KR100954358B1 - A controlbox of out-door unit for air conditioner - Google Patents

Abstract

The present invention relates to a control box of an air conditioner outdoor unit in which a plurality of electronic components are installed therein so that a control box for controlling a component mounted in the outdoor unit is cooled by the air inside the outdoor unit.

The control box of the outdoor unit of the air conditioner according to the present invention controls the operation of the outdoor unit 100 by embedding a plurality of electronic components therein, and one side of the control box 300 rotates when power is applied to the control box 300. The heat-dissipating fan 370 for forcibly blowing air to the outside, and the air suction hole 340 is formed perforated to guide the outside air into the control box 300, and the control box 300 inside the compartment It is characterized in that the convection guide plate 350 for guiding the flow direction of the air introduced through the air suction hole 340 is provided. The air suction hole 340 is formed only in one direction of the convection guide plate 350. According to such a configuration, cooling of the control box is efficiently performed, thereby preventing malfunction and damage of the printed circuit board in advance.

Air Conditioner, Outdoor Unit, Control Box, Diesel, Cooling

Description

A control box of out-door unit for air conditioner

Figure 1 is a side cross-sectional view showing an air flow path when the air conditioner outdoor unit according to the prior art operation.

2 is an installation state diagram of an air conditioner employing a preferred embodiment of the present invention.

Figure 3 is a block diagram showing the configuration and refrigerant flow of the air conditioner employing a preferred embodiment of the present invention.

Figure 4 is an exploded perspective view showing the internal configuration of the air conditioner outdoor unit employing a preferred embodiment of the present invention.

Figure 5 is a perspective view showing the internal configuration of the front in the open state in the control box of the air conditioner outdoor unit according to the present invention.

Figure 6 is a side cross-sectional view showing an air flow path during operation of the air conditioner outdoor unit employing a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100. Outdoor unit 102. Outdoor solenoid valve

110. Base Fan 112. Front Panel

114. Front Grill 116. Front Upper Bracket

120. Constant speed compressor 122. Oil separator

123. Oil return pipe 124. Four-way valve

126. Valve Support 128. Service Valve

130. Supercoolers 132. Accumulators

134,134 '. Front frame 136. Center frame

150. Barrier 152. Air Guide

154. Air guide cover 160. Top panel

162. Aeration 164. Shrouds

166. Discharge Grill 170. Blower Fan

172. Fan Motor 174. Motor Mount

180. Outdoor heat exchanger 182. Front heat exchanger

184. Rear heat exchanger 186. Drain pan

188. Side Panel 190. Rear Grill

192. Rear Panel 194. Rear Top Bracket

196. Rear frame 200. Indoor unit

202. Indoor heat exchanger 204. Expansion valve

210. Common fluid line 210 '. Basin

210 ". Outdoor liquid pipe 212. Common pipe

212 '. Branches 212 ". Outdoor

214. High and low pressure common pipe 300. Control box

310. Printed circuit board 320. Capacitor

330. Reactor 340. Air suction hole

360. Discharge hole 370. Heat dissipation fan

372. Convection motors 374. Motor mounting holes

The present invention relates to an outdoor unit of an air conditioner, and more particularly, an air conditioner in which a plurality of electronic components are installed therein so that a control box for controlling a component mounted inside the outdoor unit is cooled by the air inside the outdoor unit. The control box of the outdoor unit.

In general, an air conditioner is a cooling / heating system that cools a room by a repetitive action of inhaling hot air in a room, exchanging heat with a low temperature refrigerant, and then discharging it into the room. A condenser, expansion valve, and evaporator that forms a series of refrigerant cycles.

In addition, the air conditioner may be divided into a separate type air conditioner, in which the outdoor unit and the indoor unit are separately installed, and an integrated air conditioner in which the outdoor unit and the indoor unit are installed integrally, and a separate type air conditioner is preferred in consideration of installation space or noise. There is a trend.

In addition, the separate air conditioner can be effectively applied when cooling / heating a plurality of spaces with one outdoor unit. That is, by installing a multi-type air conditioner, which is a type of separate air conditioner, in a building having several offices, efficient air conditioning of each office is possible.

More specifically, the multi-type air conditioner is connected to a plurality of indoor units in one outdoor unit, and the indoor units are installed in the room for air conditioning, respectively, so that the effect of installing several air conditioners can be obtained.

Hereinafter, a configuration of a general multi-type air conditioner outdoor unit will be described with reference to the accompanying drawings.

Figure 1 is a side cross-sectional view showing an air flow path when the air conditioner outdoor unit according to the prior art operation.

As shown in the figure, the outdoor unit 1 of the air conditioner has a plurality of panels coupled to each other to have an appearance of a vertically long rectangular parallelepiped, and a space is formed therein, whereby a plurality of parts are embedded.

That is, the outdoor unit 1 has a base fan 12 supporting a load by mounting a plurality of components on the upper surface, a front panel 14 forming a part of the front exterior, and a rectangular mesh shape to form the outdoor unit 1. A front grill 15 and a rear grill 16 for guiding the inflow of external air into the inside, a rear panel 18 mounted below the rear grill 16, and side panels forming a left and right side appearance (not shown). The space is formed inside.

In addition, the inside of the outdoor unit 1 is shielded by an upper panel 20 forming an outer appearance of the outdoor unit 1, and the panels have a strong coupling force at each corner of the outdoor unit 1. Multiple frames are installed.

Therefore, the outdoor unit 1 is firmly supported in appearance by the frame, and the rectangular parallelepiped shape is not deformed.

In addition, left and right sides of the upper panel 20 are provided with discharge disks 26 having a substantially disk shape to form a part of the upper surface of the outdoor unit 1. The discharge grill 26 has a plurality of discharge holes 26 'formed on the entire surface of the discharge grill 26 so that the inside and the outside of the outdoor unit 1 communicate with each other.

A cylindrical shroud 28 is provided below the discharge grill 26, and more specifically, on the left and right sides of the upper panel 20. The shroud 28 is for guiding the discharge direction when the air in the outdoor unit 1 is discharged to the outside, and is installed in the discharge grills 26 formed in pairs, respectively.

The blowing fan 30 is located inside the shroud 28. The blowing fan 30 receives the rotational power from the fan motor 32 which generates the rotational power when the power is applied and rotates at a high speed, thereby discharging the air inside the indoor unit (not shown) that heat-exchanges the indoor air to the outside. Done.

The fan motor 32 is supported by a motor mount 34. That is, the motor mount 34 has a central portion coupled to one side of the fan motor 32 to regulate the flow of the fan motor 32, and the upper end portion is screwed to the bottom of the upper panel 20 so that the fan motor ( 32 and the load of the blower fan 30.

On the other hand, the outdoor heat exchanger 40 is installed in the front and rear spaced apart and the rear side of the fan motor 32, more specifically the rear of the front grill (15) and the front of the rear grill (16). The outdoor heat exchanger 40 allows the refrigerant circulating therein and the air introduced into the outdoor unit 1 to exchange heat with each other.

In addition, the outdoor heat exchanger 40 is a front heat exchanger 42 for heat-exchanging air sucked into the outdoor unit 1 through the front grill 14 and the air sucked through the rear grill 16. It comprises a back side heat exchanger (44) for heat exchange.

'모양의 종단면을 가지도록 형성된다. 이것은 상기 전면그릴(14)을 통해서 흡입되는 공기가 상기 전면열교환기(42)의 전면과 경사진 하면을 통해서 열교환될 수 있도록 하기 위함이다.The front heat exchanger 42 is approximately '

It is formed to have a longitudinal cross section. This is to allow the air sucked through the front grill 14 to exchange heat through the inclined bottom surface of the front heat exchanger 42.

In addition, the rear heat exchanger 44 is for heat-exchanging the outside air sucked through the rear grill 16, and corresponds to the outer size of the rear grill 16 so as to efficiently exchange the air. It is preferred to be configured in size.

A drain pan 46 is installed below the outdoor heat exchanger 40, that is, below the rear heat exchanger 44. The drain pan 46 is for collecting the condensate generated on the outer surface when the outdoor heat exchanger 40 exchanges air with the outside air of the outdoor unit 1, and the condensed water collected therein is drained into the outdoor unit 1. It is preferred to be configured as possible.

'모양의 종단면을 가지게 된다. 따라서, 상기 베리어가 실외기(1) 내부에 설치되면, 상기 실외기(1) 내부 공간은 상하로 구획된다.A barrier 48 is formed in front of the drain pan 46. The barrier 48 is formed by bending the square plate, and when viewed from the right side, approximately '

'Have a longitudinal cross section. Therefore, when the barrier is installed inside the outdoor unit 1, the space inside the outdoor unit 1 is divided up and down.

In addition, an air guide hole 48 'having a rectangular shape is formed at the center of the upper surface of the left barrier 48 of the barrier 48, and the air guide cover 49 is disposed above the air guide hole 48'. Is installed.

The air guide cover 49 is configured such that the front and the top is shielded and the rear is opened, so that the air forcedly blown from the heat radiating fan 59 to be described below is guided to the rear.

The control box 50 is installed left and right in the lower space of the outdoor unit 1 partitioned by the barrier 48. The control box 50 has a rectangular box shape, each of which is opened at the front, and the front is shielded by the box cover 50 '. In addition, a plurality of electronic components are embedded in the control box 50 and serve to control a plurality of components inside the outdoor unit.

That is, although not shown in the control box 50, a relay that connects electricity to different components, a printed circuit board (PCB), a capacitor that accumulates charge and acts as a battery having a small capacity, and a voltage drop. Electronic components such as reactors are suppressed.

High heat is generated inside the control box 50 when the electronic component is operated, and a heating element plate is provided on the rear surface of the control box 50 so that the electronic component can be prevented from being damaged by such heat. 58 is mounted. In addition, a heat radiating fan 59 is further configured above the heat generating element plate 58.

Therefore, when the heat generating element plate 58 shows the high heat inside the control box 50 to the outside, the heat radiating fan 59 rotates to force the air flow to the heat generating element plate 58 to generate the heat. The heat conducted to the element plate 58 is cooled.

On the other hand, the compressor 60 is installed in the center of the upper surface of the base fan 12. The compressor 60 compresses the refrigerant transferred from the accumulator 70 to a high temperature and high pressure state, and is provided in plural numbers depending on the number of the indoor units connected to the outdoor unit 1.

The accumulator 70 is installed at the center of the upper surface of the base fan 12. The accumulator 70 receives a gas refrigerant and a liquid refrigerant from an indoor unit (not shown) at the same time, separates them, and sends only the gas refrigerant to the compressor 60. .

However, the conventional outdoor unit control box having the above configuration has the following problems.

That is, the control box 50 has a plurality of electronic components as described above, in the case of a reactor (not shown) of the heat generated at a very high temperature (100 ~ 110 ℃) of the printed circuit board (not shown) There is a problem that causes malfunction.

In addition, since the cooling of the control box 50 using the heat generating element plate 58 and the heat radiating fan 59 is a method of conduction, its cooling efficiency is such that the amount of heat generated by the reactor (not shown) cancels out. There is a problem that the temperature of the control box 50 is continuously raised to reach the level.

In addition, the above problems are not preferable because the reliability of the outdoor unit itself is lowered.

Therefore, an object of the present invention is to solve the problems of the prior art as described above, a plurality of electronic components are installed therein so that the control box for controlling the components mounted inside the outdoor unit is cooled by the air inside the outdoor unit. It is to provide a control box of the outdoor unit of the air conditioner.

Another object of the present invention to provide a control box of the air conditioner outdoor unit to maximize the cooling efficiency for the reactor by installing a convection guide plate and a heat dissipation fan on one side inside the control box.

In the control box of the air conditioner outdoor unit according to the present invention for achieving the above object, in the control box of the air conditioner outdoor unit to control the operation of the outdoor unit is built in a plurality of electronic components, the control box One side of the heat dissipation fan that rotates when the power is applied to force the outside of the control box, a perforated air suction hole for guiding the outside air into the control box, and the inside of the control box to separate the air suction Characterized in that the convection guide plate for guiding the flow direction of the air introduced through the ball.

The air suction hole is characterized in that it is formed only in one direction of the convection guide plate.

The inner side of the control box is characterized in that the reactor (Reactor) is further provided to suppress the instantaneous voltage drop.

The reactor is characterized in that the installation is so close to the air suction hole and the convection guide plate.

One side of the control box is characterized in that the discharge hole for guiding the discharge forced air by the heat radiating fan to the outside of the control box is provided.

A printed circuit board (PCB) is mounted on the opposite side of the space on which the reactor is mounted based on the convection guide plate.

According to the control box of the outdoor unit of the multi-type air conditioner according to the present invention having such a configuration, there is an advantage that the cooling of the control box is efficiently performed, thereby preventing malfunction and damage of the printed circuit board.

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

2 is a diagram showing a state of installation of an air conditioner employing a preferred embodiment of the present invention, Figure 3 is a block diagram showing the configuration and the flow of the refrigerant air conditioner employing a preferred embodiment of the present invention. .

As shown in these figures, the outdoor unit 100 includes a constant speed compressor 120 and an inverter compressor 120 ', an accumulator 132 and an outdoor heat exchanger 180 and an outdoor solenoid valve 102 (LEV: linear expansion valve, The indoor unit 200 is composed of an indoor heat exchanger 202, an expansion valve 204, and the like.

In the multi-type air conditioner, a plurality of indoor units 200 are connected to one or more outdoor units 100. The common liquid pipe 210, which is a single pipe through which liquid refrigerant flows, is connected between the outdoor unit 100 and the indoor unit 200, The common engine 212, which is a single pipe through which gas refrigerant flows, is formed in communication. And between the two or more outdoor unit 100 is installed in communication with the high and low pressure common pipe 214 to maintain the balance of the refrigerant.

The high and low pressure common pipe 214 is installed such that the inlet side of the outdoor heat exchanger 180 provided in the plurality of outdoor units 100 communicates with each other to maintain the balance of the refrigerant between the outdoor units 100. Meanwhile, the refrigerant is also introduced into the outdoor heat exchanger 180 of the outdoor unit 100, which is not used among the plurality of outdoor units 100, resulting in an overall heat exchange efficiency. And the high or low pressure common pipe 214 is a high pressure or low pressure refrigerant flows in accordance with the cooling or heating action.

The indoor unit 200 is formed with a branch liquid pipe 210 'through which liquid refrigerant flows, and a branch engine 212' through which gas refrigerant flows, and such a branch liquid pipe 210 'and a branch engine 212' are common. It is in communication with the liquid pipe 210 and the common engine 212.

In addition, the diameters of the plurality of branch liquid pipes 210 'and the branch engine 212' are different depending on the capacity of the indoor unit 200 to be connected.

Meanwhile, the outdoor unit 100 is formed with an outdoor liquid pipe 210 "through which liquid refrigerant flows, and an outdoor engine 212" through which gas refrigerant flows, and the outdoor liquid pipe 210 "and an outdoor engine 212" are respectively formed in the outdoor unit 100. Communicating with the common liquid pipe 210 and the common engine 212.

Hereinafter, the configuration of the outdoor unit will be described in detail with reference to the accompanying drawings.

Figure 4 is an exploded perspective view showing the internal configuration of the air conditioner outdoor unit employing a preferred embodiment of the present invention.

As shown in these figures, a base fan 110 forming a bottom surface is provided at the bottom to support a plurality of parts, and the front panel 112 forming a front lower exterior at the tip of the base fan 110. ) Is provided.

The front grill 114 is installed above the front panel 112. Therefore, the outside air is sucked through the front grill 114, and passes through the outdoor heat exchanger 180 to be described below. On the other hand, the upper front bracket 116 is further installed on the upper side of the front grill 114, the front end bracket 116 is fastened to the front end of the motor mount 174 to be described below.

Compressors 120 and 120 'are installed on an upper surface of the base fan 110. The compressors 120 and 120 'are configured to compress the refrigerant to be high temperature and high pressure, and are provided at left and right sides, respectively. That is, a relatively constant speed compressor 120 for constant speed operation is installed on the right side, and an inverter compressor 120 ', which is a variable speed heat pump, is installed on the left side.

As the compressors 120 and 120 ', a low noise and excellent scroll compressor is used. In particular, the inverter compressor 120' is an inverter scroll compressor whose rotation speed is adjusted according to the load capacity. Therefore, when a small number of indoor units 200 are used and the load capacity is small, the inverter compressor 120 'is operated first, and the constant speed compressor is not available when the load capacity is gradually increased and cannot be handled by the inverter compressor 120'. 120 is activated.

An oil separator 122 is provided at the outlet side of the constant speed compressor 120 and the inverter compressor 120 ', respectively. The oil separator 122 filters the oil mixed in the refrigerant discharged from the compressors 120 and 120 'to be recovered to the compressors 120 and 120'.

That is, oil used to cool frictional heat generated when the compressors 120 and 120 'are driven is discharged to the outlet of the compressors 120 and 120' together with a refrigerant. The oil in the refrigerant is separated into the oil separator 122. Separated from and sent back to the compressor (120, 120 ') through the oil return pipe (123).

In addition, a check valve 122 ′ is further installed at an outlet side of the oil separator 122 to prevent a backflow of the refrigerant. That is, when only one of the constant speed compressor 120 or the inverter compressor 120 'is operated, the compressed refrigerant is not flowed back into the stationary compressors 120 and 120'.

The oil separator 122 is configured to communicate with the four-way valve 124 by the pipe. The four-way valve 124 is arranged to change the flow direction of the refrigerant according to the cooling and heating operation, each port is an outlet (or oil separator) of the compressor (120, 120 '), the inlet of the compressor (120, 120') Or an accumulator), an outdoor heat exchanger 180, and an indoor unit 200.

Therefore, the refrigerant discharged from the constant speed compressor 120 and the inverter compressor 120 'is collected in one place and then flows into the four-way valve 124.

The valve support 126 is installed at the center of the first half of the upper surface of the base pan 110. The valve support 126 serves to support and guide the outdoor liquid pipe 210 ", the outdoor engine 212", and the high and low pressure common pipe 214, and a service valve 128 is also installed therein. Meanwhile, the pipes 210, 212, and 214 supported by the valve support 126 are drawn out through the pipe inlet 188 ′ of the side panel 188, which will be described below, and are connected to the outdoor unit 100.

An overcooler 130 is formed at the rear left end of the upper surface of the base fan 110. The supercooler 130 is to further cool the refrigerant heat exchanged in the outdoor heat exchanger 180 to be described below, any position of the outdoor liquid pipe 210 "connected to the outlet side of the outdoor heat exchanger 180. Is formed.

Although not shown, one side of the subcooler 130, that is, one side of the outdoor liquid pipe 210 ″ in which the refrigerant discharged from the outdoor heat exchanger 180 is guided to the indoor unit 200, is provided with a dryer. Serves to remove moisture contained in the refrigerant flowing through the outdoor liquid pipe (210 ").

An accumulator 132 is installed between a central portion of the base fan 110, that is, between the constant speed compressor 120 and the inverter compressor 120 ′. The accumulator 132 filters the liquid refrigerant so that only the gaseous refrigerant flows into the compressors 120 and 120 '.

That is, when the refrigerant remaining in the liquid phase without being evaporated into gas among the refrigerant flowing from the indoor unit 200 directly flows into the compressors 120 and 120 ', the compressor is formed into a gaseous refrigerant having a high temperature and high pressure. ), The load is increased, which causes damage to the compressors 120 and 120 '.

Therefore, among the refrigerants introduced into the accumulator 132, the refrigerant which is not evaporated and remains in the liquid phase is stored in the lower part of the accumulator 132 because it is relatively heavier than the refrigerant in the gas phase, and only the gaseous refrigerant in the upper portion of the compressor 120, 120 Flows into ').

Front frames 134 and 134 'are formed at both ends of the base pan 110, respectively. The front frames 134 and 134 'are formed vertically long at the tip of the base fan 110, and are divided into a front left frame 134 installed at the left end and a front right frame 134' installed at the right end. .

The front frames 134 and 134 'serve to support the front upper bracket 116, the front grill 114, and the control box 300 to be described below. On the other hand, the center frame 136 is provided at the center of the front left frame 134 and the front right frame 134 '.

The barrier 150 is installed in the central frame 136. The barrier 150 divides the inside of the outdoor unit 100 into an upper space and a lower space. That is, the compressor 120 and 120 ′ are installed on the lower side and the outdoor heat exchanger 180 to be described below is partitioned.

The barrier 150 is provided on each side. The barrier 150 has a horizontal portion 150 'formed rearward from the center frame 136 and an inclined portion 150 "formed to be inclined downward from the rear end of the horizontal portion 150' at a predetermined angle. Is made of.

An air guide hole 152 is formed in the horizontal portion 150 ′ of the left barrier 150 of the barrier 150, and an air guide cover 154 is installed above the air guide hole 152. The air guide cover 154 is configured such that the front and the top is shielded and the rear is opened so that the air forcedly blown from the heat radiating fan 370 provided at the bottom is guided to the rear.

The upper surface of the outdoor unit 100 is formed by the upper panel 160. The top panel 160 has a square flat plate shape and is provided in pairs on the left and right sides. In addition, the upper panel 160 has a ventilation hole 162 formed, and the edge of the ventilation hole 162 extends downward to form a cylindrical shroud 164. The shroud 164 is formed integrally with the upper panel 160, preferably made of a plastic material.

The shroud 164 is formed in a cylindrical shape to guide the air forcedly blown by the blowing fan 170 to be described below. Meanwhile, a circular discharge grill 166 corresponding to the ventilation hole 162 is mounted on the shroud 164, that is, the ventilation hole 162.

The blowing fan 170 is installed inside the shroud 164. The blowing fan 170 is rotated by the fan motor 172 provided at the bottom, and discharges the air therein upward. That is, when the fan motor 172 generates a rotational force by the power applied from the outside, the blowing fan 170 fixed to one end of the rotation shaft of the fan motor 172 is rotated to discharge the air upward.

The fan motor 172 is fixed by the motor mount 174. The motor mount 174 is composed of a fixed plate 174 'of a square plate and a support 174 "for supporting the fixed plate 174'. The support 174" is formed in a pair on the left and right, The fixing plate 174 'is mounted at the center of the pair of supports 174 ". The front and rear ends of the support 174 " are bent upwards to allow the front upper bracket 116 and the rear surface to be described below. It is fixed to the upper bracket 194 respectively.

An outdoor heat exchanger 180 is provided below the upper panel 160. The outdoor heat exchanger 180 is installed in pairs before and after the heat exchange between the refrigerant flowing inside and the outside air. That is, the front heat exchanger 182 is installed below the front end of the upper panel 160, and the rear heat exchanger 184 is installed below the rear end of the upper panel 160.

The lower half of the front heat exchanger 182 is bent backwards. That is, it consists of a vertical portion 182 'extending downwardly from the front end of the front panel 112 at a predetermined length, and an inclined portion 182 " formed to be inclined backward at a predetermined angle from the bottom of the vertical portion 182'. do.

Accordingly, the lower end of the inclined portion 182 ″ and the lower end of the rear heat exchanger 184 are adjacent to each other, and the lower end of the outdoor heat exchanger 180 has a predetermined distance from the base fan 110. Meanwhile, a tube assembly 180 'is further formed at a side surface of the outdoor heat exchanger 180 to distribute the refrigerant supplied from the compressors 120 and 120' to each part.

A drain pan 186 is provided below the bottom of the outdoor heat exchanger 180. The drain pan 186 is formed long to the left and right and collects the condensed water generated in the outdoor heat exchanger 180 and discharges it to the side.

Side panels 188 are installed at left and right ends of the upper surface of the base fan 110. The side panel 188 forms a side appearance of the outdoor unit 100, and the bottom pipe exit hole 188 'is formed at the front and rear, respectively, at the lower end.

The rear grill 190 is installed at the rear end of the base fan 110. The rear grill 190 is formed to correspond to the size of the rear heat exchanger 184, the rear panel 192 is provided below the rear grill 190.

The upper rear bracket 194 is formed to the left and right at an upper end of the rear grill 190. The upper rear bracket 194 is installed on the upper front surface of the rear grill 190 to support the rear end of the support 174 ″ of the motor mount 174.

The rear frame 196 is installed at both ends of the rear upper bracket 194, that is, at the rear end corner of the base fan 110. The rear frame 196 is elongated upward and downward to support the rear grill 190, the rear panel 192, and the upper panel 160.

On the other hand, the control panel 300, which is the main component of the present invention is installed on the rear upper portion of the front panel 112. The control box 300 has an outer shape of a substantially rectangular parallelepiped shape and is formed in pairs each one on the left and right. In addition, a space is formed therein so that a plurality of electronic components to be described below are embedded to control the operation of the outdoor unit 100.

Hereinafter, the configuration of the control box 300 will be described in detail with reference to the accompanying drawings.

Figure 5 is a perspective view showing the internal configuration of the front open state in the control box of the air conditioner outdoor unit according to the present invention.

As shown in the figure, the control box 300 has a space in which the front is opened, the inside of the printed circuit board (PCB, 310), the capacitor accumulates the charge (Capacitor, 320) as a battery having a small capacity And electronic components such as a reactor (330) that suppresses an instantaneous voltage drop. The reactor 330 may be referred to as a first heating component, and the printed circuit board 310 may be referred to as a second heating component. The heat generation amount of the reactor 330 is greater than the heat generation amount of the printed circuit board 310.

The printed circuit board (PCB) 310 controls the operation of the outdoor unit 100 by integrating a plurality of electronic components, and plays an important role than other components mounted inside the control box 300. The printed circuit board (PCB) 310 is relatively weak in heat compared to other components.

And, the reactor (Reactor, 330) generates heat of about 100 ~ 110 ℃ during operation. Therefore, for the normal operation of the outdoor unit 100, the reactor (330) and the printed circuit board (PCB, 310) is preferably installed spaced apart from each other, for cooling the printed circuit board (PCB, 310) More configuration is required. To this end, the control box 300 is configured to pass through after the outside air is introduced into the inside.

That is, a plurality of air suction holes 340 formed long in the front and rear direction are formed on the lower right side of the control box 300. The air suction hole 340 guides the air inside the outdoor unit 100 to be introduced into the control box 300 by allowing the inside of the control box 300 to communicate with the outside.

In addition, a convection guide plate 350 having a square plate shape is installed at the bottom of the inner space of the control box 300. The convection guide plate 350 is formed so that the front and rear widths correspond to the thickness of the control box 300 to partition the inner space of the control box 300 from side to side, and the reactor 330 and the printed circuit board (PCB). , 310 are separated from each other.

More specifically, the reactor (330) is mounted on the right side (the right space of the control box 300 in which the air suction hole 340 is formed) based on the convection guide plate 350, and the left side (reactor 330). Opposite side of the space where the is mounted) is a printed circuit board (PCB, 310) is mounted. Therefore, the high heat generated from the reactor 330 is not directly transmitted to the printed circuit board (PCB, 310).

In addition, the convection guide plate 350 also serves to guide the flow direction of air introduced into the control box 300 through the air suction hole 340. That is, since the reactor 330 is positioned between the right side of the convection guide plate 350 and the right side of the inside of the control box 300, the air introduced into the control box 300 is the convection guide plate ( 350) and the right side of the inside of the control box 300.

Therefore, the reactor 330 is preferably installed in close proximity to the air suction hole 340 and the convection guide plate 350 so as to be air cooled by the outside air introduced from the air suction hole 340.

In addition, the lower end portion of the convection guide plate 350 may be formed at the left side of the air suction hole 340 so that the air introduced into the air suction hole 340 cools the reactor 330. 340 is preferably spaced apart from the left side. In other words, the air suction hole 340 is preferably formed only in one direction of the convection guide plate 350.

The discharge hole 360 is formed in the upper left front of the control box 300. The discharge hole 360 is to allow the external air introduced into the air suction hole 340 to be discharged again to the outside of the control box 300 after cooling the reactor 330, the inside / inside of the control box 300 It is perforated so that the outside is in communication.

The heat dissipation fan 370 is provided in front of the discharge hole 360. The heat radiating fan 370 forces the air flow so that the air inside the control box 300 is discharged to the outside through the discharge hole (360).

That is, the front of the heat radiating fan 370 is provided with a convection motor 372 for generating a rotational power when the power is applied, the motor shaft of the convection motor 372 is inserted in the center of the heat radiating fan 370. By being coupled, the heat radiating fan 370 can receive the rotational power from the convection motor 372.

Therefore, the convection motor 372 blows the air in the control box 300 from the front to the rear, and the blown internal air can be discharged to the outside of the control box 300 through the discharge hole 360. do.

In addition, a motor mounting hole 374 is generally provided at the rear end of the convection motor 372 so that the convection motor 372 can be fixed in the control box 300.

Hereinafter, the operation of the multi-type air conditioner according to the present invention having the configuration as described above will be described with reference to FIGS.

Figure 6 is a side cross-sectional view showing the air flow path during operation of the air conditioner outdoor unit employing a preferred embodiment of the present invention.

As described above, in the air conditioner according to the present invention, a plurality of indoor units 200 are connected to one outdoor unit 100, and some or all indoor units 200 are operated according to a user's selection.

When the air conditioner is operated (cooling operation), the outdoor LEV 102 is opened so that the refrigerant flows between the outdoor unit 100 and the indoor unit 200.

First, referring to the refrigerant flow in the outdoor unit 100, the gas refrigerant flowing from the indoor unit 200 passes through the four-way valve 124 and then enters the accumulator 132. The gas refrigerant leaving the accumulator 132 is introduced into the compressors 120 and 120 '.

The refrigerant compressed by the compressors 120 and 120 ′ passes through the oil separator 122. In the oil separator 122, oil contained in the refrigerant is separated and recovered to the compressors 120 and 120 ′ through the oil recovery pipe 123.

That is, as the refrigerant is compressed in the compressors 120 and 120 ', oil is mixed in the refrigerant. Since the oil is in the liquid state and the refrigerant is in the gas state, the oil is separated from the oil separator 122 which is the gas-liquid separator.

The refrigerant passing through the oil separator 122 flows into the outdoor heat exchanger 180 through the four-way valve 124. Since the outdoor heat exchanger 180 functions as a condenser (in the cooling mode), the refrigerant is cooled through heat exchange with external air to become a liquid refrigerant. The refrigerant passing through the outdoor heat exchanger 180 is further cooled while passing through the subcooler 130.

The refrigerant passing through the supercooler 130 passes through a dryer (not shown) to remove moisture contained in the refrigerant, and then flows into the indoor unit 200 through the common liquid pipe 210. Meanwhile, some of the refrigerant passing through the compressors 120 and 120 'may be introduced into another outdoor unit 100 through the high and low pressure common pipe 214.

The refrigerant supplied to the other outdoor unit 100 through the high and low pressure common pipe 214 is introduced into the outdoor heat exchanger 180 of the outdoor unit 100 that is stopped to balance the refrigerant pressure as a whole, and the outdoor unit that is stopped ( The predetermined heat exchange also occurs through the outdoor heat exchanger 180 of 100).

When the refrigerant is supplied to the indoor unit 200 through the common liquid pipe 210, the refrigerant is supplied to each indoor unit 200 in operation through the branched liquid pipe 210 ′ branched from the common liquid pipe 210. The refrigerant is decompressed in the expansion valve 204 and heat exchanges in the indoor heat exchanger 202. At this time, since the indoor heat exchanger 202 serves as an evaporator, the refrigerant becomes low pressure gas through heat exchange.

The refrigerant discharged from the indoor heat exchanger 202 is collected through the branch engine 212 ′ to the common engine 212 and then flows into the outdoor unit 100. The refrigerant introduced into the outdoor unit 100 through the common engine 212 and the outdoor engine 212 ″ enters the accumulator 132 through the four-way valve 124.

In the accumulator 132, the liquid refrigerant that has not been evaporated is filtered out, and only the refrigerant in the gaseous state is selected and supplied to the compressors 120 and 120 '. Through this process, one cycle is completed.

On the other hand, when it is operated by heating operation, the refrigerant flows in the opposite direction to the above, and the amount of refrigerant is controlled in the outdoor LEV (102).

Next, the air flow in the outdoor unit 100 will be described with reference to FIG. 6. The fan motor 172 is driven according to the application of power to drive the blower fan 170. When the blowing fan 170 is rotated, outside air is introduced into the inside through the front grill 114 and the rear grill 190.

Air introduced into the outdoor unit 100 undergoes heat exchange while passing through the outdoor heat exchanger 180. At this time, when the air conditioner acts as cooling, the outside air receives heat from the outdoor heat exchanger 180 and becomes high temperature air. On the contrary, when the air conditioner is operated by heating, the low temperature air is deprived of heat to the outdoor heat exchanger 180. Becomes

The air passing through the outdoor heat exchanger 180 is forcedly blown upward by the blower fan 170, and the shroud 164 guides the upward discharge of air.

On the other hand, when the outdoor unit 100 operates, a plurality of components mounted in the control box 300, in particular, the reactor 330 generates high heat. In this case, power is applied to the convection motor 372 to rotate at a high speed, and the heat radiating fan 370 received the rotational power of the convection motor 372 rotates at a high speed to generate air flow. Done.

Looking at the path of the air flow generated by the heat radiating fan 370 in detail, first through the air suction hole 340 formed on the bottom of the control box 300 into the control box 300 into the air inside the barrier Inflow.

The air introduced through the air suction hole 340 is guided by the right side surface of the convection guide plate 350 and the inner right side surface of the control box 300 so as to flow upward, and the reactor 330 flows upward. ) Is cooled.

The air taken away from the reactor 330 flows in the direction of the heat radiating fan 370 through the upper space of the upper portion of the inner space of the control box 300, more specifically, the upper portion of the convection guide plate 350.

In addition, the air moved around the heat radiating fan 370 is forced by the heat radiating fan 370 (as shown in FIG. 5) to flow rearward, and is external to the control box 300 through the discharge hole 360. Discharged.

The air discharged outside the control box 300 (air taken out of the reactor 330) is moved to the upper side of the barrier through the air guide hole 152, and at the same time by the air guide cover 154 It is guided and flows to the left.

Afterwards, the air discharged to the left through the air guide cover 154 passes through the front heat exchanger 182 to exchange heat, and is discharged upward through the shroud 164.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

As described above, in the control box of the outdoor unit of the multi-type air conditioner according to the present invention, the air inside the outdoor unit is configured to be cooled by air via the inside of the control box.

Therefore, the various parts built into the control box are not affected by heat, thereby preventing the error of the air conditioner.

In addition, by constituting the heat dissipation fan and the convection guide plate inside the control box to cool the reactor intensively, it is possible to effectively cool the components embedded in the control box.

As a result, according to the present invention, since each control part is functioning, there is an effect that the performance degradation of the air conditioner is prevented.

Claims (6)

In the control box of the outdoor unit of the air conditioner to control the operation of the outdoor unit is built in a number of electronic components, On one side of the control box, A heat radiating fan that rotates when power is applied and forcibly blows air to the outside of the control box; An air suction hole which is formed by punching and guides external air into the control box; A convection guide plate is provided for partitioning the inside of the control box to guide the flow direction of the air introduced through the air suction hole. One side of the convection guide plate is provided with a reactor, and the other side of the convection guide plate generates more heat than the reactor. A control box of an outdoor unit of an air conditioner, wherein a small printed circuit board is provided, and air cools the printed circuit board after cooling the reactor. The control box of the outdoor unit of claim 1, wherein the air suction hole is formed only in one direction of the convection guide plate. delete The control box of the outdoor unit of claim 1, wherein the reactor is installed to be close to the air suction hole and the convection guide plate. The control box of an outdoor unit of claim 1, wherein a discharge hole is formed at one surface of the control box to guide the air forced by the heat radiating fan to be discharged to the outside of the control box. The control box of an outdoor unit of claim 1, wherein the printed circuit board is mounted on an opposite side of the space in which the reactor is mounted based on the convection guide plate.

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