KR100689905B1 - The spiral type condenser - Google Patents

Abstract

A spiral condenser with a heat exchange member is provided to move inhaled atmospheric air into a pipe of the spiral condenser for increasing efficiency of the condenser. A spiral condenser includes a heat exchanger member(100) mounted in a case(40) thereof for moving atmospheric air introduced into the condenser by a cooling fan(30) to an outside of a periphery of the condenser by a uniform flow rate. The heat exchanger member has a flow path guide(110) formed in the condenser to change advancing direction of introduced atmospheric air, and a supporting bracket(120) having an end coupled with an end of the flow path guide and the other end folded and coupled with the case. The flow path guide is in the conical shape for guiding atmospheric air to the outside of the periphery of the condenser.

Description

Spiral condenser {The spiral type condenser}

1 is a view showing the configuration of a typical cold, heating system.

2 is a view showing a state in which a conventional spiral condenser is installed.

3 is a cross-sectional view of a state in which a conventional spiral condenser is installed.

4 is a view showing a state in which a spiral condenser according to the present invention is installed.

5 is a cross-sectional view of a spiral condenser according to the present invention installed.

Figure 6 is a view showing the shape of the flow path guide according to the present invention.

* Explanation of symbols for main parts of drawings *

10: spiral condenser 12: inlet

14: outlet 20: fixing bracket

22: pressing piece 24: fixing piece

30: cooling fan 40: case

100: heat exchange member 110: flow guide

120: support bracket 122: support piece

The present invention relates to a spiral condenser adjacent to a compressor installed in a case, in which a refrigerant in a gaseous state is condensed by inflowing and exchanging outside air by a cooling fan, wherein a flow guide is provided inside the spiral condenser to change the direction of the introduced air. By varying and guiding outward around the helical condenser, the flow falling between the condensers is made uniform, and the helical condenser increases efficiency of the condenser.

In general, the internal heating apparatus liquefies the refrigerant by compressing the refrigerant at a high pressure with an outdoor heat exchanger driven by a motor, and vaporizes the refrigerant in the indoor heat exchanger by evaporating the refrigerant condensed at this high pressure into a tube having a small diameter. Cold air is generated by lowering the temperature, and cooling is performed since the generated cold air is discharged into the room.

Such cooling devices are used in air conditioners, refrigerators, and kimchi storages. Recently, a spiral condenser having a spiral tube wound in a spiral shape and moving a refrigerant to double the cooling and heating effect is used.

The spiral condenser is wound in a coil shape to allow the refrigerant to move in a spiral shape while increasing the contact area of air to maximize heat exchange efficiency.

1 is a view showing the configuration of a general cooling and heating system, Figure 2 is a view showing a state of a conventional linear condenser installed, Figure 3 is a cross-sectional view of a conventional spiral condenser is installed.

Looking at the configuration of the cooling and heating system 1 of Figure 1, the compressor (2) for compressing the refrigerant moving through the pipeline to a high pressure, and the refrigerant compressed by the compressor (2) to discharge the heat to the outside Condenser (3), an expansion valve (4) for instantaneously expanding the refrigerant condensed in the condenser (3), the refrigerant expanded in the expansion valve (4) and evaporate the heat to the outside to evaporate the temperature It consists of the evaporator 5 which makes it fall.

As shown in Figure 2 or 3, the configuration of the spiral condenser 10 of the present invention, the inlet tube 12 through which the refrigerant is introduced, and the refrigerant introduced into the inlet tube 12 to condense and discharged It consists of a discharge pipe (14).

In addition, the spiral condenser is formed by winding a plurality of layers to keep the spiral shape from the inlet pipe 12 to the outlet pipe 14 and gradually increase in diameter.

In addition, a fixing bracket 20 is provided at one side of the spiral condenser 10 to fix the spiral condenser 10.

The fixing bracket 20 is in contact with the outer side of the helical condenser 10, the pressing piece 22 is in contact with the inner side is fixed by a bolt and nut, the lower end of the fixing bracket 20, the fixing piece formed with a screw hole ( 24 is formed and fixed to the bottom of the case 40 by screws.

The exhaust pipe 14 side of the spiral condenser 10 is provided with a cooling fan 30 to forcibly introduce outside air to heat exchange the refrigerant flowing in the spiral condenser 10.

However, according to the conventional helical condenser as described above, there is a problem that the flow of the outside air forced by the cooling fan to fall between the tube and the tube of the helical condenser is less, the flow is not uniformly distributed, there is a problem that the heat exchange efficiency is inferior.

Accordingly, the present invention has been made to solve the above problems, the present invention is the heat to flow a uniform flow between the tube and the tube of the helical condenser in the outside air introduced by the cooling fan in the spiral condenser An object of the present invention is to increase the heat exchange efficiency by providing an exchange member.

The present invention for achieving the above object is a spiral condenser adjacent to the compressor installed in the case in the spiral condenser to heat exchange condensation with the outside air introduced by the cooling fan, the cooling inside the spiral condenser It is characterized in that the heat exchange member for increasing the heat exchange efficiency by flowing a uniform flow rate of the outside air introduced by the fan to the circumference of the spiral condenser.

Preferably, the heat exchange member is formed inside the spiral condenser to change the direction of the outside air introduced by the cooling fan, coupled to one end of the flow path guide, and the other end is bent to support the coupling It is made of brackets.

The flow guide has a conical shape for guiding the outside air introduced by the cooling fan to the outer circumference of the spiral condenser.

In another embodiment, the flow guide may have various shapes, such as one having a conical shape on one side and one having a conical shape on the other side, and the other having a hemispherical shape. Do.

The above structure is provided with a flow guide inside the helical condenser to change the direction of the introduced outside air to guide the outer circumference of the helical condenser, thereby making the flow flowing between the condensers uniform and widening the area of contact with the outside air. Provides a spiral condenser that increases.

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

In addition, this embodiment is presented by way of example only, not limiting the scope of the present invention, the same parts as the conventional configuration uses the same reference numerals or names.

4 is a view showing a state in which the spiral condenser according to the present invention is installed, Figure 5 is a cross-sectional view of a state in which the spiral condenser is installed according to the present invention, Figure 6 is a view showing the shape of the flow path guide according to the present invention.

As shown, the present invention is in the spiral condenser 10 adjacent to the compressor installed in the case 40 in the helical condenser 10 for heat exchange and condensing the refrigerant in the gas state with the air introduced by the cooling fan 30, the spiral The heat exchange member 100 is provided inside the condenser 10 to increase a heat exchange efficiency by flowing a uniform flow rate of the outside air introduced by the cooling fan 30 around the spiral condenser 10.

The heat exchange member 100 is formed in the inner center of the spiral condenser 10 to change the direction of the outside air introduced by the cooling fan 30 and the flow path guide 110, It is coupled to one end, the other end is made of a support bracket 120 is bent and coupled to the case 40.

Preferably, the flow guide 110 is characterized by having a conical shape in order to flow a uniform flow rate between the tube and the tube of the spiral condenser 10, the outside air introduced by the cooling fan 30.

As another embodiment, as shown in FIG. 6, the flow guide 110 has a conical shape on both sides, a conical shape on one side, and a hemispherical shape on the other side.

In addition, one end of the support bracket 120 is joined to the end of the flow guide 110 by welding, and is bent downwardly, and the other end of the support bracket 122 is formed with a screw hole at an edge thereof. The support piece 122 is fixed to the case 40 by screws.

Hereinafter, the operation and effects of the spiral condenser according to the present invention will be described.

As shown in FIG. 4 or 5, the spiral condenser 10 is fixed to the bottom surface of the case 40 by a fixing bracket 20, and a motor is disposed on the outlet 14 side of the spiral condenser 10. Cooling fan 30 driven by the is formed.

The cooling fan 30 rotates and forcibly introduces outside air into the spiral condenser 10 to heat exchange the refrigerant flowing through the spiral condenser 10.

In this case, a flow guide 110 is provided at an inner center of the spiral condenser 10, the flow guide 110 is welded to one end of the support bracket 120, and the other end of the support bracket 120 is the bottom of the case. Is fixed to.

At the end of the support bracket 120, a support piece 122 having a screw hole formed at an edge thereof is formed to be in contact with the bottom of the case 40 and then coupled by a screw.

The flow guide 110 is formed in a conical shape gradually narrowed toward the outlet 14 to change the direction of the outside air introduced by the cooling fan 30.

The outside air whose direction is changed by the flow path guide 110 is uniformly exited from the outer circumference of the flow path guide 110, that is, between the pipe and the pipe of the spiral condenser 10, and the outside air contacts the spiral condenser 10. As the area of 넓 becomes wider, the efficiency of heat exchange is increased.

As shown in FIG. 6, the flow guide 110 has a conical shape, one conical and the other hemispherical, for example, to suppress vortices.

According to the helical condenser according to the present invention as described above, by providing a heat exchange member inside the helical condenser to change the direction of the incoming air is introduced between the tube and the tube of the helical condenser, the flow falling between the helical condenser tube It is effective to make it uniform and to increase the efficiency of a condenser.

Claims (5)

In the spiral condenser adjacent to the compressor installed inside the case to condense the gaseous refrigerant by heat exchange with the outside air introduced by the cooling fan, A heat exchange member is provided inside the spiral condenser to increase a heat exchange efficiency by flowing a uniform flow rate between the outside air introduced by the cooling fan and the tube of the spiral condenser; The heat exchange member is formed in the spiral condenser and the flow path guide for changing the direction of the outside air introduced by the cooling fan; Spiral condenser is coupled to one end of the flow guide, the other end is bent to form a support piece made of a support bracket coupled to the case. delete The method of claim 1, The flow guide is a spiral condenser characterized in that the conical shape for guiding the outside air introduced by the cooling fan between the tube and the tube of the spiral condenser. The method of claim 1, The flow guide is a spiral condenser, characterized in that the conical in both directions to guide the outside air introduced by the cooling fan between the tube and the tube of the spiral condenser. The method of claim 1, The flow guide is a spiral condenser, characterized in that one of the conical shape, the other is hemispherical shape to guide the outside air introduced by the cooling fan between the tube and the tube of the spiral condenser.

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