KR200404738Y1 - Discharge apparatus for the thermohydrostat - Google Patents

Abstract

The present invention relates to a discharge device for a constant temperature and humidity chamber, and includes a compressor (1), an evaporator (2), an air suction unit (3), and a blowing fan (5) in a constant temperature and humidity chamber body (A) which is an indoor unit installed inside a communication station. ) And a discharge grill 6 for blowing cooling air by a blowing fan, wherein a plurality of discharge nozzles are provided on an upper side of the discharge grill 6 formed in the upper blowing chamber 4 of the main body A. (9) by the support (10) can be arranged up and down, left and right side by side, arranged side by side side by side and the discharge grill (6) for the air cooled by the cooling mechanism of the thermo-hygrostat And through the discharge nozzle (9) to eject each within a certain distance, over a certain distance to circulate the air inside the communication station as a whole to effectively cool the heat load of all the communication equipment and to effectively constant temperature and humidity inside the communication station.

Description

Discharge device of constant temperature and humidity chamber {DISCHARGE APPARATUS FOR THE THERMOHYDROSTAT}

The present invention relates to a thermo-hygrostat.

Since the electronic equipment of the communication equipment generates high temperature heat inside the communication station, a constant temperature and humidity controller is installed to maintain a predetermined temperature and humidity in order to remove the heat load.

Conventional thermo-hygrostat is a compressor (p) for installing the outdoor unit having a condenser (c) for cooling and condensing the refrigerant evaporated in the evaporator outside the communication station and compressing the refrigerant in the main body (A) which is an indoor unit installed inside the communication station, The cooling air is blown by the evaporator (e) for evaporating the compressed refrigerant to absorb and cool the surrounding heat, the intake port (i) for sucking air, the blowing fan (f) for blowing the cooled air, and the blowing fan. An inner discharge grill g is provided.

As shown in FIG. 5, the conventional thermo-hygrostat has a discharge grill g formed on the upper side of the main body A, so that the cooling air is in a desired direction within a predetermined range according to the angle adjustment of the grill blade. It is supposed to be ventilated. Therefore, it is possible to eliminate the heat load of the communication equipment within a certain distance.

However, there is a problem that the internal temperature of the communication station is not lowered because it does not remove the heat load generated from the communication equipment over a certain distance.

The present invention corrects the inadequate air circulation in the communication station and compresses the refrigerant in the body of the constant temperature and humidity chamber installed inside the communication station to circulate the air inside the communication station as a whole. An evaporator for absorbing and cooling, a suction inlet for sucking air, a blowing fan for blowing the cooled air, and a discharge grill for blowing cooling air by the blowing fan, the conventional grill discharge port formed in the thermo-hygrostat main body The plurality of discharge nozzles for condensing and ejecting the cooling air to the upper side of the upper and lower sides of the upper and lower sides can be configured to be adjustable.

Since the discharge device of the present invention is configured to combine the discharge grill and the discharge nozzle in the upper part of the body of the constant temperature and humidity chamber, the air inside the communication station sucked into the suction unit by the cooling mechanism such as the compression pump and the evaporator and the condenser is cooled and then discharged by the blower. And through the discharge nozzle. The heat load of the communication equipment within a certain distance can be removed by the cooling air ejected from the discharge grill, and the heat load of the communication equipment of a certain distance or more can be removed by the cooling air injected from the discharge nozzle.

The ejected air absorbs the heat emitted from the communication equipment and is sucked into the suction part of the thermo-hygrostat and passes between the evaporators. The heat is released from the condenser of the outdoor unit during heat exchange. The cooled air is repeatedly discharged from the main body and the discharge nozzle. Since the air is emitted through the circulation of the air inside the communication station as a whole.

Therefore, the heat load of the entire communication equipment of the communication station can be removed more efficiently than the air circulated locally by the cooling air ejected from the conventional discharge grill.

 The outdoor unit having the condenser (c) installed outside the communication station (S), the compressor (1) for compressing the refrigerant in the constant temperature and humidity chamber body (A), which is an indoor unit installed inside the communication station (S), and the compressed refrigerant is evaporated. Cooling air by the evaporator 2 for absorbing and cooling the surrounding heat, the suction unit 3 for sucking air, the blowing fan 5 for blowing the cooled air to the blowing chamber 4, and the blowing fan. In the discharge grill 6 for blowing air, as shown in Figs. 1 and 2, a hemispherical shape is formed on the upper side of the discharge grill 6 formed in the upper ventilation chamber 4 of the main body A. The plurality of discharge nozzles 9 formed with the air induction part 7 and the small nozzle hole 8 are arranged side by side to the left and right by the supporter 10 so that the direction can be adjusted vertically and horizontally.

The present invention thus achieved, as shown in Figure 3, when the constant temperature and humidity chamber installed in the communication station (S) by the main body (A) by the cooling mechanism such as the compressor (1), the evaporator (2) and the condenser (c) The air sucked into the suction unit 3 of the cooling unit is cooled and the cooled air is blown into the blowing chamber 4 by the blowing fan 5, and the cooling air blown into the blowing chamber 4 is a conventional discharge grill 6. And the nozzle hole 8 of the discharge nozzle 9 are blown into the communication station. At this time, the discharge grill 6 and the discharge nozzle 9 can be adjusted in the desired direction.

As shown in FIG. 4, the range in which the cooling air is discharged to the discharge grill 6 by the blower fan 5 is limited to a predetermined range as shown by the arrow, and the range discharged by the discharge nozzle 9 is as shown by the arrow. Since the abnormality is reached, the air inside the communication station is circulated as a whole. Since the air circulation inside the communication station is made as a whole, it is possible to effectively remove the heat load generated by communication equipment within a certain distance and communication equipment over a certain distance.

Therefore, the internal temperature of the communication station can be lowered and the communication function can be maintained by safely protecting the communication equipment.

According to the present invention, a plurality of discharge nozzles having an air induction part and a nozzle hole are arranged on the upper side of the discharge grill of the constant temperature and humidity chamber installed inside the communication station, thereby improving the discharge capacity of the constant temperature and humidity chamber having the same function by simple structure improvement of the discharge device. It is possible to circulate the air inside the communication station as a whole.

In addition, the heat load of the communication equipment within a certain distance and the communication equipment within a certain distance can be effectively eliminated by the cooling air ejected from the discharge grill and the discharge nozzle, and the constant temperature and humidity inside the communication station can be kept constant. .

1 is a front view of the present invention

Figure 2 is a partial plan view of the discharge nozzle of the present invention is arranged

Figure 3 is a side view showing the discharge action of air by cutting off a part of the present invention

Figure 4 is an embodiment showing a state of use of the subject innovation

5 is a front view of a conventional thermo-hygrostat

[Description of Signs of Important Parts of Drawing]

DESCRIPTION OF SYMBOLS 1 Compressor 2 Evaporator 3 Suction part 4 Blowing chamber 5 Blowing fan

6 discharge grill 7 air guide 8 nozzle hole 9 discharge nozzle 10 support

A: body c: condenser

Claims (1)

A compressor (1) for compressing a refrigerant in the thermo-hygrostat main body (A) installed inside the communication station, an evaporator (2) for evaporating the compressed refrigerant to absorb and cool the surrounding heat, and a suction unit (3) for sucking air. ), A blowing fan 5 for blowing the cooled air into the blowing chamber 4, and a discharge grill 6 for blowing cooling air by the blowing fan, A plurality of discharge nozzles 9 having a hemispherical air guide portion 7 and a small nozzle hole 8 are formed on the upper side of the discharge grill 6 formed in the upper blowing chamber 4 of the main body A. 10) the apparatus for discharging a constant temperature / humidity device, which is configured to be arranged up and down, side by side, side by side so as to be able to adjust direction up and down and left and right.