outdoor air to thereby immediately cope with a temperature change. CONSTITUTION: A thermo-hygrostat comprises a main body(H), an indoor air circulation pan(IF), an air intake fan(EF), an indoor air suction part(10), an outdoor air suction part(20), an exhausting unit(30), a temperature sensor(40), an air circulator(50), a controller(60), a refrigerating unit(70), and an intake part(80). The temperature sensor is composed of an indoor air temperature sensor(41) and an outdoor air temperature sensor(42). The indoor air temperature sensor measures the temperature of indoor air sucked through the indoor air suction part. The outdoor air temperature sensor measures the temperature of outside air inhaled through the outdoor air suction part. The air circulator controls the flow of indoor air and outdoor air sucked through the indoor air circulation pan and outdoor suction fan. The controller operates in connection with the temperature sensor and air circulator and stores indoor temperature and humidity set by a user. The intake part draws air flowing into the air circulator.

Description

Thermo-hygrostat

The present invention relates to a thermo-hygrostat, and more specifically, indoor and outdoor air circulation and outdoor air by measuring indoor / outdoor temperature with respect to a set temperature value through a control unit and a temperature sensor unit, or cooling a predetermined ratio of indoor air and outdoor air. Compressor operation is performed when the temperature and humidity conditions of the outside air are better than the room temperature and humidity conditions by controlling the flow of indoor and outdoor air drawn into the constant temperature and humidity chamber with a damper to maintain various cooling forms such as cooling all air by mixing and cooling. It is economical and environmentally friendly to maintain the indoor temperature by not using it. It consists of a system. One damper installed at the center of the indoor air circulation section and the outside air inlet section divides the chamber and controls the flow of indoor air and outdoor air so that a large amount of air can be introduced into the chamber without causing trouble. In response to the temperature change of the air, the damper blocks the inflow path of the indoor air and the outdoor air so that the fresh air inlet fan is forced out of the condensing coil during the cooling unit operation during cooling operation. In the middle and low air temperature during winter, the damper's opening is moved in the opposite direction as in the cooling operation so that the outdoor air induced by the air inlet fan is supplied to the room. Indoor air introduced into the room is discharged to the outside. In this process, when the outside air temperature is abruptly low, an additional heating unit is installed so that the temperature of the indoor air is constantly formed. In addition, a humidity sensor, a control unit, and an air circulation unit are installed in the outdoor air without a separate humidity maintaining device. The present invention relates to a thermo-hygrostat that can maintain humidity in an economical and environmentally friendly manner by introducing moisture contained therein.

In general, a thermo-hygrostat is a device that can maintain a constant temperature and humidity. The thermo-hygrostat is installed in a place sensitive to temperature and humidity such as a computer room, a precision measurement room, an engine laboratory, a clean room of a semiconductor factory, an electromagnetic plate production room, and the like. And by maintaining the humidity within a certain range, it is used to eliminate the failure of the equipment and the variables generated during the experiment.

On the other hand, the conventional thermo-hygrostat is installed to maintain the temperature by installing a normal refrigeration cycle system, it is configured to maintain the humidity in the room within the range set by the user by means of supplying moisture, such as a humidifier. .

However, the thermo-hygrostat as described above is configured to drive the refrigeration cycle by measuring only the indoor temperature without comparing the indoor temperature and the outdoor temperature difference and the temperature set by the user. It was high, in particular, there was a problem that inhibits the environment by the refrigeration cycle that operates periodically.

In order to solve this problem, Korean Patent No. 0939281 (2010.01.21) has been proposed.

As shown in FIG. 1, the conventional thermo-hygrostat 500 has a key inside and outside of the main body 214 on which an indoor air inlet 141 and a cold air outlet 142 are installed, respectively, on the upper or upper upper and lower surfaces thereof. Input unit 201, indoor temperature detection sensor 202, outdoor temperature detection sensor 203, ventilation temperature detection sensor 204, supply set temperature detection sensor 205, humidity detection sensor 206, control unit 207, A compressor 208, a condenser 209, an evaporator 210, a humidifier 211, a blowing fan 212, and a heater 213 are provided.

In addition, one or several exhaust fans 152, an external air damper 155, an exhaust damper 154, a ventilation damper 156, and the like are provided on the main body 214, and are driven under the control of the controller 207. This controlled external air filling unit 215 is configured.

At this time, the outdoor air inlet unit 215 is provided with an exhaust duct 151a connected to the outside on one side, and an upper housing having several air distribution holes 151b communicated with the lower housing 153 on the bottom surface. 151; One or several exhaust fans installed inside the upper enclosure 151 to operate in a form in which the number of driving is different or the rotation speed is controlled in response to the output signal of the control unit 207 and discharge the indoor air to the outside. 152; The outside air suction duct 153a and the inside air suction duct 153b are installed on both sides, respectively, and the upper and lower surfaces communicate with the upper housing 151 and the main body 214, respectively. A lower enclosure 153 in which the first to fourth partitions 153c and 153f are formed in an “X” shape; Opening and closing are controlled by damper motors respectively installed in the first and second partitions 153c and 153d in the lower housing 153 and controlled by the controller 207, and discharge of indoor air and intake of outdoor air. Exhaust and outside air dampers 154 and 155 to control the air flow; The damper motor 156a, which is installed on the fourth partition 153f in the lower housing 153 and is controlled by the controller 7, controls the opening and closing of the air and sucks the amount of indoor air sucked into the main body 14. Ventilation damper 156 to control; is composed of an external air inlet unit 150 consisting of.

Conventional thermo-hygrostat 500 composed of the above configuration is to compare the external temperature and the room temperature, the set temperature to properly determine the outside air to operate unnecessary refrigeration cycle operation to reduce power consumption. .

However, the conventional thermo-hygrostat 500 as described above has a complex configuration of the external inflow unit 150, resulting in a lot of trouble, in particular, the lower housing 153, the flow of air is controlled first, second, When the temperature difference occurs because the amount of indoor air and outdoor air moving to the enclosure 153 is small because it is initially partitioned by the 3, 4 partition walls 153c, 153d, 153e, and 153f, To compensate for this, the time required to reach the set value set by the user is delayed, that is, the response is delayed when a temperature deviation occurs, and there is a problem in that the temperature of the room cannot be maintained for a certain time.

In addition, there is a problem that the efficiency of the refrigeration cycle is lowered because there is no means for efficiently dissipating heat generated from the condenser 9 to the outside when maintaining the indoor temperature by using the indoor air circulation and the refrigeration cycle. There was this.

In addition, it is configured to maintain the humidity of the room through a separate humidifier 211, there was a problem of high power consumption and cost required during manufacturing.

Thermo-hygrostat of the present invention for solving the above problems and the main body; An indoor air circulation fan circulating the indoor air; An external air inlet fan circulating outdoor air; An indoor air suction unit configured to suck indoor air by the indoor air circulation fan; An outdoor air suction unit configured to suck outdoor air by the external air introduction fan; An exhaust unit for discharging air to the outside; A temperature sensor unit including an indoor air temperature sensor measuring a temperature of indoor air sucked through the indoor air suction unit, and an outdoor air temperature sensor measuring a temperature of outdoor air sucked through the outdoor air suction unit; An air circulation unit configured to control the flow of indoor air and outdoor air sucked by the indoor air circulation fan and the external air introduction fan; A control unit which operates in conjunction with the temperature sensor unit and the air circulation unit and stores a temperature and humidity of a room set by a user; A freezing unit formed to lower the temperature of the air introduced into the air circulation unit; Characterized in that consisting of; inlet for introducing the air introduced into the air circulation into the room.

Indoor air intake in the present invention is installed on the top and the inlet is installed on the bottom is characterized in that configured to enable a smooth air movement by the convection phenomenon.

In the present invention, the air circulation unit is configured to be rotatable by being coupled to a rotating shaft including a motor interlocked with a damper in the chamber, and the inside of the chamber is in contact with the end of the damper when the damper rotates to rotate the rotation range. It characterized in that the first and second blocking portion for maintaining the airtight contact with both ends of the limiting stopper and the damper.

The refrigeration unit in the present invention is composed of a compressor, a condensation coil, an evaporation coil, an expansion valve, the condensation coil is installed in a position adjacent to the outside air introduction fan, characterized in that the evaporation coil is installed in a position adjacent to the indoor air circulation fan.

Between the air circulation and the inlet in the present invention is controlled by a control unit, characterized in that the heating unit for heating the air introduced into the air circulation is further formed.

It is further provided with a humidity sensor that operates in conjunction with the control unit in the present invention and measures the humidity in the room, when the indoor humidity is lower than the humidity set value set by the control unit further inhales the outdoor air including moisture to the indoor humidity It characterized in that the control unit to control the air circulation to adjust the.

The present invention measures the indoor / outdoor temperature compared to the temperature value set by the control unit and the temperature sensor unit, indoor air circulation, outdoor air introduction / indoor air discharge for performing the outdoor and outdoor air cooling operation, various indoor and outdoor air mixing, etc. By controlling the flow of air in the form to prevent unnecessary use of the freezer, it is possible to maintain the indoor temperature economically and environmentally friendly.

In addition, a damper installed in the air circulation section partitions the chamber to control the flow of indoor and outdoor air, so that a large amount of air can be introduced into the chamber without causing trouble, so that it can immediately respond to temperature changes. .

In addition, during operation of the refrigeration unit, the outside air introduced into the outside air inlet fan is forced to exhaust heat generated from the condensation coil through the exhaust unit, and when the outdoor air is introduced, air can be supplied to improve the temperature maintenance efficiency.

In addition, the heating unit may be additionally installed so that the temperature of the indoor air is always constant when the temperature of the indoor air is lowered.

In addition, it is a useful invention that can maintain the humidity economically and eco-friendly by introducing moisture contained in the outdoor air without a separate humidity maintaining device through the humidity sensor, the controller and the air circulation.

1 is a cross-sectional view showing a conventional thermo-hygrostat.
Figure 2 is a state diagram showing a state according to a first embodiment of the thermo-hygrostat according to the present invention.
3 is a state diagram illustrating a position change of the damper of FIG. 1.
Figure 4 is a state diagram showing a state according to a second embodiment of the thermo-hygrostat according to the present invention.
5 is a state diagram showing when the room temperature is lower than the set temperature value in the second embodiment according to the present invention.
Figure 6 is a state diagram showing a state according to a third embodiment of the thermo-hygrostat according to the present invention.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in more detail.

First, as shown in FIG. 2, the indoor air circulation fan IF formed in the upper end of the main body H and the external air introduction fan EF formed in the lower end of the main body H are formed.

Next, the indoor air suction unit 10 is installed at a position adjacent to the indoor air circulation fan IF, and configured to suck the indoor air by the operation of the indoor air circulation fan IF.

Next, the outdoor air suction unit 20 is installed at a position adjacent to the outside air introduction fan EF, and configured to suck outdoor air by the operation of the outside air introduction fan EF.

Next, the exhaust unit 30 is configured to discharge the air to the outside.

Next, the temperature sensor unit 40 is composed of an indoor air temperature sensor 41 installed in the room for measuring the temperature of the indoor air and an outdoor air temperature sensor 42 for measuring the temperature of the outdoor air.

On the other hand, the air circulation unit 50 is configured to control the flow of the indoor air and the outdoor air sucked in the indoor air circulation fan (IF), the outside air introduction fan (EF).

The air circulation unit 50 is connected to the indoor air circulation fan IF and the outside air introduction fan EF, and the chamber in which the air flowing from the indoor air circulation fan IF and the outside air introduction fan EF stays. (51) is configured, the interior of the chamber 51 is a damper 52 that can be rotated by the rotary shaft 53 connected to the motor (M) to partially partition the interior of the chamber 51 is configured have.

In addition, the interior of the chamber 51 which is in contact with the end of the damper 52 is provided with a stopper 54 that can control the rotation of the damper 52. When the damper 52 is fixed without rotating, The first and second blocking units 56 and 57 are configured to block the indoor air sucked by the air circulation fan IF or the outdoor air sucked by the outside air introduction fan EF.

On the other hand, the control unit 60 is configured to control the air circulation unit 50 in conjunction with the temperature sensor unit 40.

Next, the refrigeration unit 70 is composed of a compressor 71, a condensation coil 72, the evaporation coil 73 and the expansion valve 74 is configured to cool the state of the air by a normal refrigeration cycle. .

The condensing coil 72 of the components of the refrigeration unit 70 is installed at a position adjacent to the outside air introduction fan (EF), the evaporation coil 73 is installed at a position adjacent to the indoor air circulation fan (IF) have.

Next, the inlet 80 is configured to discharge the air introduced into the air circulation unit 50 into the room.

In addition, in the present invention, a heater 90 interlocking with the control unit 60 is further provided between the air circulation unit 50 and the inlet unit 80 so as to allow heating when the indoor air is cold. do.

Further, by installing a humidity sensor (ES) in conjunction with the control unit 60, if the air in the room is insufficient humidity to operate the air circulation unit 50 through the control unit 60 to remove the moisture contained in the outside air It is configured to be available.

In addition, the chamber / inside and outside air intakes (10, 20) and inlet 80 may be provided with a filter (not shown in the figure) to purify the incoming air.

Looking at the effect of the thermo-hygrostat of the present invention made of a configuration as described above are as follows.

The thermo-hygrostat 100 of the present invention compares the outdoor temperature, the indoor temperature, the indoor humidity, and the set temperature and humidity value input by the user to the controller 60 to indoor within the temperature and humidity value range set by the controller 60. It operates to maintain temperature and humidity.

First, referring to the part that operates in common, when the normal power is applied while the temperature and humidity values set by the user are input to the control unit 60, the indoor air circulation fan IF and the outside air introduction fan EF are applied. Is operated to circulate the indoor air and outdoor air circulation, in particular, the present invention is to control the humidity through the moisture contained in the outdoor air without using a separate device to control the indoor humidity .

Hereinafter, the operation state according to each condition will be described through various embodiments.

[Example 1] When the indoor temperature is lower than the outdoor temperature and higher than the set condition (cooling operation condition)

As a result of detection by the temperature sensor unit 40 in the present invention, if the indoor temperature is lower than the outdoor temperature but higher than the set value of the control unit 60 is detected, the motor of the air circulation unit 50 in the control unit 60 ( M) by transmitting a signal to rotate the rotary damper 52 in the form as shown in Figure 2 so that the indoor air introduced into the indoor air inlet 10 by the indoor air circulation fan (IF) to circulate into the room. Is placed.

That is, the damper 52 partitions the inside of the chamber 51 into a space in which indoor air is circulated by the indoor air circulation fan IF and a space in which outdoor air is circulated by the outside air introduction fan EF. .

At this time, the damper 52 can maintain the airtightness of the space divided into two in the chamber 51 by the first and second blocking portions 56 and 57 formed in the chamber 51.

Thus, the indoor air circulated by the indoor air circulation fan IF by the chamber 51 of the divided air circulation unit 50 is the indoor air suction unit 10 and the indoor air circulation fan IF, evaporation After cooling through a moving path leading to the coil 73, the chamber 51 of the air circulation unit 50, and the inlet 80, the air is circulated to the room, and the outdoor air inlet unit (EF) 20, the outdoor air sucked into the outdoor air suction unit 20, the outside air inlet fan (EF), the condensation coil 72, the air circulation section 50 of the chamber 51, the movement leading to the exhaust section 30 Heated air in the condensation coil 72 is discharged to the outside through the path.

Here, in the present invention, since the chamber 51 of the air circulation unit 50 is configured to be divided into two through one damper 51, the amount of air moving through the chamber 51 is increased so as to change the temperature of the indoor air. Therefore, it becomes possible to respond quickly.

On the other hand, the control unit 60 acts to send a signal to the freezing unit 70 to lower the temperature of the indoor air.

This is because the evaporation coil 73 of the freezing unit 70 is installed at a position adjacent to the indoor air circulation fan IF, so that the indoor air passes through the indoor air suction unit 10 and the indoor air circulation fan IF. After the air passes through the evaporation coil 73 of the freezing unit 70 and is converted into cold air, the cool air is circulated through the chamber 51 and the inlet unit 80 of the air circulation unit 70. It will act to lower the indoor air temperature as described above.

On the other hand, the condensation coil 72 of the components of the refrigeration unit 70 is formed adjacent to the outside air inlet fan (EF) that operates to circulate the outdoor air, so the outdoor air intake unit 20 and the outside air inlet fan ( The outdoor air passing through the EF absorbs heat generated from the condensation coil 72 when the refrigeration unit 70 is operated, and moves to the chamber 51 and the exhaust unit 30 of the air circulation unit 50. Since it acts to discharge to the outside through the path it is to act so that the operation of the freezing unit 70 is made smoothly.

Here, after the cold air is continuously introduced through the freezing unit 70 as described above, the temperature of the indoor air is lower than the temperature value set by the control unit 60, in which case the operation of the freezing unit 70 is temporarily If the room temperature is higher than the set temperature value of the control unit 60 is to control to operate the refrigeration unit 70 again.

In addition, when only the internal air is circulated to maintain the temperature of the indoor air at all times as described above, a phenomenon may occur in which the indoor humidity becomes lower than the value set by the controller 60.

In this case, as shown in FIG. 3, the damper 52 of the air circulation unit 50 is disposed at a position capable of periodically rotating, and then indoor air is circulated through the indoor air circulation fan IF and the outside air introduction fan EF. And both the outdoor air containing the moisture is supplied to allow the indoor humidity to be formed within the humidity setting value range set in the control unit 60.

Thereafter, as shown in FIG. 2, the damper 52 may be placed again to circulate the indoor air to adjust the temperature of the indoor air.

[Example 2] When the outdoor temperature is lower than the indoor temperature and the set conditions (intermediate period, winter operating conditions)

In the above case, it is classified into two types,

First, for example, if the room temperature is higher than the set value,

Based on the result detected by the temperature sensor unit 40, the control unit 60 transmits a signal to the air circulation unit 50, so that the damper 52 can be rotated to suit the air flow path control condition as shown in FIG. The motor M is installed to retain the function and to perform a rotational motion suitable for this.

That is, the damper 52 of the air circulation unit 50 is positioned to rotate by the required angle in a state in which rotation is limited by the stopper 55 in the chamber 51.

Then, the indoor air moving through the indoor air suction unit 10, the indoor air circulation fan (IF), the chamber 51 of the air circulation unit 50, the outdoor air suction unit 20, the outside air introduction fan (EF) ), Cold outdoor air flowing into the chamber 51 of the air circulation unit 50 is introduced into the room through the inlet 80 to lower the temperature of the room to the temperature set by the controller 60.

That is, the indoor temperature can be lowered to the value set by the controller 60 only by appropriately mixing cold outdoor air with air circulated in the room without driving the freezing unit 70.

Of course, during the operation as described above, a separate filter is installed in the outdoor air suction unit 20 to introduce all the foreign substances contained in the outdoor air in a removed state.

In this process, the indoor temperature can be further lowered by exceeding the value set by the controller 60 by the outdoor air. In this case, the position of the damper 51 is changed as shown in FIG. The outdoor air sucked in 20 is immediately discharged through the exhaust unit 30, and circulates only indoor air sucked by the indoor air suction unit 10 to operate the indoor air to maintain the temperature of the indoor air.

Second, for example, if the room temperature is lower than the set value,

As shown in FIG. 5, the position of the damper 51 is arranged to circulate the indoor air so that the indoor air can be circulated and the heating formed between the air circulation part 50 and the inlet part 80. The unit 90 is operated so that the temperature of the indoor air can be within the value range set by the controller 60.

Here, when the indoor humidity is lower than the value set by the controller 60, as shown in FIG. 4, the damper 51 is placed in the outdoor air so that outdoor air containing moisture can be introduced into the indoor air. The moisture contained can be supplied indoors.

[Example 3] When the outdoor temperature and the set value are in the same range and the room temperature is higher than the set condition

In this case, the damper 52 of the air circulation unit 50 is arranged as shown in FIG. 6 to partition the chamber 51.

That is, the indoor air intake unit 10, the indoor air circulation fan (IF), the chamber 51, the exhaust path 30 so as to discharge the indoor air to the outside, the outdoor air intake unit 20 ), The outdoor air inlet fan (EF), the chamber 51, the inlet portion 80 so that the outdoor air can be introduced into the room to drive the freezing unit 70 of the indoor air only without the outdoor air The temperature is adjusted to be within the set value range set by the controller 60.

Although the above-described embodiments are described with respect to the most preferred embodiments of the present invention, it is noted that the present invention is not limited thereto and may be modified in various forms without departing from the technical spirit of the present invention.

H: main body
IF: Indoor air circulation fan EF: Outside air introduction fan
10: indoor air suction
20: outdoor air suction unit
30: exhaust
40: temperature sensor
41: Indoor air temperature sensor 42: Outdoor air temperature sensor
50: air circulation
51 chamber 52 damper 53 rotating shaft M motor 54 stopper
56: first blocking unit 57: second blocking unit
60: control unit
70: freezer
71 Compressor 72 Condensation coil 73 Evaporation coil 74 Expansion valve
80: inlet
90: heating section
ES: Humidity Sensor
100: constant temperature and humidity

Claims (6)

Main body H;
An indoor air circulation fan (IF) for circulating the indoor air;
External air inlet fan (EF) for circulating outdoor air;
An indoor air suction unit 10 formed to suck indoor air by the indoor air circulation fan IF;
An outdoor air suction unit 20 formed to suck outdoor air by the external air introduction fan EF;
An exhaust unit 30 for discharging air to the outside;
Indoor air temperature sensor 41 for measuring the temperature of the indoor air sucked through the indoor air suction unit 10, and outdoor air temperature sensor for measuring the temperature of outdoor air sucked through the outdoor air suction unit 20 A temperature sensor unit 40 composed of 42;
It is formed in the center of the interior of the motor (M) and the chamber 51 in conjunction with the control unit 60 to control the flow of the indoor air and the outdoor air sucked by the indoor air circulation fan (IF) and the outside air introduction fan (EF) The damper 52 which divided the inside of the chamber 51 by the rotating shaft 53 is comprised so that rotation is possible, and the inside of the chamber 51 is matched with the end of the damper 52 when the damper 52 rotates. An air circulation part 50 including first and second blocking parts 56 and 57 for holding the stopper 54 and the dampers 52 at both ends to contact the ends of the damper 52 to maintain airtightness;
A control unit 60 that operates in conjunction with the temperature sensor unit 40 and the air circulation unit 50 and stores a temperature and humidity of a room set by a user;
Compressor 71, condensation coil 72, evaporation coil 73, expansion valve 74 to reduce the temperature of the air introduced into the air circulation unit 50, the condensation coil 72 is introduced into the outside air It is installed at a position adjacent to the fan (EF) but installed at the lower end of the air circulation unit 50, the evaporation coil 73 is installed at a position adjacent to the indoor air circulation fan (IF), but of the air circulation unit 50 A freezing unit 70 formed at an upper portion thereof;
An intake unit for introducing the air introduced into the air circulation unit 50 into the room; Constant temperature and humidity.
delete delete delete The heating unit 90 of claim 1, which is controlled by the control unit 60 between the air circulation unit 50 and the inlet unit 80, and which heats the air introduced into the air circulation unit 50. Thermo-hygrostat, characterized in that is further formed.
The method of claim 1, further comprising a humidity sensor (ES) that operates in conjunction with the control unit 60 and measures the humidity of the room, when the humidity in the room is lower than the humidity set value set in the control unit 600, Thermo-hygrostat, characterized in that the control unit 60 to operate to further control the air circulation unit 50 to adjust the indoor humidity by further inhaling the outdoor air.

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