KR100187066B1 - Humidifying apparatus - Google Patents

Abstract

The present invention relates to a humidification apparatus using condensed water of an air conditioner to ultrasonically vibrate the condensed water filtered by a filter with a vibrator and to be discharged in a sterile state. In a known air conditioner that cools the room while continuously performing four processes, a dish 6 for collecting condensate generated through the surface of the evaporator 5 and a foreign matter contained in the condensate collected in the dish 6 are collected. The filter 11 to be removed, the purified water container 7 in which the water purified through the filter 11 is primarily stored, and the contact point of the water level float switch FS of the purified water container 7 are changed. The water level sensing unit 30 for applying an electrical signal, the microcomputer 20 for instructing the on control of the valve SV1 and the heater HT when the water level is input by the water level sensing unit 30, and the microcomputer ( 20) control valve (SV1) The discharge is collected in the valve drive unit 60, the heater drive unit 40 for heating the heater HT by the control signal of the microcomputer 20, and the water purified by opening the valve SV1, and installed in place A heating tube 8 for sterilizing bacteria contained in the water by heating the heater HT, a humidifying portion 9 for atomizing ultrasonically vibrated water sterilized by the heating tube 8, and the humidifying portion 9 ) Is characterized by consisting of a discharge unit 10 for discharging the atomized gas to the outside.

Description

Humidifier using air condensate

The present invention relates to an air conditioner to which a humidifier is added. More particularly, the present invention relates to a humidification apparatus using condensed water of an air conditioner, in which the condensed water filtered by a filter is ultrasonically vibrated with a vibrator and humidified, in particular, to be discharged in a sterile state.

In general, the low-temperature low-pressure liquid refrigerant introduced into the evaporator is heat from the surroundings of the evaporator in an air conditioner that cools the room by performing pressure, evaporation, and mechanical cooling, condensation, expansion, and evaporation. The liquid refrigerant is converted into a gas refrigerant by absorbing the condensate, and condensate is generated on the surface of the evaporator due to the condensation of moisture contained in the air. If you leave the surface of the evaporation plate and leave it as it is, it overflows to the outside and pollutes the room.

Thus, in order to prevent condensate accumulated in the evaporating plate from overflowing to the outside, the discharge hose is conventionally drawn out of the evaporating plate to be discharged to the outside, or when installed at a low position such as a basement, a separate drip tray is provided as a discharge hose. The discharge was treated to condensate.

However, the condensate treatment device as described above has a simple structure, but it is cumbersome to treat the condensate, and particularly, the condensate discharged to the wall or floor of the building surrounding the equipment has a defect that pollutes the environment.

The present invention has been made in view of the above-mentioned matters, the object is to purify the condensate generated in the evaporator by the filter, to remove the bacteria contained in the purified water by the exothermic means, purified water in sterilized state The present invention provides a humidification apparatus using condensed water in an air conditioner to be atomized by a vibrator and discharged to the outside.

1 is a system configuration of the humidifier using the present invention condensate,

2 is a control block diagram of the humidifier of the present invention;

3 is a detailed circuit diagram illustrating an example of FIG. 2;

4 is a humidification control procedure using the present invention condensate,

Explanation of symbols for the main parts of the drawings

5-heat exchanger, 6-plate,

7-water purifier, 8-heating basin,

9-humidification part, 10-discharge part,

11-filter, 20-microcomputer,

In order to achieve the above object, the present invention provides a known air conditioner for cooling a room while continuously performing four processes of compression, condensation, expansion, and evaporation of a refrigerant gas, comprising: a dish for collecting condensate generated through the surface of an evaporator; A filter for removing foreign substances contained in the condensate collected in the dish, a purified water passage through which water purified through the filter is primarily stored, and an electrical signal due to a change in contact point of the float switch at the full level of the purified water reservoir A level sensor to be applied, a microcomputer for commanding ON control of the valve and the heater when the water level is input by the level sensor, a valve driving unit for opening a valve of the purified water container with the control signal of the microcomputer, and a control signal of the microcomputer The heater drive unit which heats the furnace heater and the water purified by the valve opening are collected, and the water contained in the water by the heating of the heater installed in place. It is characterized by consisting of a heating tube for sterilizing bacteria, a humidifying unit for ultrasonically vibrating the water sterilized in the heating tube and atomization, and a discharge unit for discharging the atomized gas from the humidifying unit to the outside.

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

1 is a system block diagram of a humidifier using the condensate of the present invention, Figure 2 is a control block diagram of the humidifier of the present invention, Figure 3 is a detailed circuit diagram showing an example of Figure 2, Figure 4 is a humidification control using the present condensate It's purity.

1 is a system configuration diagram of a humidifying apparatus using the condensate according to the present invention, in which a discharge port 2 is provided at an upper part of an indoor unit main body 1, and a suction port 3 is formed at a lower part of the indoor unit main body 1, and the discharge port 2 is provided. The inside of the indoor fan (4) is installed inside the evaporator 5 is inclined at a predetermined angle in the lower portion, that is, the inside of the inlet (3), the condensate (8) falling to the evaporator (5) directly below It is to provide a dish 6 to hold.

The above has been described with respect to the configuration of the air conditioner as usual, the present invention is installed so as to communicate with the upper portion of the water purification tank 7 through the filter 11 having a porous network to the bottom of one side of the dish (6), A general float switch FS is installed inside the cylinder 7 and connected to the microcomputer 20 to be described later.

In addition, a heating cylinder 8 having a heater HT having a heating wire wound several times is installed under the water purification vessel 7, and the upper end of the heating vessel 8 and the lower portion of the water purification vessel 7 are provided with a solenoid valve ( SV1) is installed in communication through the inlet pipe.

In addition, the humidifier 9 is provided with a vibrator (TD) for ultrasonically vibrating the water sterilized in the heating tube (8), and discharged to discharge the atomized gas to the outside installed directly above the humidifier (9) The part 10 is comprised.

2 and 3 is a control block diagram and a detailed circuit diagram showing an example of the air conditioner system of the present invention, which controls the entire operation of the air conditioner, and is provided with an input end A and an output end BD. Is composed of a microcomputer 20 for controlling overall control, a pull-up resistor (R1) and a float switch (FS) to input a switch interruption signal according to the water level to the input terminal (A) of the microcomputer (20) It consists of a water level detection unit 30 for detecting the water level of the inverter, an inverter I2 for inverting the control signal of the microcomputer 20, and a relay RY1 conducting with the inverted signal to be an intermittent signal of the relay RY1. The valve driving unit 50 which opens and closes the solenoid valve SV1 to guide the water in the purified water container 7 to the heating container 8, and the inverter I1 that inverts the control signal of the microcomputer 20, and the inverted signal. Is composed of a relay RY1 which is turned on and the heater HT is turned on by an intermittent signal of the relay RY1. The heater driving part 40 which heats the heating barrel 8, the inverter I3 which inverts the control signal of the microcomputer 20, and the relay RY3 which is conducted by the inverted signal are comprised of the interruption signal of the relay RY3. The furnace vibrator circuit 61 is composed of a humidifying circuit unit 50 for ultrasonic vibration.

Reference numerals D1, D2, and D3 are surge absorption diodes.

Referring to the operation of the present invention configured as described above in detail with reference to Figure 4 as follows.

The indoor air forced into the evaporator 5 through the suction port 3 by the operation of the indoor fan 4 and the refrigerant cycle is heat-exchanged in the evaporator 5 and discharged into the room through the discharge port 2 (S1).

At this time, in the evaporator 5, condensation water is generated as a condensation condensation phenomenon of moisture contained in the air, and falls into the dish 6 along the inclined surface of the lower part of the evaporator 5.

In this way, when the condensed water is accumulated, foreign matters of the condensed water are primarily filtered through the filter 11 having a porous network installed in communication with the dish 6, and the filtered water is collected into the purified water container 7. The purified water thus collected is gradually increased due to the continuous cooling operation, and finally the operation of the humidification device of the present invention proceeds when the water level rises to the full water level contact change position of the float switch FS (S2).

That is, when the float switch FS is turned on, the voltage Vcc connected to the pull-up resistor R1 flows to the ground side, and the low level potential is input to the microcomputer 20, and the microcomputer 20 is connected to the output terminal c. The purified water collected in the purified water container 7 by opening the solenoid valve SV1 by applying the high signal, that is, the high signal, turning on the relay RY2 with the low signal inverted by the inverter I2. At the same time, the output terminal B also applies the same high signal to turn on the heater HT with the low signal inverted by the inverter I1 (S5). It is raised to a predetermined temperature to remove bacteria contained in the purified water. Here, it is preferable that the heater heating is performed only up to a predetermined time (S6, S7) to prevent the device damage due to overheating in advance.

The sterilized water through this series of operations is supplied to the humidifier 9 through the inlet pipe, and the humidifier 9 converts the control signal of the output terminal B of the microcomputer 20 into the inverted low signal as the vibrator circuit 61. The atomized gas is quickly atomized by ultrasonic vibration (S8), and the atomized gas is discharged to the outside through the discharge part 10.

As described above, the present invention purifies the condensate generated in the evaporator by a filter, removes the bacteria contained in the purified water by the heating means, and sterilizes the sterilized purified water by the vibrator. As the condensate is discharged to the outside by generating it as a gas that is harmless to the human body and discharging it to the outside, there is no need for a separate operation for removing condensate, and there is an advantage that it can fundamentally solve the contamination around the equipment due to the condensate. .

The above description is only one embodiment of the present invention, and any change may be made within the scope of the present invention.

Claims (1)

In a known air conditioner that cools a room while continuously performing four processes of compression-condensation-expansion-evaporation, a dish (6) for collecting condensate generated through the surface of the evaporator (5), and the dish ( A filter 11 for removing foreign matter contained in the condensate collected in 6), a purified water container 7 in which water purified through the filter 11 is primarily stored, and a full water level of the purified water container 7 Level control unit 30 for applying an electrical signal by changing the contact point of the float switch FS, and the ON control of the valve SV1 and the heater HT when the water level is input by the water level detection unit 30. The heater HT is heated by the control signal of the microcomputer 20 to command, the valve driving unit 60 to open the valve SV1 of the purified water container with the control signal of the microcomputer 20, and the control signal of the microcomputer 20. The heater driving unit 40 and the water purified by opening the valve SV1 are collected, and the heater HT installed in place is heated. The heating tube 8 for sterilizing the bacteria contained in the water, the humidification unit 9 for atomizing the ultrasonically vibrated water sterilized in the heating tube 8, and the gas atomized in the humidifying unit 9 outside Humidifier using the condensed water of the air conditioner, characterized in that consisting of the discharge portion 10 to discharge to.