KR20000074701A - A placing structure of blowing fan for dehumidifier - Google Patents

Abstract

PURPOSE: A blower fan installation structure is provided to improve effectiveness of heat exchange by installing the blower fan at an air discharge opening side so as to reduce noise and vibration caused immediately before the discharge of indoor air. CONSTITUTION: A structure comprises a compressor(10) for transferring, through a compression, a high temperature refrigerant of high voltage to a system, a heat exchanger for receiving the high temperature high voltage refrigerant or indoor air and dehumidifying the moisture contained in the indoor air by performing evaporation and condensation through an evaporator(40) and a condenser(20), a condensate water container(50) for storing water obtained from the dehumidification of the heat exchanger, and an air discharge opening(60') having a blower fan(60) to permit the indoor air passed through the heat exchanger to be directly discharged into a room.

Description

{A placing structure of blowing fan for dehumidifier}

The present invention relates to a mounting structure of a dehumidifier blower fan in which a blower fan for discharging the indoor air dehumidified in the dehumidifier removes moisture in the indoor air to the outside. The installed air is passed through the heat exchanger and is discharged directly into the room.Therefore, there is no resistance to the air passing through the heat exchanger.Therefore, noise and vibration are reduced, and the air volume increases and the velocity distribution of the air passing through the heat exchanger is uniform. It will be related to the mounting structure of the dehumidifier blowing fan that can be increased heat exchange efficiency.

Looking at the mounting structure of the dehumidifier blower fan according to the prior art as follows.

1 is a view showing the configuration of the mounting structure of the dehumidifier blowing fan according to the prior art.

1, the compressor (1) for performing a compression action to discharge the high temperature and high pressure refrigerant; A condenser (2) in a high temperature state performing condensation by high temperature and high pressure refrigerant discharged through the compressor (1); A capillary tube 3 which delivers the liquid condensed in the refrigerant through the condensation action of the condenser 2; Is connected to the capillary tube 3 when the refrigerant of the high temperature and high pressure is delivered, the evaporator is performed to be a low temperature state comprises an evaporator 4,

In addition, as the indoor air passes through the low-temperature evaporator 4, moisture in the air is condensed to form dew on the surface of the evaporator 4, and at the same time, when the dew falls downward due to the load, a condensation tank for storing it. (5), a blower fan (6) arranged in sequence with the evaporator (4) and the condenser (2) for feeding the dehumidified air passing through the condenser (2), and around the blower fan (6) A shroud 7 provided to create an air flow pressure, a front grill 8 for guiding the compressed air into the room in front of the blower fan 6, the evaporator 4 and the condenser 2 It comprises a partition plate (9) extending to the shroud (7) installed in the lower portion of the blowing fan (6) to partition the portion consisting of the condensate container (5).

Referring to the operation of the mounting structure of the dehumidifier blower fan according to the prior art configured as described above are as follows.

First, referring to the flow of the refrigerant, a compression action is performed in the compressor 1 to transfer the high temperature and high pressure refrigerant to the condenser 2. Then, as the condenser 2 is in the condenser 2, a part of the refrigerant is liquefied into a liquid state and is transferred to the evaporator 4 at a high temperature and high pressure through the capillary tube 3. Thereafter, the evaporator 4 receives the refrigerant in a high temperature and high pressure state, absorbs heat while performing an evaporation action, and becomes a low temperature state.

Next, looking at the flow of air, as the indoor air passes through the evaporator 4 in a low temperature state, moisture in the air is condensed with dew on the surface of the evaporator 4, and the dew formed on the surface of the evaporator 4 is loaded. It is dropped into the condensate tank (5) by. Then, the air passing through the evaporator 4 is removed to reach the blowing fan 6 through the condenser 2 in a high temperature state. Thereafter, the dehumidified air as described above is pumped by the blower fan 6 to be discharged to the outside through the front grill (8).

However, in the conventional case, the air passing through the blower fan 6 hits a wall or other protruding portion between the blower fan and the front grille 8 immediately before being discharged to the front grille 8, thereby causing noise or vibration. This increases, and there is a problem that the amount of air decreases as the flow path resistance increases.

In addition, in the flow path of the air passing through the blower fan 6, the space under the shroud 7 is relatively large so that the air flows downward, and thus the air passes through the evaporator 4 and the condenser 2. There is also a problem that the velocity distribution of is not uniform. On the other hand, there is also a problem that the heat exchange amount according to the position of the evaporator 4 and the condenser 2 is non-uniform, thereby reducing the heat exchange efficiency.

The present invention has been made in order to solve the above problems of the prior art, the object of the blower by installing a blowing fan on the discharge port side to reduce the noise and vibration generated immediately before the indoor air is discharged to the outside through the heat exchanger, Since there is no resistance to the air passing through the fan, the velocity distribution of the air passing through the heat exchanger with the increase in the amount of air is also uniform, thereby providing a mounting structure of the dehumidifier blower fan that can increase the heat exchange efficiency by that much.

1 is a view showing the configuration of the mounting structure of the dehumidifier blowing fan according to the prior art,

2 is a view showing the configuration of the mounting structure of the dehumidifier blowing fan according to the present invention,

Figure 3 is a graph comparing the flow path resistance by the mounting structure of the dehumidifier blower fan according to the present invention and the flow resistance of the conventional technology.

<Explanation of symbols on main parts of the drawings>

10 compressor 20 condenser

30 capillary 40 evaporator

50: condensate bottle 60: blowing fan

60 ': discharge port 65: shroud

According to a first feature of the mounting structure of the dehumidifier blower fan according to the present invention for solving the above problems, a compressor for delivering a high temperature and high pressure refrigerant to the system through a compression action, and delivers the high temperature and high pressure refrigerant or room air A heat exchanger that dehumidifies moisture in the indoor air by performing evaporation and condensation, a condensate container for storing moisture dehumidified by the heat exchanger, and a blower fan to directly discharge indoor air from which moisture is removed through the heat exchanger. It is comprised including the discharge port provided.

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

2 is a view showing the configuration of the mounting structure of the dehumidifier blower fan according to the present invention, Figure 3 is a graph comparing the flow resistance by the mounting structure of the dehumidifier blower fan according to the present invention and the flow resistance of the conventional technology. .

2 and 3, the compressor 10 to discharge the refrigerant of high temperature and high pressure by performing a compression action; A condenser 20 which becomes a high temperature state by performing a condensation action by the high temperature and high pressure refrigerant discharged through the compressor 10; A capillary tube 30 which delivers the liquid condensed in the refrigerant through the condensation action of the condenser 20; Is connected to the capillary tube 30 is a high temperature and high pressure when the refrigerant is delivered to the evaporator is performed to include a low temperature evaporator 40,

In addition, as the indoor air passes through the evaporator 40 in the low temperature state, moisture in the air is condensed to form dew on the surface of the evaporator 40, and at the same time, when the dew falls downward due to the load, a condensation tank for storing it. 50; A blower fan 60 is arranged in order with the evaporator 40 and the condenser 20 to pump the dehumidified air that has passed through the condenser 20, and the air dehumidified through the blower fan 60 is installed. A discharge port 60 'for direct discharge into the air;

The shroud 65 and the evaporator 40 and the condenser 20, the blower fan 60, the condensate tank 50 and the compressor 10 are installed to form an air flow pressure around the blower fan 60. Comprising a partition plate 70 is installed so as to extend to the discharge port (60 ') to partition.

Looking at the operation of the mounting structure of the dehumidifier blower fan according to the present invention configured as described above are as follows.

First, looking at the flow of the refrigerant, a compression action is performed in the compressor 10, and the high temperature and high pressure refrigerant is transmitted to the condenser 20 accordingly. Then, as the condenser 20 is in the condenser 20, a part of the refrigerant is liquefied into a liquid state and transferred to the evaporator 40 at a high temperature and high pressure through the capillary tube 30, and the condenser 20 itself is a high temperature. Will be in a state. Thereafter, the evaporator 40 receives the refrigerant in a high temperature and high pressure state through the capillary tube 30, absorbs heat while performing an evaporation action, and thus itself becomes a low temperature state.

Next, looking at the flow of air, while the indoor air passes through the evaporator 40 in a low temperature state, the moisture in the air is condensed with dew on the surface of the evaporator 40, the dew formed on the surface of the evaporator 40 is a load It is dropped into the condensate tank (50) by. Then, the air passing through the evaporator 40 is removed to reach the blowing fan 60 through the condenser 20 in a high temperature state.

Thereafter, the dehumidified air is pressurized by the blowing fan 60 to be directly discharged into the room through the discharge port 60 '. Therefore, since there is no resistance to the air passing through the blowing fan 60, as shown in FIG. 3, the flow path resistance becomes considerably smaller than in the conventional technology. Therefore, since the air volume increases and the velocity distribution of air is relatively constant, constant heat exchange can proceed in the entire heat exchanger, thereby increasing heat exchange efficiency.

Mounting structure of the dehumidifier blower fan of the present invention configured as described above is installed through the blower fan to reduce the noise and vibration generated immediately before the indoor air is discharged to the outside through the heat exchanger, the air passing through the blower fan Since there is no resistance to, the velocity of the air passing through the heat exchanger is also uniform with the increase in the amount of air flow, thereby increasing the heat exchange efficiency.

Claims (1)

A compressor that delivers a high temperature and high pressure refrigerant to the system through a compression action, a heat exchanger that receives the high temperature and high pressure refrigerant or indoor air to perform evaporation and condensation to dehumidify moisture in the indoor air, and a dehumidification by the heat exchanger. And a condensation water tank configured to store the moisture, and an air outlet having a blower fan installed to directly discharge the indoor air from which the water is removed through the heat exchanger to the room.