KR19980045833U - Condenser Structure of Air Conditioner - Google Patents

Abstract

The present invention is installed in an air conditioner to provide a condenser structure of an air conditioner installed in an air conditioner and improving the structure of the condenser that heat-exchanges the refrigerant flowing therein with external air, thereby preventing damage to the refrigerant pipe by the tube plate. And forming a condenser for exchanging heat, comprising: a refrigerant pipe flowing inside and zigzag, a plurality of cooling fins fitted to radiate heat to an outer circumferential surface of the refrigerant pipe, and a plurality of cooling fins formed at both ends thereof. A tube plate for fixing the tube to the refrigerant pipe, a plurality of fitting holes formed in the tube plate, into which the refrigerant pipe is fitted, and protrusions protruding in a cylindrical shape along the outer circumferential surface of the fitting hole to widen the contact area between the tube plate and the refrigerant pipe. It is characterized by.

Description

Condenser Structure of Air Conditioner

The present invention relates to a condenser structure of an air conditioner, and more particularly, an air conditioner installed in an air conditioner and improving the structure of a condenser that exchanges refrigerant flowing therein with external air to prevent damage to the refrigerant pipe. Of the condenser structure.

In general, an air conditioner is manufactured separately from an indoor unit provided with an evaporator and an outdoor unit installed with a condenser and a compressor.

As shown in FIG. 1, the outdoor unit 1 of the separated air conditioner is provided with a compressor 4 for compressing a refrigerant at a high temperature and high pressure at one side, and compressed at a high temperature and high pressure at the rear of the compressor 4. A condenser 3 is installed to liquefy the condensed refrigerant and condense it to room temperature.

In addition, a cooling fan 2 is installed in front of the condenser 3 to suck the outdoor air toward the condenser 3 and blow the air forward to cool the condenser 3.

In addition, a lower support 7 on which the condenser 3, the compressor 6, and the like are placed is formed, and an outdoor unit main body (not shown) is installed.

In addition, an evaporator is installed in an indoor unit (not shown) to absorb ambient heat in the process of evaporating the liquid refrigerant introduced from the outdoor compressor (6), so that the refrigerant itself becomes high temperature and the surrounding air is cooled to low temperature. It is cooling.

And, Figure 2 is a perspective view of a diaphragm coupled to a conventional condenser, Figure 3 is a cross-sectional view of the main portion showing the condenser structure of the conventional air conditioner.

The condenser (3) is arranged in a zigzag refrigerant pipes 6 through which the refrigerant flows therein, and a plurality of heat dissipation fins (8) for radiating heat generated therefrom to the outer circumferential surface of each refrigerant pipe (6) to the outside. Is formed.

On the other hand, the tube plate (7) is fitted to both ends of the condenser (3) is configured to fix the refrigerant pipe (6) and a plurality of cooling fins (8).

At this time, the tube plate 7 is formed in a rectangular plate shape and a plurality of insertion holes (7a) is formed so that the refrigerant pipe (6) is fitted.

In the conventional air conditioner configured as described above, when the cooling starts, the cooling fan 2 rotates and the compressor 6 is operated. In the compressor 6, the refrigerant is compressed to a high temperature and high pressure and then circulated toward the condenser 3. The air condenser 3 is cooled by air circulated by the rotation of the cooling fan 2.

That is, when the cooling fan 2 is rotated, the outdoor air is sucked into the outdoor unit 1 and then passes through the condenser 3 at the rear. At this time, while a strong wind passes through the cooling fins 6 on the outer circumferential surface of the condenser 3, the heat of the refrigerant in the refrigerant pipe 4 is radiated to the outside, cooled, and then discharged forward.

Therefore, a copper tube with high thermal conductivity is widely used for the refrigerant pipe 4.

Thereafter, the refrigerant condensed at low temperature and low pressure in the condenser 3 is circulated toward the evaporator of an indoor unit (not shown), and the refrigerant in the double liquid state evaporates to absorb the heat of the indoor air, thereby cooling the room coolly.

On the other hand, the outdoor unit (1) is a severe vibration is generated by the operation of the compressor (4) and the cooling fan (2) affects the peripheral device, including the condenser (3), in particular a lot of influence on the condenser (3) Receipt requires prevention.

Therefore, the condenser (3) is to install the tube plate (7) on both sides of the left and right to more firmly fix the condenser (3) consisting of the refrigerant pipe (6) and the cooling fin (8).

However, the condenser of the conventional air conditioner as described above can prevent the vibration of the left and right by a tube plate formed at both ends and firmly fixed to the left and right sides of the vibration generated from the compressor and the cooling fan. There was a problem that the refrigerant tube of relatively low strength is broken by vibration.

The present invention was created in view of the above-mentioned problems. The air conditioner installed in the air conditioner and improving the structure of the condenser for exchanging the refrigerant flowing therein with the outside air prevents the damage of the refrigerant pipe by the tube plate. The purpose is to provide a condenser structure.

1 is a perspective view showing the inside of an outdoor unit of a conventional air conditioner.

Figure 2 is a perspective view of the diaphragm coupled to the conventional condenser.

Figure 3 is a sectional view showing the main part of the condenser structure of a conventional air conditioner.

Figure 4 is a perspective view of the diaphragm coupled to the present invention condenser.

Figure 5 is a main cross-sectional view showing a condenser structure of the present invention air conditioner.

* Description of the symbols for the main parts of the drawings *

10-condenser, 11- refrigerant tube,

12-tube plate, 13-cooling fin,

12a-protrusion, 12b-fitting hole.

In order to achieve the above object, the present invention provides a condenser that is installed in an air conditioner and performs heat exchange, and includes a refrigerant tube in which a refrigerant flows in a zigzag and a heat radiating action on an outer circumferential surface of the refrigerant tube. Cooling fins, tube plates formed at both ends and fixing the plurality of cooling fins to the refrigerant pipe, a plurality of fitting holes formed in the tube plates to which the refrigerant pipes are fitted, and cylindrical along the outer circumferential surface of the fitting holes. A protruding protrusion is formed to widen the contact area between the tube plate and the refrigerant pipe.

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

Figure 4 is a perspective view of a diaphragm coupled to the present invention condenser, Figure 5 is a cross-sectional view showing the main part of the condenser structure of the present invention air conditioner.

In the condenser 10 installed in the air conditioner to perform a heat exchange action, there is provided a refrigerant pipe (11) tube is formed in a zigzag and the refrigerant flows therein.

At this time, the refrigerant pipe 11 is preferably formed of a copper tube with high thermal conductivity.

A plurality of cooling fins 13 are fitted to the outer circumferential surface of the refrigerant pipe 11, and tube plates 12 are formed at both ends thereof to fix the cooling fins 13 to the refrigerant pipe 11. .

The tube plate 12 is provided with a plurality of fitting holes 12b into which the refrigerant pipe 11 is fitted, and a protrusion 12a protruding in a cylindrical shape along the outer circumferential surface of the fitting hole 12b.

In describing the operation of the present invention configured as described above, the same components as the conventional air conditioner will be described in detail with the same reference numerals with reference to the accompanying FIG.

When the cooling operation of such an air conditioner starts, the cooling fan 2 rotates and the compressor 4 operates.

At this time, the refrigerant is compressed to a high temperature and high pressure in the compressor (4) and then circulated toward the condenser (3), and the outdoor air is sucked into the outdoor unit (1) by the rotation of the cooling fan (2) and then the condenser (3) Pass). That is, while a strong wind passes through the cooling fin 13 of the condenser 3, the heat inside the refrigerant pipe 11 is radiated to the outside, cooled, and then discharged forward.

In this process, severe vibrations are generated from the compressor 4 and the cooling fan 2, and the vibrations are transmitted to the peripheral device including the condenser 3.

At this time, the condenser (3) is to fix the refrigerant pipe 11 and the cooling fins 13 more firmly with each other by the tube plate 12 installed on both sides.

The condenser 10 prevents the vibration of the left and right sides by the tube plate 12 formed at both ends of the vibration generated from the compressor 4, the cooling fan 2 and the like and firmly fixed to the left and right sides.

On the other hand, the refrigerant pipe 11 is fixed by the projection 12a formed in the tube plate 12 to prevent damage to the refrigerant pipe 11 due to the vibration in the vertical direction.

That is, the coolant tube 11 is inserted into the fitting hole 12b and a projection 12a protruding in a cylindrical shape along the outer circumferential surface thereof, thereby widening the contact area between the tube plate 12 and the coolant tube 11. .

Therefore, the force applied to the refrigerant pipe 11 is dispersed in a large area to prevent damage to the refrigerant pipe 11.

Thereafter, the refrigerant condensed by condensation at low temperature and low pressure in the condenser 3 is expanded and then circulated toward the evaporator of an indoor unit (not shown), so that the refrigerant in a double liquid state evaporates to absorb external heat, thereby cooling the room coolly.

As described above, the present invention is not limited to the contents described in the above embodiment, and all modifications, variations, and improvements included in the contents of the utility model registration claims without departing from the spirit and principles of the present invention. This is to be included.

As described above, the present invention improves the structure of the condenser installed in the air conditioner and heat exchanges the refrigerant flowing therein with external air, thereby widening the contact area between the tube plate and the refrigerant pipe, thereby preventing the refrigerant pipe from being damaged. have.

Claims (1)

In forming the condenser 10 installed in the air conditioner to exchange heat, Refrigerant flows through the refrigerant and is formed in a zigzag refrigerant pipe (11), A plurality of cooling fins 13 fitted to radiate heat to an outer circumferential surface of the refrigerant pipe 11; Tube plates 12 formed at both ends and fixing the plurality of cooling fins 13 to the refrigerant pipe 11, A plurality of fitting holes 12b formed in the tube plate 12 and into which the refrigerant pipe 11 is fitted; And, the condenser structure of the air conditioner, characterized in that the projection (12a) protruding in a cylindrical shape along the outer circumferential surface of the fitting hole (12b) to widen the contact area between the tube plate 12 and the refrigerant pipe (11).