KR20180104276A - Fan coil unit - Google Patents

Abstract

According to the present invention, a fan coil unit comprises: a body installed in an indoor wall; a first heat exchanger and a second heat exchanger installed in the body; a valve selectively supplying hot water or cold water to the first heat exchanger or/and the second heat exchanger; a fan discharging cold air or hot air heat exchanged in the first heat exchanger or/and the second heat exchanger to the inside; a sensor measuring temperature and humidity of the inside; and a control unit receiving a signal from the sensor to control the valve for temperature of the inside to be fitted to predetermined temperature.

Description

FAN COIL UNIT [0002]

The present invention relates to a fan coil unit.

The fan coil unit is installed in the room and discharges heat-exchanged air by exchanging hot water or cold water supplied from a cold / hot water supply unit installed in the central machine room with ambient air.

The fan coil unit is divided into a ceiling fan coil unit, a stand fan coil unit, and a floor mounted fan coil unit, depending on the installation position.

Since the ceiling type fan coil unit is installed on the ceiling, it is difficult to maintain the ceiling fan coil unit because of its accessibility. In addition, if earthquakes occur frequently like fortresses, the fan coil unit may fall, which is dangerous.

Since the stand type fan coil unit and the floor mount type fan coil unit occupy a single place in the room, the indoor space utilization is lowered.

In the floor mounted type fan coil unit, since the cold / hot air unit is blown out from below, it is difficult for cold and warm air to spread out in the room, and it is difficult to cool and heat the room evenly.

Registered patent (10-1409088)

SUMMARY OF THE INVENTION An object of the present invention is to provide a fan coil unit of a new type which overcomes the disadvantages of the conventional fan coil unit.

It is another object of the present invention to provide a new type fan coil unit capable of precisely controlling the temperature of the room.

According to an aspect of the present invention, there is provided a fan coil unit comprising:

In the fan coil unit,

And the fan coil unit is a wall-mounted fan coil unit.

Here, in the fan coil unit,

A body installed on an indoor wall;

A first heat exchanger and a second heat exchanger installed inside the main body;

A valve for selectively supplying hot water or cold water to the first heat exchanger and / or the second heat exchanger;

A fan for discharging cold air or warmth heat-exchanged in the first heat exchanger and / or the second heat exchanger to the room;

A sensor for measuring temperature and humidity of the room; And

And a controller for receiving the signal from the sensor and controlling the valve to adjust the temperature of the room to a predetermined temperature.

The present invention is a wall-mounted fan coil unit. Therefore, the fan coil unit is more accessible than the ceiling fan coil unit, and maintenance is easy, and there is no fear that the fan coil unit falls from the ceiling when an earthquake occurs. Unlike the stand-type fan coil unit and the floor-mounted fan coil unit, the indoor space utilization is high. Also, unlike the floor-standing type fan coil unit, the cooling / heating unit can be downwardly moved from the top to the bottom so that the room can be cooled and heated evenly.

The present invention also includes two heat exchangers. Cooling capacity can be easily increased by supplying cold water to both of the two heat exchangers or supplying hot water to both of the two heat exchangers.

In addition, when heating, hot water is supplied to a heat exchanger having a large heat exchange capacity among the two heat exchangers, and at the same time, cold water is supplied to the heat exchanger having a small heat exchange capacity while adjusting the flow rate.

In addition, during cooling, cold water is supplied to a heat exchanger having a large heat exchange capacity among two heat exchangers, and hot water is supplied to a heat exchanger having a small heat exchange capacity while adjusting the flow rate.

1 is a view showing a state where a fan coil unit according to an embodiment of the present invention is installed on an indoor wall.
Fig. 2 is a cross-sectional view taken along the line II-II shown in Fig.
3 is a block diagram of a fan coil unit according to an embodiment of the present invention.
4 is a table for explaining a method of cooling and heating with a fan coil unit according to an embodiment of the present invention.

Hereinafter, a fan coil unit according to an embodiment of the present invention will be described in detail.

1, a fan coil unit 1 according to an embodiment of the present invention is installed in an indoor wall W. As shown in Fig. There has been no wall-mounted fan coil unit 1 installed in the indoor wall W so far. Therefore, the provision of the fan coil unit 1 on the inner wall W is a key feature of the present invention only. On the other hand, the effect of providing the fan coil unit 1 on the indoor wall W has not been described in detail since it is described in detail in the effect portion of the invention.

1 to 3, the fan coil unit 1 includes a main body 10, a first heat exchanger 110, a second heat exchanger 120, a valve 130, a fan 140, A sensor 150, and a controller 160. The arrows shown in Figures 1 and 2 represent the flow of air.

The main body 10 is provided with a first suction port 11 through which the room air is sucked from the front. An air filter (F) is installed in the first suction port (11).

A cover C is provided on the front surface of the main body 10 to cover the front surface of the main body 10 when the fan coil unit 1 is operated and closed when the fan coil unit 1 is stopped.

The upper surface of the main body 10 is provided with a second suction port 12 through which indoor air is sucked from above. An air filter (F) is installed in the second suction port (12).

The main body 10 has a third suction port 13 through which the outside air is sucked. In this way, the present invention can introduce indoor air into indoor air.

Below the front of the main body 10, there is provided a discharge port 14 through which cool air or warm air is discharged. The discharge port 14 is provided with a louver V for controlling the direction of the wind.

On the side surface of the main body 10, a through hole (not shown) through which a pipe connected to the cold / hot water supply unit installed in the machine room passes.

On the bottom surface of the main body 10, there is provided a drain port 15 through which the tapped water is drained into the main body 10.

As shown in Figure 3,

The first heat exchanger 110 is provided with a 1-1 hole 111, a 1-2 hole 112, a 1-3 hole 113, and a 1-4 hole 114. The hot water flows into the 1-1 hole 111. The hot water flows out to the 1-2 th hole 112. The cold water flows into the first to third holes 113. The cold water flows out to the first to fourth holes 114.

The second heat exchanger 120 is provided with a second-first hole 121, a second-second hole 122, a second-third hole 123, and a second-fourth hole 124. And the hot water flows into the (2-1) hole 121. And the hot water flows out to the 2-2 hole 122. And the cold water flows into the 2-3 hole 123. And the cold water flows out to the 2-4 hole 124.

The heat exchanger capacity of the first heat exchanger 110 and the second heat exchanger 120 are different from each other.

In this embodiment, the heat exchange capacity of the first heat exchanger (110) is larger than that of the second heat exchanger (120).

The reason why the heat exchanging capacity of the first heat exchanger 110 and the second heat exchanger 120 are made different from each other is that the room temperature is adjusted to some extent by a heat exchanger having a large heat exchanging capacity, . This is an important feature of the present invention.

The valve 130 shown in FIG. 3 selectively supplies hot water or cold water to the first heat exchanger 110 and / or the second heat exchanger 120. Here, the temperature of the hot water is about 50 캜, and the temperature of the cold water is about 7 캜.

The valve 130 may supply hot water or cold water to both the first heat exchanger 110 and the second heat exchanger 120.

Alternatively, the valve 130 may supply hot water or cold water only to the first heat exchanger 110.

Alternatively, the valve 130 may supply hot water or cold water only to the second heat exchanger 120.

To this end, the valve 130 includes a first valve 131, a second valve 132, a third valve 133, a fourth valve 134, a fifth valve 135, a sixth valve 136, A seventh valve 137, and an eighth valve 138, respectively.

The first valve 131 is installed in the first pipe L1 to open and close the first pipe L1.

The second valve 132 is installed in the second pipe L2 to open and close the second pipe L2.

The third valve 133 is installed in the third pipe L3 to open / close the third pipe L3.

The fourth valve 134 is installed in the fourth pipe L4 to open / close the fourth pipe L4.

The fifth valve 135 is installed in the fifth pipe L5 and opens and closes the fifth pipe L5.

The sixth valve 136 is installed in the sixth pipe L6 to open and close the sixth pipe L6.

The seventh valve 137 is installed in the seventh pipe L7 to open and close the seventh pipe L7.

The eighth valve 138 is installed in the eighth pipe L8 to open and close the eighth pipe L8.

The first pipe (L1) connects the hot water supplier (not shown) installed in the machine room and the 1-1 hole (111).

The second pipe (L2) connects the hot water supplier (not shown) installed in the machine room and the 1-2 hole (112).

The third pipe L3 connects the first-third hole 113 with a cold water supplier (not shown) installed in the machine room.

The fourth piping L4 connects the cold water supplier (not shown) installed in the machine room and the 1-4 hole 114.

The fifth pipe L5 connects the hot water supplier (not shown) provided in the machine room and the 2-1th hole 121.

The sixth pipe L6 connects the hot water supplier (not shown) installed in the machine room and the second 2-2 hole 122.

The seventh pipe (L7) connects a cold water supplier (not shown) provided in the machine room and the second hole (123).

The eighth pipe L8 connects the second-fourth hole 124 with a cold water supplier (not shown) installed in the machine room.

The fan 140 discharges cool air or warm air heat-exchanged in the first heat exchanger 110 and / or the second heat exchanger 120 to the room.

The sensor 150 measures the temperature and humidity of the room.

The control unit 160 receives the signal from the sensor 150 and controls the valve 130 to adjust the temperature of the room to a predetermined temperature. The control unit 160 will be described later in detail.

In the present invention, there are two heat exchangers instead of one, eight valves, and eight pipings. Therefore, the configuration is somewhat more complicated than the conventional fan coil unit. Nevertheless, since the fan coil unit 1 is installed on a wall rather than a ceiling, the accessibility is excellent, and maintenance is easy even if a problem arises due to a complicated configuration.

Hereinafter, the operation of the fan coil unit according to one embodiment of the present invention will be described.

3 and 4 basically.

1. Heating

 end. High temperature heating (30 ℃)

And supplies hot water to both of the two heat exchangers (110, 120).

And opens the first valve 131 to send hot water to the first heat exchanger 110.

And opens the second valve 132 to recover hot water from the first heat exchanger 110.

And opens the fifth valve (135) to send hot water to the second heat exchanger (120).

The sixth valve 136 is opened to recover the hot water from the second heat exchanger 120.

 I. Medium temperature heating (28 ℃)

The hot water is supplied only to the large heat exchanger 110 of the two heat exchangers 110 and 120.

And opens the first valve 131 to send hot water to the first heat exchanger 110.

And opens the second valve 132 to recover hot water from the first heat exchanger 110.

 All. Low temperature heating (26 ℃)

The hot water is supplied only to the small heat exchanger 120 among the two heat exchangers 110 and 120.

And opens the fifth valve (135) to send hot water to the second heat exchanger (120).

The sixth valve 136 is opened to recover the hot water from the second heat exchanger 120.

2. Cooling

 end. Low temperature cooling (18 ℃)

And opens the third valve 133 to send cold water to the first heat exchanger 110.

The fourth valve 134 is opened to recover the cold water from the first heat exchanger 110.

The seventh valve 137 is opened to send the cold water to the second heat exchanger 120.

And opens the eighth valve (138) to recover cold water from the second heat exchanger (120).

 I. Medium temperature cooling (20 ℃)

The cold water is supplied only to the heat exchanger (110) having a large capacity among the two heat exchangers (110, 120).

And opens the third valve 133 to send cold water to the first heat exchanger 110.

The fourth valve 134 is opened to recover the cold water from the first heat exchanger 110.

 All. High temperature cooling (22 ℃)

The cold water is supplied only to the heat exchanger 120 having a small capacity among the two heat exchangers 110 and 120.

The seventh valve 137 is opened to send the cold water to the second heat exchanger 120.

And opens the eighth valve (138) to recover cold water from the second heat exchanger (120).

3. Micro temperature control (heating)

Hot water is supplied to the heat exchanger (110) having a large heat exchange capacity among the two heat exchangers and cold water is supplied to the heat exchanger (120) having a small heat exchange capacity. Adjust the amount of cold water to finely adjust the heating temperature.

And opens the first valve 131 to send hot water to the first heat exchanger 110.

And opens the second valve 132 to recover hot water from the first heat exchanger 110.

And controls the opening degree of the seventh valve (137) to send cold water to the second heat exchanger (120).

The degree of opening of the eighth valve 138 is adjusted to recover the cold water from the second heat exchanger 120.

4. Fine temperature control ( Cooling )

The cold water is supplied to the heat exchanger 110 having a large heat exchange capacity among the two heat exchangers and the hot water is supplied to the heat exchanger 120 having a small heat exchange capacity. Control the amount of hot water to fine tune the cooling temperature.

And opens the third valve 133 to send cold water to the first heat exchanger 110.

The fourth valve 134 is opened to recover the cold water from the first heat exchanger 110.

And the hot water is sent to the second heat exchanger 120 by adjusting the degree of opening of the fifth valve 135.

The hot water is recovered from the second heat exchanger 120 by adjusting the degree of opening of the sixth valve 136.

10: Fan coil unit 110: First heat exchanger
120: second heat exchanger 130: valve
140: fan 150; sensor
160:

Claims (1)

A body installed on an indoor wall;
A first 1-1 hole through which hot water flows, a 1st 1-2 hole through which hot water flows, a 1-3 hole through which cold water flows, and a 1-4 hole through which cold water flows A first heat exchanger;
A second-1 hole in which hot water flows, a second-2 hole in which hot water flows out, a second-third hole in which cold water flows, and a 2-4 hole in which cold water flows out A second heat exchanger;
A fan for discharging cool air or warmth heat-exchanged in the first heat exchanger and / or the second heat exchanger to the room;
A sensor for measuring temperature and humidity of the room;
A first pipe connecting the first 1-1 hole and the hot water supply unit to supply hot water supplied from the hot water supply unit to the 1-1 hole;
A second pipe connecting the first 1-2 hole and the hot water supply unit to return the hot water discharged from the first 1-2 hole to the hot water supply unit;
A third pipe connecting the first-third hole and the cold water supply unit to supply cold water supplied from the cold water supply unit to the first-third hole;
A fourth pipe connecting the first-fourth hole and the cold water supply unit to return cold water discharged from the first-fourth hole to the cold water supply unit;
A fifth pipe connecting the second-1 hole and the first pipe to supply hot water discharged from the first pipe to the second-1 hole;
A sixth pipe connecting the second 2-2 hole and the second pipe to return the hot water flowing out of the second 2-hole to the second pipe;
A seventh pipe connecting the second hole to the third pipe and supplying cold water discharged from the third pipe to the second hole;
An eighth pipe connecting the second 2-4 hole and the fourth pipe to return cold water flowing out of the second 2-4 hole to the fourth pipe;
A first valve installed in the first pipe for opening and closing the first pipe;
A second valve installed in the second pipe to open and close the second pipe;
A third valve installed in the third pipe for opening and closing the third pipe;
A fourth valve installed in the fourth pipe for opening and closing the fourth pipe;
A fifth valve installed in the fifth pipe for opening / closing the fifth pipe;
A sixth valve installed in the sixth pipe for opening / closing the sixth pipe;
A seventh valve installed in the seventh pipe for opening and closing the seventh pipe;
An eighth valve installed in the eighth pipe for opening and closing the eighth pipe; And
And a controller for receiving the signal from the sensor and controlling the first to eighth valves to adjust the temperature of the room to a predetermined temperature,
Only hot water flows into the first pipe, the second pipe, the fifth pipe, and the sixth pipe, and cold water only flows through the third pipe, the fourth pipe, the sixth pipe, and the eighth pipe,
Wherein the controller controls the amount of hot water and cold water supplied to the first heat exchanger and / or the second heat exchanger by controlling only the first valve to the eighth valve to precisely adjust the room temperature.

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