KR200207358Y1 - A humidifing device in fan coil unit - Google Patents

Abstract

The present invention relates to a humidifier that is used to increase the humidity of indoor air in a fan coil unit, and heats water in a faster time than humidification, thereby reducing waiting time during humidification operation and reducing energy wasted after the humidification operation is completed. It is characterized by providing an apparatus.

Description

Humidifier in fan coil unit {A HUMIDIFING DEVICE IN FAN COIL UNIT}

The present invention relates to a humidification apparatus used to increase the humidity of indoor air in a fan coil unit, and a heating apparatus for generating a humidification steam in a humidification apparatus.

Conventional fan coil units usually do not have a separate humidifier. This will be described in detail with reference to FIG. 1.

In FIG. 1, which shows the assembly cross-sectional structure of a conventional fan coil unit, first, the structure and operation relationship of the fan coil unit will be described. The heat exchanger 1 of the fan coil unit is built-in inside the product. It consists of a drain pan (2) receiving the condensed water condensed during cooling in the apparatus (1) and sending it to the outside, a blower (3) and a housing (4) for forcibly blowing air to promote heat exchange of the heat exchanger (1). And a filter 5 for filtering dust in the air, and a discharge grill 6 installed to protect the heat exchanger 1 and the internal parts from the outside while guiding the direction of the discharged air. When the blower 3 is rotated while supplying cold water or hot water into a pipe (not shown) in a heat exchanger through a separate supply line of cold or hot water, the indoor air is sucked in through the suction part (7). ) Causes heat exchange in the heat exchanger (1) through the filter (5) and the blower (3), and then is discharged back to the room through the discharge grill (6).

However, the conventional fan coil unit does not have a built-in humidifier that needs to be humidified when the indoor air is dried, and when the separate humidifier is used as an auxiliary, the volume becomes large and causes inconvenience to use.

The present invention relates to a humidification device used to increase the humidity of indoor air in a fan coil unit, and to reduce the waiting time during the humidification operation so that the humidification operation can be started faster than the humidification time and wasted energy after the humidification operation is completed. It provides a device for reducing the.

1 is an assembly cross-sectional structure showing a conventional fan coil unit configuration

2 is an assembly cross-sectional structure of a fan coil unit according to one embodiment of the present invention

3 is a cross-sectional structure of the assembly of the fan coil unit which is another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: heat exchanger

3: blower

10: water storage tank

11: heating tube

13, 2l: electric heater

23: heating bath

The present invention provides a device for reducing the amount of energy that can be wasted after the humidification operation as well as reducing the waiting time from the start of the operation to the actual humidification operation by heating only a small amount of water during the humidification operation in the fan coil unit. . Hereinafter, a second embodiment of the present invention will be described.

Inside the fan coil unit, a connection pipe 9 for connecting the inside of the heating pipe 11 surrounded by the water storage tank 10 and the heat transfer heater 13 is installed, and a water level sensing device for detecting the water level ( 15), a humidifying water supply line 16 supplied from the outside, and a solenoid valve 18 electrically connected to the water level detecting device 15 are installed. Here, the water storage tank 10 has a larger cross-sectional area than the heated tube 11 to store water for humidification, and the heated tube has a smaller cross-sectional area (at least in cross-sectional area) than the water storage tank 10. 1/3 or less) is a circular pipe, so that only a small amount of water 14 is heated by the heat transfer heater 13 to evaporate. At this time, the steam heated by the heat transfer heater 13 is supplied to the room via the steam discharge unit 12 through the discharge grill of the fan coil unit. In this way, only a small amount of water 14 is located in the heating tube 11, so that the actual humidification can be started as soon as possible after the start of the humidification operation. During the humidification operation, the heating tube (by the gravity of the water in the water storage tank 10) 11) It is supplied smoothly. When the user operates the controller (not shown in the drawing) to complete the humidification operation or stops the humidification operation by the controller, the water 14 heated by the heat transfer heater 13 is heated to be heated. Since a small amount of water in the area, only the small amount of energy consumed (heat dissipated) will actually complete the humidification operation. Here, the thermal insulation material 19 is installed to reduce the unnecessary heat is released to the outside. In addition, reference numeral 17 is configured to flow to the drain pan 2 when the water in the water storage tank 10 overflows.

In this embodiment, the humidification water is shown to be supplied by a separate water supply line 16, but in the form that can be poured directly into the water storage tank 10, if necessary, that is, the water supply line 16 It is also conceivable that the installation of water will be difficult, or to supply water manually for the purpose of cost reduction. The method of supplying water by the solenoid valve 18 and the water supply line 16 configured to operate by the water level detecting device 15 can stably supply water, thereby reducing inconvenience in use.

In this embodiment, the steam discharge unit 12 is located on the heat exchanger upper surface, so that the humidified air can be spread more effectively into the room by being supplied to the room together with the air forcedly blown by the blower 3 during the humidification. In addition, even when the humidification operation is performed without operating the blower, steam is immediately supplied to the room through the discharge grill. When the portion where the heat exchanger 1 is mounted and the water storage device 10 are isolated, the steam is heated. The pipe connecting the pipe 11 and the vapor discharge portion 12 is preferably configured to pass through the separator. By doing so, the configuration of the humidifier can be simplified, and the humidified air can be effectively spread in the room.

3 shows another embodiment of the present invention. When the capacity of the heat transfer heater 21 is large, it is difficult in the same manner as the above-described heat heater 13 (when the capacity is large, the cross-sectional area of the coil is increased and the amount of heat generation is large, so it must be put in water). As shown in Figure 3 can be applied in the form of immersion in water. In this case, when the electric heating heater 21 connected to the electric heating heater 21 is connected to the electric heating heater 21 by the power supply in the heating water tank 23, only a small amount of water 22 is heated. Humidification can be performed quickly. Here, the heat transfer heater 21 should be such that the thermal insulation is not destroyed by the foreign material 22. In addition, even after the humidification operation, since the heated water 22 is a small amount, unnecessary waste of energy can be reduced. Here too, the vapor discharge unit 12 is located on the upper surface of the heat exchanger so that more effectively humidified air can be spread into the room through the outside of the product.

As described above, in the present invention, the heat transfer heater 13 is mounted on the outer surface of the heating tube 11 to be connected to the water storage tank 10 having a small cross-section connected to the water storage tank 10 to heat only a small amount of water 14. By installing the electric heater 21 in the heating water tank 23 having a small volume and heating only a small amount of water 23, not only the humidification can be started at the time of the start of humidification, but also the energy wasted when the humidification operation is completed. It is intended to save.

Claims (5)

Fan coil unit is connected to the water storage tank (10) in the fan coil unit, characterized in that the heating device is installed in a water tank smaller than the water storage tank (10). The fan coil unit according to claim 1, wherein the heat transfer heater (13) is wound around the small heating tube (11). The fan coil unit according to claim 1, characterized in that a heat transfer heater (21) is built in a small volume of the heating water tank (23). The fan coil unit according to claim 1, characterized in that the water storage tank (10) is provided with a solenoid valve (18) which is interlocked by the water level sensing device (15) to adjust the supply of humidification water. Humidifier. The humidifier in a fan coil unit according to one of claims 1 to 3, characterized in that the vapor discharge section (12) is arranged above the heat exchanger.