KR100309279B1 - Air conditioner - Google Patents

Abstract

The present invention is a conventional air conditioner because the noise is generated by supplying air to the condenser using an outdoor fan and the noise caused by the pressure decrease when the amount of air generated by the outdoor fan passes through the condenser,

A condenser means consisting of a refrigerant pipe through which a refrigerant circulating between the compression means and the evaporation means, a plurality of cooling fins through which the refrigerant pipe passes and an increase in heat exchange area, and a refrigerant pipe and cooling fins; By including a reciprocating drive means for reciprocating the condensing means to the left and right to cause heat exchange,

It is a new type of air conditioner that does not use an outdoor fan, so there is little unnecessary energy loss, no pressure loss and no flow loss caused by the flow disturbance caused by the sprinkler ring, and the noise is reduced and the performance of the condenser is reduced. will be.

Description

Air conditioner

The present invention relates to an air conditioner that cools a room by using latent heat of evaporation of a refrigerant. In particular, an air conditioner capable of reducing product cost and reducing noise by omitting a cooling fan by reciprocating a condenser installed in an outdoor unit part is provided. It is about.

In general, an air conditioner includes a refrigeration circuit, which includes a compressor for compressing a gas refrigerant, a condenser for condensing the compressed refrigerant to a liquid phase, and a part of the refrigerant to vaporize liquid and gas into a two-phase refrigerant. The expansion mechanism and the evaporator which cools surrounding air using the evaporation heat of a refrigerant | coolant are comprised.

The air conditioner is divided into one type and separate type according to its components. The one type installs all the components of the refrigeration circuit inside one cabinet, and the separate type uses only the evaporator inside the cabinet to cool the surrounding air through endotherm. And the heat generating condenser and compressor parts are installed outdoors. FIG. 1 for explaining the configuration of an air conditioner shows an integrated air conditioner.

Conventional air conditioners, as shown in Figure 1 is installed on the front of the interior side of the cabinet 10, the evaporator 11 for cooling the ambient air, and the condenser installed on the outdoor side of the cabinet 10 to liquefy the refrigerant ( 12), an indoor fan 13 which blows air toward the evaporator 11 to discharge the cooled air into the room, and an outdoor that blows air toward the condenser 12 to improve heat exchange efficiency of the condenser. A fan 14, a motor 15 for simultaneously driving the indoor fan 13 and the outdoor fan 14, an air guide 17 for guiding indoor air to the indoor fan 13 side, and In order to improve the heat exchange efficiency of the condenser 12 by spraying water toward the condenser 12 and the shroud 16 for guiding the air blown by the outdoor fan 14 to flow only to the condenser 12 side. It consists of a sprinkler ring 18, a compressor (not shown) and an expansion valve (not shown) have.

The conventional air conditioner configured as described above is configured to cool the room by cooling the surrounding air while the refrigerant condensed in the condenser is evaporated in the evaporator.

When the air conditioner is driven, the motor 15 is operated to simultaneously drive the indoor fan 13 and the outdoor fan 14. The indoor fan 13 blows the indoor air guided by the air guide 17 to the evaporator 11 to cool the room by cooling the air by the endothermic action of the evaporator 11 and then discharging it into the room. .

The amount of air generated by the outdoor fan 14 is guided by the shroud 16 to pass through the condenser 12, and cools the heat generated by the refrigerant flowing through the condenser 12. Allow the heat exchange effect to occur.

The compressor compresses the refrigerant flowing along the refrigerant pipe and sends the refrigerant to the condenser 12. The refrigerant condensed in the condenser 12 is delivered to the evaporator 11 through an expansion valve, and the evaporator 11 of the refrigerant The endothermic action generated by the vaporization is used to cool the surrounding air.

At this time, in the evaporator 11, the coolant condensed due to the low temperature of the refrigerant pipe and the cooling fins flows along the surface of the refrigerant pipe and falls to the guide plate 19, and flows toward the outdoor side along the guide plate 19 of the cabinet 10. Goes to the bottom plate. When the coolant accumulates in the bottom plate of the cabinet 10 to a certain degree, the sprinkler ring 18 surrounding the outdoor fan 14 pumps up a portion of the accumulated coolant, and a part of the pumped water is transferred to the condenser 12. It is sprayed with heat sink fins. Thus, the condensation efficiency in the condenser 12 in contact with the cold cooling water is improved.

However, the conventional air conditioner uses the outdoor fan to supply new air to the condenser to condense the refrigerant, thereby generating noise due to the outdoor fan and reducing the pressure when the air volume generated by the outdoor fan passes through the condenser. There is a problem that noise occurs.

The outdoor fan and the shroud are configured to affect each other in terms of noise or air volume, and the air volume generated in the outdoor fan passes through the condenser to generate pressure and generate noise. Of course, the noise caused by the rotation of the outdoor fan is also very high, about 50 ,, and we are trying to optimize the external structures such as the outdoor fan and the shroud to reduce the noise, but it is possible to fundamentally eliminate the noise generated from the outdoor part. none.

In addition, since the cooling water is supplied to the condenser by the impact force of the ring installed around the outdoor fan, collision noise is generated by this, and in the aspect of air flow, the velocity component in the rotational direction is generated by the ring, which generates vortices, resulting in flow loss and Flow noise is increased.

In addition, the condenser, the outdoor fan, the shroud and the ring are installed in the outdoor unit and there is another problem that the volume of the outdoor unit is increased due to the bracket for supporting them.

The present invention has been made to solve the above problems of the prior art, by not supplying new air to the condenser by using an outdoor fan, but by eliminating the outdoor fan and shroud by allowing the condenser itself to reciprocate, an air conditioner The purpose of the present invention is to provide an air conditioner that can reduce the noise generated in the outdoor part and reduce the product cost.

1 is a configuration diagram showing a general integrated air conditioner,

2 is a configuration diagram showing a condensation unit of the air conditioner according to the present invention;

3 is an operating state diagram of a condensation unit which is a main component of the present invention;

4 is an internal configuration diagram of a motor unit which is a main configuration of the present invention.

<Explanation of symbols for main parts of the drawings>

50: condenser 51: refrigerant piping

52: cooling fin 53: case

54: eccentric shaft 55: bearing part

56: center cylinder 60: motor

61, 62, 63: gear 71: shaft (indoor fan)

The present invention for achieving the above object is a refrigerant pipe through which a refrigerant circulating between the compression means and the evaporation means, a plurality of cooling fins through which the refrigerant pipe passes and the heat exchange area is increased, and the refrigerant pipe and the cooling fin Condensation means consisting of; It characterized in that it comprises a reciprocating drive means for reciprocating the condensing means to the left and right to cause heat exchange.

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

The air conditioner of the present invention is composed of a compressor for compressing the refrigerant as in the prior art, an evaporator for cooling the ambient air by using an endothermic reaction of the refrigerant, and a condenser for condensing the gaseous refrigerant in a liquid state. However, as shown in FIG. 2, the plurality of cooling fins 52 stacked to allow the refrigerant pipe 51 through which the refrigerant flows, and the case 53 supporting and fixing the cooling fins 52. ) And reciprocating drive means for reciprocating the case 53 from side to side within a predetermined angle.

The reciprocating drive means reciprocates the case 53 using an eccentric shaft 54 which is eccentrically inserted and rotated in the bearing 55, and the eccentric shaft 54 has a cylindrical portion 56 in the center thereof. By providing the refrigerant pipe 51 is connected to the cylindrical portion 56. The eccentric shaft 54 is driven by a motor 60 for driving an indoor fan, and the motor 60 uses a plurality of gears 61, 62, and 63 so as to obtain a deceleration effect. That is, the eccentric shaft 54 is rotated at a slower speed than the rotation speed of the indoor fan by changing the shape in which the plurality of gears 61, 62, 63 are combined.

At this time, the case 53 is formed in a fan shape so that the heat transfer area in contact with the air is as wide as possible.

Of course, a separate motor other than the motor 60 for driving the indoor fan may be further provided as a power source for driving the eccentric shaft 54.

The air conditioner of the present invention configured as described above allows the new air to meet the cooling fin and the refrigerant pipe without driving the outdoor fan, thereby improving the condensation effect of the condenser.

The refrigerant compressed by the compressor is supplied to the condenser 50 along the refrigerant pipe 51a and flows along the refrigerant pipe 51 of the condenser 50 to exchange heat with ambient air to condense the liquid. At this time, the reciprocating drive means to reciprocate the condenser 50 to the left and right so that the new air meets the cooling fin (52) and the refrigerant pipe (51).

That is, the motor 60 for driving the indoor fan rotates the eccentric shaft 54 to cause the condenser 50 to reciprocate. When the motor 60 is driven, some of the driving force is transmitted to the indoor fan through the shaft 71, and the other part is decelerated through the gears 61, 62, and 63 to the central cylinder 56. In other words, the eccentric shaft 54 is rotated, and the eccentric shaft 54 rotates along the bearing 55 to reciprocate the condenser 50.

While the condenser 50 reciprocates, the refrigerant from the compressor is supplied to the condenser 50 through the inlet 51a of the central cylinder 56, and the maximum heat exchange with the ambient air according to the reciprocating motion of the condenser 50. The refrigerant condensed through the discharge is discharged through the discharge port 51b of the central cylinder 56 and moved to the evaporator side.

As such, since the air conditioner of the present invention does not use an outdoor fan, there is less unnecessary energy loss, no pressure loss and no flow loss caused by flow disturbance due to the sprinkler ring, noise is reduced, and the performance of the condenser is improved. This has the benefit of shrinking.

Claims (2)

A refrigerant pipe through which a refrigerant circulating between the compression means and the evaporation means flows; A plurality of cooling fins through which the refrigerant pipe passes and the heat exchange area is increased; Condensing means comprising the refrigerant pipe and the cooling fins; And a reciprocating driving means comprising an eccentric shaft eccentrically connected to the condensation means and a motor for rotating the eccentric shaft to the left and right so that the condensation means can rotate left and right about the eccentric shaft. The method of claim 1, And the reciprocating driving means includes an eccentric shaft driven by a motor for driving an indoor fan, and a plurality of gear trains which reduce the rotational speed of the motor and transmit the deceleration shaft to the eccentric shaft.