KR20120055021A - Air conditioner which is not the outdoor unit - Google Patents

Abstract

PURPOSE: An air-conditioner without an outdoor unit is provided to generate cold air only with a cooling-water circulation operation through a double-cooling structure of a coolant circulation and small power of a miniature compressor. CONSTITUTION: An air-conditioner without an outdoor unit comprises coolant circulation pipes, cooling water circulation pipes, a condensation tube(50), condensation water pipe(52), and a blast pipe. The condensation tube, which stores condensation water evaporates a part of condensation water with cooling the heat of a compressor through condensation water inlet(54). The condensation water pipe circulates and supplies a part of the condensation water to the other side of coolant tubes without being vaporized. An air blower is installed in a space, in which the cooling water circulating pipes(40b) and the compressor(60) are formed and cools indoor air by forcibly blowing ambient air heat-exchanged with the cooling water to outside.

Description

Air conditioner without outdoor unit {Air conditioner which is not the outdoor unit}

The present invention relates to an air conditioner that does not require a new concept outdoor unit that can generate cold cold air by simply supplying and circulating cooling water with a small power source whenever and wherever it is needed. The present invention relates to an energy-saving outdoor unit-less air conditioner capable of generating and discharging cold air as the coolant is rapidly cooled and circulated and supplied even with low power consumption according to the refrigerant cooling operation of the dual cooling structure rather than the cycle cooling principle.

In general, an air conditioner is an abbreviation of an air conditioner (air conditioner), and refers to a device or a system that draws heat from a specific area by using a cooling circuit. In general, as shown in the principle diagram of FIG. The compressed refrigerant is liquefied in the condenser 32 and then evaporated in the evaporator 35 through the expansion valve 34. The latent evaporation heats the air sucked by the blower Fan 33 and discharges it into the room. Refers to a kind of cold air.

In such an air conditioner, how effectively the heat generated from the condenser 32 is removed when condensing the refrigerant depends on the overall performance and cooling capacity of the air conditioner, and various methods and methods for effectively cooling the condenser 32 may be implemented. Is being developed. However, the conventional air conditioner is divided into indoor and outdoor units and installed in the indoor and outdoor areas, respectively, so that the manufacturing cost is increased, and the limitation of space and the installation work itself are very cumbersome and inconvenient as the outdoor unit is installed separately from the indoor unit. There is this.

Recently, the demand for air conditioner without outdoor unit is increasing rapidly due to the difficulty of securing the space to install outdoor unit and aesthetics. Especially, the outdoor unit without air conditioner that can cool a small room while moving conveniently is widely required. have.

In the conventional air conditioner without outdoor unit, water was often used to cool the condenser. In this case, the air conditioner required a complicated structure consisting of a water jet plate, a pump, a water transfer pipe, and a water tank. As it is used, the cooling effect on the condenser is very low compared to the air conditioner with the outdoor unit due to the increase in the temperature of the water and foreign matter contained in the water stick to the condenser.

In particular, the existing air conditioner without outdoor unit is not the energy saving type, because instead of the cold air comes out by the law of constant energy, high heat is generated while the heat is generated in the compressor continuously. There is a limit.

Therefore, the present invention can be easily carried and used anywhere and anytime where needed as an air conditioner without an outdoor unit, not the cooling principle of a refrigeration cycle applied in an existing outdoor air conditioner. Cooling air can be generated by the circulating action of the coolant that can be rapidly cooled through the dual cooling structure of the system, requiring an entirely new concept outdoor unit with energy saving and excellent cooling efficiency with little noise and self-heating Its purpose is to provide air conditioners without outdoor units.

The air conditioner without the outdoor unit of the present invention for achieving the above object is a spring form on the inside and the outside of the cooling tank having a double structure so that the refrigerant which is compressed at a high temperature and high pressure by a compressor and the circulating operation is increased in contact with the cooling water (supplemental water). A refrigerant circulation pipe wound into and wound between the compressor and the cooling tank; One side is connected to the cooling tank so that the cooling water or the supplementary water flows into the space of the cooling tank having a dual structure and is rapidly cooled in a multi-sided manner by the refrigerant in the refrigerant circulation pipe, and most of the extended pipe lines are internal spaces of the air conditioner. A cooling water circulation tube having a cooling radiator (condenser) function so that indoor air can be heat-exchanged by cold cooling water zigzag and circulated in a phase; The dew condensation water is condensed out of the cooling water circulation pipe during the heat exchange process with indoor air installed at the lower part of the cooling water circulation pipe and the upper part of the compressor. A condensation tank to make it possible; Part of the condensation water that cools the heat of the compressor is condensed water condensation condensed water condensation condensed water condensed water condensed water pipes to be circulated again to the other side of the cooling tank with the cooling water of the cooling water circulation pipe and the double condensed water and; Installed in the cooling water circulation pipe and the compressor-side space, respectively, by forcibly blowing out the ambient air that is cold heat exchanged by the cooling water of the cooling water circulation pipe to the outside to cool the indoor air and forcibly blown the heat exchange of the condensation water to the heat of the compressor. The blower fan is basically included.

In addition, the cooling tank is a double structure space inside and outside, and the supplementary water tank is installed at the upper side so that the supplementary water corresponding to the cooling water can be circulated through the cooling water of the cooling water circulation tube along with the refrigerant in the refrigerant circulation tube. The supplementary water tank has an air access hole formed at a lower side thereof, and a water supply port is formed at an upper side thereof, and a supplemental water pipe is connected to both sides of the supplementary water supply circulation to the cooling tank.

In addition, the cooling tank has a circulation pump and a check valve at the corresponding connection portion so that the supplementary water of the supplementary water pipe can be selectively circulated as the cooling water circulated through the cooling water pipe is uniformly rapidly cooled by the refrigerant of the double-circulated refrigerant circulation pipe. It is installed, in particular, the inner space of the cooling tank is characterized in that the installation of a temperature sensor for detecting the cooling temperature.

As described above, the air conditioner without an outdoor unit according to the present invention is not an air conditioner without an outdoor unit, but a free air conditioner applied to a conventional air conditioner. Even with a small power supply of this compact compressor, it is possible to generate cool air to the surroundings by the circulating action of the coolant which can be rapidly cooled through the dual cooling structure of the refrigerant circulation, so it is energy-saving and excellent cooling with little noise and self-heating. Efficiency can be provided.

1 is a working principle of an air conditioner having an outdoor unit by a conventional refrigeration cycle.
2 and 3 is a system configuration diagram of an outdoor unit without an air conditioner according to the basic and application embodiments in which the air conditioner is operated without the outdoor unit through the cooling circulation structure of the coolant that can be multi-uniform rapid cooling according to the present invention.
Figure 4 is a device configuration of a cooling tank configured to install a refrigerant circulation pipe in a double cooling structure so that the outdoor air conditioner without the outdoor unit of the present invention can be implemented.

Hereinafter, with reference to the accompanying drawings of the preferred embodiment of the present invention the specific configuration relationship and operation principle for the outdoor unit air conditioner of the present invention will be described in detail.

2 and 3 is a coolant circulation pipe (20a) of the cooling water is circulated separately from the refrigerant into the cooling tank (10a) (10b) space while the refrigerant of the compressor is circulated through the cooling tank space of the dual structure according to the present invention ( 20b) is rapidly cooled by a multi-sided uniform heat exchanger, and passes through one cooling water circulation pipe 40b installed in the air conditioner interior space in a zigzag to function as a cooling radiator (condenser). The outdoor unit having a function of discharging air to the outside of the air conditioner in such a state that compression of the refrigerant by the compressor 60 to a high temperature and high pressure and heat exchange with ambient air by a condenser of the cold refrigerant may occur. The configuration shows the basic system configuration in which the air conditioner is operated together with the indoor unit configuration without the outdoor unit integrally structured in the air conditioner interior space.

First, in the basic embodiment of FIG. 2, the refrigerant from the compressor 60 is passed through, and the circulation operation of directly repeating the output to the compressor 60 without passing through a separate condenser is performed in the cooling tanks 10a and 10b of the dual structure. The refrigerant circulation tubes 20a and 20b are dually installed in a double structure space of the cooling tanks 10a and 10b in a spring form so that the input side and the output side are connected to the compressor 60, respectively. With the flow of the refrigerant through the refrigerant circulation pipes (20a) and (20b), the cooling water is passed through the cooling tank (10a) (10b) space of the dual structure and the circulation operation is repeated again and output is made, the cooling tank of the dual structure (10a) (10b) In the outer air conditioner internal space, the cooling water circulation pipe 40b in which the cooling radiator pipe corresponding to the condenser is formed is basically separated from the refrigerant circulation pipes 20a and 20b. Connection installation on one side and the other side of 10b) Make up the relationship.

In addition, in the application embodiment of FIG. 3, the supplementary water is spaced in the cooling tanks 10a and 10b as necessary to fill the loss due to natural condensation water evaporation of the cooling water in the basic embodiment of FIG. The supplementary water tank 70 and the supplemental water pipes 30a and 30b on both sides of the supplementary water tank 70 to be circulated in and out are installed to illustrate an advanced configuration relationship. In addition, Figure 4 is a refrigerant circulation pipe (20a, 20b) is basically a spring form so that the air conditioner without the outdoor unit of the present invention can be implemented in the inner and outer space of the cooling tank (10a) (10b) of the dual cooling structure, respectively Installed in the coolant circulation pipes (20a) and (20b) disposed in the cooling tanks (10a) and (10b) so that the refrigerant flows into and out of the compressor (60). It is a schematic diagram showing the device configuration of the basic cooling principle to enable multi-faceted uniform rapid cooling.

Unlike conventional air conditioners that require an outdoor unit (including most compressors and condensers through which refrigerant is passed) by applying a cooling principle of a conventional refrigeration cycle, the air conditioner without an outdoor unit of the present invention is operated by a compressor 60 at a high temperature and high pressure. The refrigerant to be compressed is passed through only the spaces of these cooling tanks by the refrigerant circulation pipes 20a and 20b respectively disposed in the form of springs in the cooling tanks 10a and 10b of the dual cooling structure and returned to the compressor 60 again. The repetitive circulation operation is performed, and the cooling reaction for exchanging the ambient air that is relatively hot compared to the cooling temperature of the refrigerant is not the refrigerant, but the cooling tank 10a of the dual cooling structure in which the refrigerant circulation tubes 20a and 20b are disposed. A cooling method in which the ambient air is heat-exchanged by the cooling water of the separate cooling water pipes 40a and 40b that circulates through the 10b, and the ambient air is not a cool refrigerant but is provided in the cooling tanks 10a and 10b of the dual cooling structure. by If it forms a uniformly rapid cooling by the cooling water, it may be integrated with the internal configuration of the configuration of the indoor air-conditioning outdoor unit structurally.

First, as shown in the drawing, the refrigerant circulates so that the cooling water filled in the cooling tanks 10a and 10b space by the refrigerant circulating through the cooling tanks 10a and 10b space of the dual cooling structure can be rapidly cooled uniformly. The tubes 20a and 20b are wound in a spring form in the spaces of the inner and outer cooling tanks 10a and 10b having a double cooling structure, and one refrigerant circulation tube 20a is removed from the compressor 60. While the refrigerant output of the refrigerant circulation pipe (20b) of the other is connected by the refrigerant circulation pipe (20a) passed through the cooling tank (10a, 10b) so that the refrigerant is returned to the compressor 60, the circulation operation do. In other words, the refrigerant is installed and connected only to the compressor 60 and the cooling tanks 10a and 10b of the dual cooling structure, and does not need to be connected to the configuration on other refrigeration cycles.

In addition to the dual cooling spaces of the cooling tanks 10a and 10b through which the refrigerant flows through the refrigerant circulation tubes 20a and 20b, the refrigerant flow by the refrigerant circulation tubes 20a and 20b is separated from the outside. One side of the cooling water circulation tube at one bottom of the cooling tank (10a) (10b) so that the multi-way uniform rapid cooling with the refrigerant while the inlet and discharge of the cooling water by the cooling water circulation pipe (40a, 40b) of the The cooling water 40a is connected and rapidly cooled through heat exchange with the refrigerant, and is discharged to the outside of the cooling tank 10a through the one cooling water circulation pipe 40a to circulate while exchanging ambient air to a cold cold state. The other cooling water circulation pipe 40b is zigzag-spaced in a predetermined space so as to form a condenser (cooling radiator) section for allowing air to be blown out of the air conditioner and is connected to the bottom of the other side of the cooling tank 10a.

In particular, the cooling water circulation pipe 40b formed in a zigzag to correspond to the condenser section is provided with a separate condensation water tank 50 between the compressor 60 located below the heat exchanger by the cooling water circulation pipe 40b. Condensation water may be generated due to condensation due to contact with surrounding indoor air, and a separate condensation tank 50 in which condensation water may be collected in a lower section of the cooling water circulation pipe 40b in a space above the compressor 60. Configure it for installation. In addition, the condensation water condensed out of the cooling water circulation pipe 40b is introduced into the condensation tank 50 under the heat exchange process between the cool cooling water and the relatively hot indoor air between the upper side of the compressor 60 and the compressor 60. The condensation water inlet 54 is installed to allow the evaporation to naturally occur while cooling the heat.

And the condensation water inlet 54 with the condensation water tank 50 on the upper side, if the proper evaporation operation of the condensation water is not smoothly made for a variety of reasons, the cooling tank 40a (40b) so that the excess of condensation water does not occur It is preferable that a separate condensation water pipe 52 is installed to be connected so as to be branched together toward the cooling water circulation pipe 40b connected to). That is, when the condensation water that is introduced through the condensation inlet port 54 and cools the heat of the compressor 60 cannot be evaporated, the condensation water does not overflow and is naturally cooled together with the cooling water circulation pipe 40b and the cooling tanks 40a and 40b. It is connected to the cooling water purifying pipe (40b) so as to flow into the () to form a cooling water input side of the cooling tank (40a, 40b) together.

In addition, the one side of the cooling water circulation pipe 40b and the condensation water pipe 52 connected to one side of these cooling tanks 10a and 10b allows the entrance direction of the cooling water and the condensation water to be selected. 56 is installed, the circulation pump may be installed so that the power generation capacity or a smooth flow of the cooling water can be made.

In addition, the coolant circulation pipe 40b disposed in a zigzag pattern corresponding to the condenser section has a separate blower 42 installed around the air to be blown out to the outside of the air conditioner in a cold state by heat-exchanging the surrounding air by the cold cooling water passing through. In addition, the compressor 60, which generates heat at a high temperature while compressing the refrigerant at a high temperature and high pressure, is also preferably provided with another blower 62 having a relatively smaller capacity than the upper blower 42 therein.

Meanwhile, the air conditioner without the outdoor unit of the present invention circulates the refrigerant by the refrigerant circulation pipes 20a and 20b in the cooling tanks 10a and 10b of the dual cooling structure without departing from the principle of operation according to the above-described basic embodiment. Along with the cooling water circulation pipes (40a, 40b) is a multi-faceted uniform rapid cooling of the cooling water, the cooling is made through heat exchange with the relatively hot ambient air by the circulation operation of the cooling water cool air is blown to the outside It can be operated, if it is necessary to replenish the coolant naturally when there is a shortage of coolant circulating through the coolant circulation pipe (40b) in accordance with the use of the air conditioner for a long time in the hot summer, it is necessary to supplement The water tank 70 may be installed above the cooling tanks 10a and 10b.

That is, the cooling tank (10a) (10b) is a double structure space of the inside and the outside as the cooling water of the cooling water circulation pipe (40a, 40b) together with the refrigerant of the refrigerant circulation pipe (20a, 20b) is passed as needed Accordingly, the supplementary water tank 70 is installed and coupled to the upper side so that the supplementary water corresponding to the cooling water can be circulated. The supplemental water tank 70 has an air access hole 72 connected to the cooling tank 10a and 10b at the lower side thereof. As the water supply port 74 is formed to be opened and closed as a cover on the upper side, the replenishment water pipes 30a and 30b on both sides so that supplemental water can be circulated to the cooling tanks 10a and 10b on the lower side. ) Is configured for connection.

In addition, the replenishment water pipes 30a and 30b for supplying and circulating the replenishment water to the cooling tanks 10a and 10b are also supplied to the cooling water tanks 10a and 10b to circulate the cooling water to the refrigerant circulation pipes 20a and 20b. One side of the supplementary water pipes 30a and 30b may be provided with a circulation pump 44 installed to enable a smooth circulation operation of the cooling water rapidly cooled by the multi-sided uniform heat exchange by the refrigerant. In addition, the cooling tank (10a) (10b) of the dual cooling structure is provided with a temperature sensor 12 for sensing the cooling temperature in the lower middle of the inner space.

The outdoor air conditioner without the outdoor unit of the present invention constituted as described above, after the cooling water cooled in the cooling tank (10a) (10b) of the dual cooling structure is appropriately temperature-controlled to the ambient indoor air, It does not change much by setting the external temperature and temperature deviation to around 5 degrees without changing the cooling operation. In addition, as the cooled coolant is not exposed to the outside and circulated through the coolant circulation pipes 40a and 40b, there is no problem in the heat exchange action of the coolant to ambient air because moisture does not come out or occur outside. For example, when the outdoor ambient temperature is 30 degrees, since the cooling water for heat-exchanging the ambient air through the cooling water circulation tube 40b can flow as a cooling temperature of 22-25 degrees, it is also because the temperature variation is not large.

In addition, the present invention is because the condenser (cooling radiator) flowing through the cooling water condensation tube (40b) there is condensation occurs in the water because the condensation tank is a collecting tank for collecting the condensed water in the cooling wind going out portion Thus, the collected water (condensation water) is collected in the condensation water inlet 54 space above the compressor 60, and the condensation water naturally evaporates in the upper portion of the compressor 60 heated according to the operation. It also helps to reduce the hot heat of).

In particular, in the case of the conventional cold air conditioner without outdoor unit noise and self-heating was a problem, the air conditioner without the outdoor unit of the present invention is applied to a compact compressor 60 of 1/12 size (capacity) compared to that applied to a conventional air conditioner Therefore, the noise, vibration and heat generation are insignificant, and as a result, it is economical because it is possible to use cooling water of the most suitable temperature as energy saving type.

That is, if the indoor temperature is high in the hot summer, the operation time of the compressor 60 is long, and thus the indoor temperature due to the compressor may be increased. However, as the cooling water flows, natural cooling air is generated by the blower, so that some cooling water or condensation water is circulated. It is possible to cool the hot heat of the compressor without directly flowing into the cooling tank, and in some cases, between the compressor 60 and the blowing fan 62, a cooling water circulation pipe 40b corresponding to a small condenser (cooling radiator) is provided. In addition, it is possible to further ban the heat of the compressor by making the branch connection so that the cold wind can be delivered to the compressor (60). This in turn causes the cooling air to be regenerated through the cooling water circulating pipe of another condenser (cooling radiator) flowing coolant in front of the compressor in order to lower the temperature of the compressor again. This prevents the room temperature from rising.

10a, 10b: cooling tank 12: temperature sensor
20a, 20b: refrigerant circulation pipe 30a, 30b: supplementary water pipe
32,44: Circulation pump 34,56: Check valve
40a, 40b: cooling water pipe 42, 62: blowing fan
50: condensation tank 52: condensation pipe
54: dew condensate inlet 60: compressor
70: replenishment tank 72: air access hole
74: water supply port

Claims (3)

The refrigerant compressed by the compressor 60 at high temperature and high pressure is circulated and wound in a spring form on the inside and outside of the cooling tanks 10a and 10b having a double structure to increase the contact area with the cooling water (supplemental water). A refrigerant circulation tube (20a) (20b) connecting the compressor and the cooling tank;
One side of the cooling tank 10a, 10b to the space of the dual structure so that the coolant or replenishing water flows in and passes by the refrigerant in the refrigerant circulation pipes (20a, 20b), one side to the other in the cooling tank Cooled water circulation pipes 40a and 40b which have a cooling radiator (condenser) function so that most of the connected and extended pipes are arranged in a zigzag pattern on the inner space of the air conditioner so that the indoor air can be heat-exchanged coldly by circulating cold cooling water. )and;
It is installed on the lower portion of the cooling water circulation pipe (40b) and the compressor 60, the condensation water condensed out of the cooling water circulation pipe during the heat exchange process with the indoor air is stored in the portion of the condensation water through the condensation water inlet 54 of the lower side Condensation tank (50) for cooling the heat of the compressor to evaporate;
A portion of the condensation water that cools the heat of the compressor 60 is condensed without evaporation, and the refrigerant circulation pipes 20a and 20b are doubled again together with the cooling water of the cooling water circulation pipe 40b. A condensation water pipe 52 for allowing the supply circulation to the other side of the cooling tanks 10 and 10b;
The cooling air circulation pipe 40b and the compressor 60 are respectively installed in the spaces of the cooling water circulation pipe and forced to blow out the ambient air that is coldly heat exchanged by the cooling water of the cooling water circulation pipe to cool the indoor air, and the heat exchange of condensation water with respect to the heat of the compressor. The air conditioner without an outdoor unit, characterized in that it comprises a corresponding blowing fan (42) (62) which is forced to blow the double. The method according to claim 1,
The cooling tanks 10a and 10b are dual structure spaces inside and outside, and together with the refrigerant in the refrigerant circulation tubes 20a and 20b, the cooling water in the cooling water circulation tubes 40a and 40b is circulated as needed. The supplementary water tank 70 is installed and coupled to the upper side so that the supplementary water corresponding to the cooling water can be circulated. The supplementary water tank has an air access hole 72 formed at the lower side thereof, and a water supply port 74 is formed on the upper side. The air conditioner without the outdoor unit, characterized in that the replenishment water pipe (30a) (30b) is connected to both sides so that the replenishment water supply circulation to the cooling tank. The method according to claim 1,
The cooling tanks 10a and 10b are circulated through the coolant pipes 40a and 40b by the coolant that is rapidly and uniformly cooled by the refrigerant in the double-circulated coolant circulation pipes. Circulation pumps 32 and 44 and check valves 34 and 56 are installed at the connection part so that the supplementary water can also be circulated selectively. Air conditioner without outdoor unit, characterized in that the installation is configured.

Images