KR200385569Y1 - Condenser for water cooled air conditioner with high thermal efficiency - Google Patents

Abstract

The present invention improves the structure of a condenser built in a water-cooled air conditioner, especially in a self-cooling air conditioner that does not require an outdoor unit, but has a spiral nose reciprocated in a zigzag shape inside a sealed support tube spaced apart from the condenser. By connecting through each end of the consistent condensation line, by placing the condensation line about 6 to 8 in the up and down direction, it is continuously connected to the support tube,

The spiral coil tube and the spiral coil tube are reciprocated in a zigzag shape, thereby greatly increasing the cooling area of the condensation line, and forming a plurality of condensation lines continuously so that a plurality of coil tubes having a smaller diameter Since the refrigerant moves simultaneously in two coil pipes, it does not cause any problem in the cooling circulation cycle, and has a cooling area of at least 10 times higher than that of the conventional condensing unit, so that the heat exchange ability is excellent and the cooling efficiency of the air conditioner is greatly improved. It is about the condenser for water-cooled air conditioner that maximizes thermal efficiency.

Description

Condenser for water cooled air conditioner with high thermal efficiency

The present invention improves the structure of a condenser that is built-in and connected to a self-cooling air conditioner that does not require an outdoor unit, and the condenser is formed by connecting a plurality of condensation lines in which a spiral coil body is formed in a zigzag shape. ,

As a result, the contact area with air and cooling water can be greatly increased, and the heat of condensation can be removed quickly and quickly, and the condensation effect is improved. Therefore, the performance of the air conditioner can be greatly improved. It is about the condenser for the water-cooled air conditioner.

An air conditioner, that is, an air conditioner (hereinafter referred to as an air conditioner) is typically used for cooling indoors in summer, and thus serves to lower the indoor temperature by supplying cold air to the indoors.

In general, in an air conditioner, an air conditioner, which is generally referred to, is divided into an evaporation means and a blowing means located in an indoor space, and a condensation means located in an outdoor location. Each of these means is called an indoor unit and an outdoor unit.

In addition, the hot air heater used in winter is to control the temperature by burning the oil and heat the high heat generated through the indoors, and it is common to purchase and use an air conditioner and a hot air fan separately. In some cases, a cooling and heating system with built-in functions is used.

Here, as is well known, the air conditioner is used for cooling indoors in summer, and is a device for cooling external air to discharge cold air into the room, and uses a refrigerant gas for cooling external air, and compresses the refrigerant. For the compressor, an evaporator for absorbing heat in the air while the compressed refrigerant expands, and a condenser for cooling the refrigerant gas heated by absorbing heat from the evaporator.

That is, a conventional air conditioner is divided into an indoor unit having an evaporator and a blower fan installed indoors, and an outdoor unit installed outdoors with a compressor and a condenser, and the indoor unit and the outdoor unit are connected by a refrigerant pipe.

However, as described above, the conventional air conditioner formed separately from the indoor unit and the outdoor unit is complicated to install, and once installed, it is not possible to move, so if you want to move the air conditioner for reasons such as moving, etc. Waste, of course, there was a problem that disassembly and installation is very inconvenient.

Therefore, a self-cooling air conditioner that does not require a separate outdoor unit to enter in recent years is conceived as shown in FIG. 1. Looking at the structure of the air conditioner, the compressor 101, the condenser 102, and the capillary tube are disposed inside the main body 100. The 103 and the evaporator 104 are respectively built in, and the water spray nozzle 105 for cooling the high heat generated from the condenser 102 is located above the condenser 102.

The self-cooling air conditioner cools the refrigerant pipe by air cooling by air and water cooling by water in the inside of the air conditioner main body, and continuously circulates the cooling water so that no condensate is generated. Self-cooled air conditioners without hoses and devices.

However, the self-cooling air conditioner as described above has a problem in that the performance of the air conditioner is deteriorated when the compression, condensation, and evaporation are all performed inside the main body of the air conditioner.

Unlike conventional air conditioners, in which the heat of the condenser is cooled by the large blower fan of the outdoor unit to maximize its thermal efficiency, the condenser that cools the condenser is cooled by the internal cooling water. If the wealth does not cool quickly and effectively, there is a problem that the cooling efficiency is greatly reduced.

Therefore, a general water-cooled air conditioner is formed by bending a common refrigerant pipe in a zigzag shape and cooling the condenser by cooling water sprayed from the upper side of the bent portion. There was a weak problem.

When the cooling efficiency is lowered, even when using high-cost power, effective indoor heating is not achieved. Rather, the use of the indoor and outdoor units is more disadvantage than the advantages of the air conditioner.

The present invention has been made to overcome the problems as described above, while improving the structure of the condenser embedded in the interior of the water-cooled air conditioner, the spiral coil pipe reciprocating in a zigzag shape inside the sealed support tube spaced apart from the condenser By connecting each end of the condensation line of the through, the condensation line is positioned 6 to 8 in the up, down direction by forming a continuous connection to the support tube,

The spiral coil tube and the spiral coil tube are reciprocated in a zigzag shape, thereby greatly increasing the cooling area of the condensation line, and forming a plurality of condensation lines continuously so that a plurality of coil tubes having a smaller diameter Since the refrigerant moves to two coil pipes at the same time, it does not cause any problem in the cooling circulation cycle, and it has a cooling area of at least 10 times higher than that of the conventional condensing unit, so that the heat exchange ability is excellent and the cooling efficiency of the air conditioner is greatly improved. It is an object of the present invention to provide a condenser for a water-cooled air conditioner to maximize the effective thermal efficiency.

Hereinafter, preferred embodiments of the present invention will be described.

Figure 2 is a cross-sectional view of the overall configuration of the water-cooled air conditioner according to the present invention, Figure 3 is a perspective view of the condenser of the water-cooled air conditioner according to the present invention.

The refrigerant compressed by the compressor (2) by the refrigerant tube (8) in the main body (1) passes through the condenser (3), moves the capillary tube (4) and the evaporator (5) sequentially, and again the compressor (2). In the well-known water-cooled air conditioner having a spray nozzle (7) which is circulated in the upper part of the condenser (3), the cooling water is supplied from the pump (6) and discharged to the condenser (3).

The condenser 3 is spaced apart from the sealed support tubes 10 and 10 'on both sides, and a spiral coil tube is reciprocated in a zigzag form in the space between the support tubes 10 and 10'. A plurality of condensation lines (11) (11 ') are formed so that the end is in communication with the support pipe (10, 10'),

A plurality of condensation lines (11, 11 ') are formed in succession up and down, and through each condensation line (11, 11'), the refrigerant flowing from the refrigerant pipe (8) of one support pipe (10) It is configured to circulate along the plurality of condensation lines (11) (11 ') and heat exchange to move to the other support pipe (10').

Referring to the action of the condenser for water-cooled air conditioner maximized thermal efficiency of the present invention having the configuration as described above in more detail as follows.

Referring to the general operating relationship of the water-cooled air conditioner, when the compressor (2) is operated to supply the refrigerant at a high pressure to the condenser (3) inside the main body (1) by the refrigerant pipe 8, the refrigerant is compressed and liquefied High heat is generated in the refrigerant pipe (8),

The cooler is generated by the cooler in a cooler state by properly cooling the coolant tube 8 that generates high heat. Like the conventional water-cooled air conditioner, cooling water is used as the refrigerant catalyst of the coolant tube 8. Therefore, the cooling water formed on one side of the lower part of the air conditioner is discharged at a high pressure by the pump 6 and the cooling water is discharged to the injection nozzle 7 above the condenser 3.

In this case, the cooled refrigerant is introduced into the evaporator 5 through the capillary tube 4, and in this process, the refrigerant in the liquefied state is vaporized and absorbs the surrounding heat, and the absorbed heat inside the evaporator 5. The tubular body is rapidly cooled and cooling air is generated inside the evaporator (5).

Thus, the cooling air generated inside the evaporator 5 is discharged into the room by a separate air conditioner blowing fan (not shown in the drawing) to maintain the room temperature appropriately.

In the cooling cycle as described above, the hot heat generated from the condenser 3 is cooled by the cooling water through the injection nozzle 7, and the condenser 3 has a high temperature as it is continuously heated. The temperature is formed to cool it quickly and quickly to have an efficient cooling performance,

In the related art, since the refrigerant pipe 8 is simply formed in a zigzag shape in the up and down directions, the contact area with the coolant is limited, and thus the cooling efficiency is greatly reduced compared to the amount of power used.

In the present invention, by maximizing the contact area between the condenser (3) and the cooling water, the heat exchange is fast and efficient, thereby greatly improving the cooling efficiency.

In other words, the condenser 3 is not formed by bending the refrigerant pipe 8 as in the related art, but spaces the support tubes 10 and 10 'made of a sealed tube at regular intervals and in the space. A plurality of condensation lines (11) (11 ') are formed, each end of each condensation line (11) (11') is connected to each other in communication with each other connected to the side of the support pipe (10) (10 ') will be.

At this time, the condensation line (11) (11 ') is made of a coiled tube twisted in a spiral as shown in Figure 4, the coil tube is simply from one support tube 10 to the other support tube (10'). Rather than being formed, each end is connected by reciprocating at least three times in a zigzag shape.

Therefore, at least six to eight condensation lines 11 and 11 'of the zigzag-shaped condensation lines are formed in the support tubes 10 and 10' so that the refrigerant supplied from the compressor 2 is connected to the refrigerant tube. When it enters into the one support tube 10 by 8, it is distributed and moved to each condensation line 11 (11 '), and reaches the end of the condensation line 11 (11') of the other side again. Gathered to the support tube (10 ') is moved back to the capillary tube (4) through the refrigerant tube (8).

Therefore, the high heat generated in the condensation lines 11 and 11 'while moving from one support tube 10 to the other support tube 10' is maximized by the condensation lines 11 and 11 '. By the area, the temperature is lowered at a remarkably faster rate than in the prior art, and the rate of decrease is fast and low, so that cold air can be generated at a lower temperature from the evaporator 5.

Therefore, compared with the conventional water-cooled air conditioner, it is possible to obtain a significantly improved cooling efficiency even with the same amount of power. On the basis of the same cooling efficiency, the power consumption of the air conditioner according to the present invention is greatly reduced and thus very economical.

The condenser for water-cooled air-conditioner that maximizes the thermal efficiency of the present invention as described above is composed of a spiral coil tube and a spiral coil tube reciprocating in a zigzag shape, whereby the cooling area of the condensation line is greatly increased, and a plurality of condensation lines are continuously connected. Even though the coil pipe having a smaller diameter is connected to the coil, the refrigerant moves simultaneously to the plurality of coil pipes, which does not cause any problem in the cooling cycle, and has a cooling area of at least 10 times higher than that of the conventional condensing unit. The ability to be excellent is proportionately improving the cooling efficiency of the air conditioner.

1 is a cross-sectional view showing the overall configuration of a conventional water-cooled air conditioner

Figure 2 is a cross-sectional view of the overall configuration of a water-cooled air conditioner according to the present invention

3 is a perspective view of a condenser of a water-cooled air conditioner according to the present invention

Figure 4 is a partially enlarged perspective view of the condensation unit of the water-cooled air conditioner according to the present invention

Explanation of symbols on main parts of drawing

1: main body 2: compressor

3: condenser 4: capillary tube

5: evaporator 6: pump

7: injection nozzle 8: refrigerant tube

10,10 ': Support pipe 11,11': Condensation line

Claims (1)

The refrigerant compressed by the compressor (2) by the refrigerant tube (8) in the main body (1) passes through the condenser (3), moves the capillary tube (4) and the evaporator (5) sequentially, and again the compressor (2). In the well-known water-cooled air conditioner having a spray nozzle (7) which is circulated in the upper part of the condenser (3), the cooling water is supplied from the pump (6) and discharged to the condenser (3). The condenser 3 is spaced apart from the sealed support tubes 10 and 10 'on both sides, and a spiral coil tube is reciprocated in a zigzag form in the space between the support tubes 10 and 10'. A plurality of condensation lines (11) (11 ') are formed so that the end is in communication with the support pipe (10, 10'), A plurality of condensation lines (11, 11 ') are formed in succession up and down, and through each condensation line (11, 11'), the refrigerant flowing from the refrigerant pipe (8) of one support pipe (10) Condenser for water-cooled air conditioner maximizing thermal efficiency, characterized in that configured to move along the plurality of condensation lines (11) (11 ') and heat exchange to move to the other support pipe (10').