KR200178858Y1 - Outdoor machine of multi-airconditioner - Google Patents

Abstract

The present invention relates to an outdoor unit of a multi-air conditioner, and in an outdoor unit of a multi-air conditioner in which an outdoor heat exchanger and a compressor are mounted on a base plate having a rim wall formed at a predetermined height at a periphery thereof, Partition walls are formed at predetermined intervals, and the upper surface of the base plate is divided into first and second component mounting surfaces around the partition wall, and a heat exchanger mounting portion is formed on one side of the first and second component mounting surfaces. Each of the first and second outdoor side heat exchangers separated from the mounting portion is provided, and compressed refrigerant is supplied to the first and second outdoor side heat exchangers on the other side of the first and second component mounting surfaces, respectively. And first and second compressors, respectively, and discharge moisture generated from the first and second outdoor side heat exchangers to predetermined portions of the first and second component installation surfaces. Forming a drain for artificial Pointing respectively characterized in that configured.

In the present invention configured as described above, when the indoor unit separately installed in each room performs a different function, for example, the ambient temperature of the outdoor heat exchanger that performs heating when the defrost function and the heating function respectively perform Each outdoor side heat exchanger operates normally because it does not affect the outdoor side heat exchanger located on the side.

Description

Outdoor unit of multi-air conditioner {OUTDOOR MACHINE OF MULTI-AIRCONDITIONER}

The present invention relates to a multi-air conditioner, and more particularly, to an outdoor unit of a multi-air conditioner so as to prevent malfunction of each outdoor-side heat exchanger by separately installing a plurality of outdoor-side heat exchangers mounted on the outdoor unit of the multi-air conditioner.

In general, an air conditioner is a device for maintaining indoor or indoor air in an optimal condition according to a purpose of use. The air conditioner is a compressor, an outdoor side heat exchanger, a capillary tube, an indoor side heat exchanger, and a part connecting the above components It is composed of components such as a circulation tube to reduce the temperature around the air conditioner by using the latent heat of evaporation when the refrigerant circulating the component changes from the liquid state to the gas state.

Here is a brief description of the operation of the air conditioner.

The compressor compresses the low temperature and low pressure gas refrigerant sucked from the indoor heat exchanger to high temperature and high pressure and sends it to the outdoor heat exchanger. Send to.

The liquid refrigerant passing through the capillary tube enters the indoor heat exchanger due to the drop in pressure and temperature, and the liquid refrigerant passing through the indoor heat exchanger enters the heat necessary for evaporation from the air (air sucked in the room) around the indoor heat exchanger, The evaporated air is gradually evaporated while losing the latent heat of evaporation, where the deprived air is cooled and circulated by the blower fan and discharged back into the room to cool the room, and the refrigerant passing through the indoor heat exchanger is changed into a gas state and is again As the circulation action sucked into the compressor is repeated, the cooling operation is performed.

On the other hand, the air conditioner to which the refrigeration cycle is applied as described above can be used as a heater for discharging high-temperature heat into the room through the indoor side heat exchanger by separately controlling the flow of the refrigerant by providing a four-way valve in the refrigerant circulation pipe.

In addition, when the air conditioner is classified according to the configuration of the unit, there is a separate type and an integrated type, where the separate type is installed separately from the indoor unit and the outdoor unit, and the indoor unit is provided with an indoor heat exchanger, a capillary tube, a blower fan, and the like. Outdoor heat exchanger, compressor, cooling fan, etc. are installed.

On the other hand, in the case of general air conditioners, it is common to connect the outdoor unit and the indoor unit in a 1: 1 correspondence, but recently, an indoor air conditioner that is used by connecting one outdoor unit and two or more indoor units, that is, indoor units are installed in various places, respectively. A multi-air conditioner for operating an indoor unit with one outdoor unit has been produced. The following briefly describes the multi-air conditioner.

Each component of the indoor unit and the outdoor unit is the same as the general air conditioner described above, but since one outdoor unit operates two or more indoor units, as shown in FIG. 1, the outdoor unit has a plurality of compressors (2) on both front sides of the base plate (1). ) Is installed on both sides of the rear, and the outdoor heat exchanger (3) connected to each compressor (2) and the indoor heat exchanger of the indoor unit is installed, the blower motor (not shown) and the fan (not shown) The same is installed.

The outdoor heat exchanger (3) is operated in connection with two indoor heat exchangers, the configuration of which is typically one plate fin (4) in the same number of refrigerant circulation pipes (5) (6) Each is installed. That is, each of the refrigerant circulation pipes 5 and 6 corresponds to the first and second outside heat exchangers, and each outdoor heat exchanger is formed in one piece.

A drain hole 1a for discharging water generated in the outdoor heat exchanger 3 is drilled in the central portion of the base plate 1 on which the devices 2 and 3 of the outdoor unit are seated.

However, in the conventional multi-air conditioner, the refrigerant circulation pipes 5 and 6 connected to the plurality of indoor side heat exchangers are installed on one plate fin 4, so that each outdoor side heat exchanger performs a different function. For example, when the first exterior heat exchanger performs defrosting and the second exterior heat exchanger performs a heating function, the second exterior heat exchanger performs a heating function to change the function with the indoor side heat exchanger. Condensed water was generated on the surface of the second refrigerant circulation pipe 6 corresponding to the outdoor heat exchanger, and at the same time, defrost was performed on the first external heat exchanger to surface the first refrigerant circulation pipe 5 of the first external heat exchanger. Defrost water occurred. At this time, since the ambient temperature of the second outside heat exchanger in which the condensate is generated is relatively lower than the temperature of the first outside heat exchanger, the low temperature is transferred to the first outside heat exchanger, There was a problem that the defrost water is frozen. Accordingly, the defrosting action of the first outside heat exchanger is not normally performed, and as a result, the first outside heat exchanger malfunctions, thereby degrading reliability of the product.

In addition, when a part of the condensate generated in the second outside heat exchanger is not discharged through the drain hole 5 and flows into the first outside heat exchanger, the condensate is lowered in the first outside heat exchanger as described above. There was a problem of freezing on the surface due to the temperature.

The present invention was devised to solve the above problems, for example, when the outdoor air exchanger of the multi-air conditioner performs different functions, for example, the first outdoor heat exchanger performs a defrost function, the second outdoor heat exchanger When the heating function is performed, the low temperature of the second exterior heat exchanger that performs the heating function is not transmitted to the first exterior heat exchanger so that defrost water does not freeze on the surface of the first exterior heat exchanger. .

In addition, the condensed water and the defrost water generated in the second outdoor heat exchanger can be discharged immediately without entering the first outdoor heat exchanger, so that each outdoor heat exchanger operates normally, thereby improving the reliability of the product. The purpose is to provide an outdoor unit of an air conditioner.

1 is an exploded perspective view of a conventional outdoor unit.

2 is an exploded perspective view of an embodiment according to the present invention.

3 is a plan view of the base plate applied to the present invention.

<Description of the code used in the main part of the drawing>

10: base plate 11: heat exchanger mounting portion

12: drain hole 13: partition wall

15; First component mounting surface 16; Second part mounting surface

20 Compressor 30 First Outside Heat Exchanger

31,41: Plate pin 32,42: Refrigerant circulation pipe

40: second outside heat exchanger

The present invention for achieving the above object is connected to the outdoor unit and the outdoor heat exchanger and the compressor is mounted on the base plate is formed on the periphery wall at a predetermined height in the periphery, and through the indoor heat exchanger and the circulation pipe therein In a multi-air conditioner including at least one indoor unit having an indoor heat exchanger connected to the outdoor unit at the same time, partition walls are formed at predetermined intervals on both sides of the upper surface of the base plate, and the upper surface of the base plate is formed on the partition wall. The heat exchanger mounting portions are formed in predetermined portions of the first and second component mounting surfaces, respectively, and the first and second outdoor side heat exchangers separated from the mounting portions. And first and second compressors respectively supplying compressed refrigerant to the first and second outdoor side heat exchangers, respectively. Value and further characterized in that is configured to form a drain Artificial respectively for discharging the water that is in the predetermined part of the first and second part mounting surface, generated from the first and second outdoor heat exchanger.

In the present invention configured as described above, when the indoor unit separately installed in each room performs a different function, for example, the ambient temperature of the outdoor heat exchanger that performs heating when the defrost function and the heating function respectively perform Each outdoor side heat exchanger operates normally because it does not affect the outdoor side heat exchanger located on the side.

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

As illustrated in FIGS. 2 and 3, the outdoor unit of the present invention includes a base plate 10 having a border wall 14 formed at a predetermined height at a periphery thereof, and a compressor 20 installed at both front sides of the base plate 10, respectively. ), A blower motor (not shown) and a fan (not shown) provided between the compressor 20, and the first and second external heat exchangers respectively seated on the heat exchanger mounting portion 11 of the base plate 10. 30, 40.

In more detail, the base plate 10 has partition walls 13 formed at predetermined intervals on both sides of the middle of the upper surface thereof, and the upper surface of the base plate 10 is formed by the partition walls 13 as a first. And the second component mounting surfaces 15 and 16.

One side of the first and second component mounting surfaces 15 and 16 is provided with a heat exchanger mounting portion 11, respectively, and the first and second outdoor side heat exchanger 30 in the heat exchanger mounting portion 11. 40 are respectively provided, and the other side of the first and second component mounting surface (15, 16) for supplying the compressed refrigerant to the first and second outdoor side heat exchanger (30) 40, respectively The first and second compressors 20 are provided respectively.

In addition, drain holes 12 for discharging water generated from the first and second outdoor side heat exchangers 30 and 40 are formed at predetermined portions of the first and second component installation surfaces 15 and 16. Each is formed.

The first and second outside heat exchangers 30 and 40 have a conventional configuration, and include plate fins 31 and 41 and refrigerant circulation pipes 32 and 42.

The outdoor side heat exchanger 30 and 40 according to the present invention are connected to the indoor side heat exchanger and the compressor installed in the indoor unit through circulation pipes, respectively.

Hereinafter, the operation of the embodiment according to the present invention will be described.

When the multi-air conditioner of the present invention is operated to adjust the environment of the indoor space where each indoor unit is installed to an appropriate level, the refrigerant inside the air circulates each device while cooling or heating each space.

On the other hand, the defrost water generated during the defrost of the first outside heat exchanger 30, or the condensed water generated during heating is dropped to the base plate (10).

Moisture collected off the base plate 10 does not flow into the second outside heat exchanger 40 provided laterally by the partition 13, and is discharged through the drain hole 12.

In addition, when each outdoor side heat exchanger (30) 40 installed in the outdoor unit performs a different function, for example, the first outside heat exchanger (30) is defrosting is started, the second outside heat exchanger ( 40 is a defrost water is generated on the surface of the first outside heat exchanger 30 when the heating action, the function of the second outside heat exchanger 40 for heating operation is changed, the indoor heat exchanger (evaporator) In this case, although the ambient temperature of the second outdoor heat exchanger 40 is relatively low, each outdoor heat exchanger 30 and 40 is separated from each other at a predetermined distance. 2, the temperature of the outside heat exchanger 40 is dispersed while moving toward the first outside heat exchanger 30, and thus the transfer is not performed.

On the other hand, the condensed water generated during the heating of the second outside heat exchanger 40 is collected by the base plate 10 and flows toward the drain hole 12 at the same time, to the first outside heat exchanger 30 The flowing condensate hits the partition 13 and then flows toward the drain hole 12 and is discharged.

The action according to the present invention is the same even if the operation of the first and second outside heat exchangers 30 and 40 is changed.

Therefore, according to the present invention, since the outdoor side heat exchanger 30 and 40 are separated and installed at a predetermined distance, each outdoor side heat exchanger 30 and 40 has a different function, that is, defrosting and heating function at the same time. Even if a temperature difference is generated between each outdoor side heat exchanger 30 and 40, a factor of changing the temperature is not transmitted due to the space formed therebetween, so that when the outdoor side heat exchanger 30 and 40 is defrosted, The defrost water does not freeze on the surface.

In addition, moisture generated in each outdoor side heat exchanger 30 and 40 does not flow into the other outdoor side heat exchanger 30 and 40 through the partition 13, and is discharged directly through the drain hole 12. As in the related art, moisture generated in the outdoor heat exchanger 30 and 40 is introduced into another outdoor heat exchanger 30 and 40 to prevent freezing.

As described above, the outdoor side heat exchanger is separately installed inside the outdoor unit of the multi-air conditioner where one outdoor unit and one or more indoor units are connected to each other, so that a factor of changing the temperature of the other outdoor side heat exchanger is not transmitted. The side heat exchanger is operating normally.

In addition, the moisture generated in each outdoor side heat exchanger is discharged without being introduced to the other outdoor side heat exchanger, thereby preventing malfunction of each outdoor side heat exchanger, thereby providing an advantage of improving product reliability.

Claims (1)

In an outdoor unit of a multi-air conditioner in which an outdoor heat exchanger and a compressor are seated on a base plate on which a border wall is formed at a predetermined height in a peripheral part, Partition walls are formed on both sides of the middle of the upper surface of the base plate at predetermined intervals, and the upper surface of the base plate is divided into first and second component mounting surfaces around the partition wall, and the first and second components are formed. Heat exchanger mounting portions are formed on one side of the mounting surface, respectively, and the first and second outdoor side heat exchangers separated from the mounting portion are respectively installed, and the first and second outdoor sides are mounted on the other side of the first and second component mounting surfaces, respectively. First and second compressors respectively supplying compressed refrigerant to the side heat exchanger, respectively, and discharging water generated from the first and second outdoor side heat exchangers to predetermined portions of the first and second component installation surfaces, respectively. An outdoor unit of a multi-air conditioner, each formed by forming a drain hole.