KR20050055314A - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner configured to expose a service valve for checking a refrigerant amount and refilling a refrigerant to the outside of the air conditioner.

The present invention, the compressor 310 for compressing the refrigerant; A condenser 320 installed on the heat dissipation side 300 and generating heat exchange; An evaporator 250 installed at the heat absorbing side 200 and generating heat exchange; A high pressure service valve 316 installed at one side of the high pressure pipe 312 'connecting the compressor 310 and the condenser 320 to control the access of the refrigerant; A low pressure service valve 316 ′ installed at one side of the low pressure pipe 312 ″ connecting the compressor 310 and the evaporator 250 to control the access of the refrigerant; and the high pressure service valve 316. ) And the low pressure service valve 316 ′ are installed to protrude forward of the front panel 110 forming the front exterior, so that the front panel 110 has a high pressure for guiding the installation of the high pressure service valve 316. A service port 132 and a low pressure service port 132 'for guiding the installation of the low pressure service valve 316' are provided, respectively. According to the air conditioner according to the present invention having such a configuration, a refrigerant amount check and a refrigerant are provided. The replenishment work is easier.

Description

Air Conditioner {Air conditioner}

The present invention relates to an air conditioner, and more particularly, to an air conditioner configured to expose a high pressure service valve and a low pressure service valve for controlling the access of a refrigerant to the outside of the air conditioner.

In general, an air conditioner is a cooling / heating device installed in a space or a wall of a room such as a vehicle, an office, or a home to cool or heat a room. The air conditioner is composed of a compressor, a condenser, an expansion valve, and an evaporator. Appliance.

In particular, the air conditioner is usually installed on the heat dissipation side (mainly installed in the outdoor when applied to the general air conditioner, also referred to as 'outdoor side' or 'outdoor unit') and the endothermic side (when applied to the general air conditioner) Since it is mainly installed indoors, it is also referred to as 'indoor' or 'indoor'), and a condenser and a compressor are installed on the heat dissipation side, and an evaporator is installed on the endothermic side.

As is well known, the air conditioner can be broadly divided into a separate air conditioner in which the heat dissipation side and the heat absorption side are separated, and an integrated air conditioner in which the heat dissipation side and the heat absorption side are integrated. The separate air conditioner is divided into a package type, a wall mount type, a ceiling mount type, and the like, depending on the mounting type. In addition, the integrated air conditioner has a window-type air conditioner in which the heat absorbing side is formed in the room center and the heat dissipating side in the outdoor, and is installed in the wall besides the window.

Meanwhile, among the integrated air conditioners described above, an air conditioner configured to be movable as necessary is shown in FIGS. 1 to 3.

As shown in these figures, the appearance of the air conditioner is formed by a substantially rectangular cylindrical case. That is, the front panel 10 to form a front appearance, the side panel 20 to form a side appearance, the rear panel 30 to form a rear appearance, the top panel 40 to form a top appearance, and the lower appearance It consists of the base pan 50 to form.

A plurality of components are installed in the case as described above, and the barrier 60 is installed across the front and rear between the front panel 10 and the rear panel 30. Therefore, the heat absorbing side 70 is formed on the left side and the heat dissipating side 80 is formed on the right side of the barrier 60.

An indoor fan 72 is installed at the rear end of the heat absorbing side 70. The indoor fan 72 serves to force the flow of air so that the air introduced through the endothermic side suction opening 22 to be described later is discharged again. In addition, a fan housing 72 'is provided around the indoor fan 72, and a bottom of the fan housing 72' is installed to be in contact with the base fan 50, and a rear end of the fan housing 72 'is provided. It is installed to contact).

On the other hand, the side panel 20 is formed with an endothermic side suction opening 22, which is an inlet for intake of indoor air, and an endothermic side outlet opening 24, which is an outlet through which the air inside is discharged back into the indoor space. do.

That is, the heat absorbing side suction opening 22 is formed in the first half of the side panel 20 formed at the left end of the front panel 10. In addition, the suction port duct guide 22 ′ is formed at the edge of the heat absorbing side suction port 22 to protrude to the left side to facilitate the installation of a duct (not shown).

Then, the heat absorbing side discharge port 24 is formed at the rear of the heat absorbing side suction opening 22. The heat absorbing side discharge port 24 is formed at a position corresponding to the left side of the indoor fan 72, more specifically, to the left side of the upper half of the indoor fan 72 so that air discharged from the indoor fan 72 in the circumferential direction is discharged. Easily discharged to the indoor space. A discharge port duct guide 24 ′ is formed at the edge of the endothermic side discharge port 24 to guide the installation of a duct (not shown).

The endothermic side 70 is provided with an evaporator 74, also called an indoor side heat exchanger. The evaporator 74 is provided over the leading end of the barrier 60 from between the endothermic side suction opening 22 and the endothermic side discharge opening 24. Therefore, the air in the indoor space introduced through the endothermic side suction opening 22 passes through the evaporator 74 and undergoes heat exchange, and then returns to the indoor space through the endothermic side discharge opening 24 again.

A drain pan 76 is provided below the evaporator 74. The drain pan 76 is provided at a position corresponding to the lower end of the evaporator 74 to collect condensed water falling from the evaporator 74. A drain hole 76 ′ is formed at the tip of the drain pan 76 to guide the condensed water collected in the drain pan 76 to be discharged to the outside. Therefore, the drain hole 76 ′ is configured to contact the lower end of the front panel 10 and is installed to communicate with the outside.

The compressor 82 is installed at the inner center of the heat radiation side 80 formed at the right side of the barrier 60. The compressor 82 compresses the refrigerant at a high temperature and high pressure, and a relatively large scroll compressor is used. The compressor 82 is connected to the pipe 82 ′ in which the refrigerant flows therein, and a service valve 82 ″ for refrigerant supplementation is connected to one side of the pipe 82 ′.

On the other hand, the heat dissipation side 80 is provided with a condenser 84, also called an outdoor heat exchanger. The condenser 84 is installed in a substantially '-' shape (when viewed from above) to surround the right side of the heat dissipation side 80 and is introduced through the rear panel 30 and the right side panel 20. Ensure heat exchange with air. Therefore, a suction grill (not shown) may be further installed on the side panel 20 and the rear panel 30.

The top panel 40 is provided with an outdoor fan 86. That is, the heat dissipation side discharge port 42 is formed in the upper panel 40 corresponding to the heat dissipation side 80, and the outdoor fan 86 is installed under the heat dissipation side discharge port 42. On the other hand, the orifice 44 for guiding the flow of air is further provided on the outside of the outdoor fan 86, the discharge grill 46 is provided on the upper side of the heat dissipation side discharge port 42. In addition, the rear end of the heat absorbing side 70 is further provided with a control panel 58 for controlling the operation of the air conditioner.

The base frame 52 is installed below the base fan 50. The base frame 52 supports the air conditioner as described above, and the lift holes 52 'are formed on the front and rear of the base frame 52 in pairs on the left and right. A part of the lift, such as a forklift, is inserted into the lift hole 52 'to easily lift the air conditioner.

However, the above conventional technologies have the following problems.

In the conventional configuration as described above, the service valve 82 " is installed in any portion of the pipe 82 'in communication with the compressor 82, and the service valve 82 " is located inside the air conditioner. Therefore, there is a problem in that a service such as refrigerant supplement is difficult.

That is, in order to replenish the refrigerant through the service valve 82 ″, the rear panel 30 of the air conditioner needs to be removed and then the refrigerant needs to be refilled.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide an air conditioner configured to expose a service valve for replenishing refrigerant to the outside of the front panel on the heat absorbing side.

According to a feature of the present invention for achieving the above object, the present invention comprises a compressor for compressing a refrigerant; A condenser provided on the heat dissipation side and generating heat exchange; An evaporator installed on the endothermic side and generating heat exchange; A high pressure service valve installed at one side of the high pressure pipe connecting the compressor and the condenser to control the access of the refrigerant; A low pressure service valve installed at one side of the low pressure pipe connecting the compressor and the evaporator to control the access of the refrigerant; The high pressure service valve and the low pressure service valve may be exposed to the outside of the heat dissipation side.

The high pressure service valve and the low pressure service valve are characterized in that the front of the front panel to form a front appearance.

The front panel may include a high pressure service port for guiding the installation of the high pressure service valve and a low pressure service port for guiding the installation of the low pressure service valve.

According to the air conditioner according to the present invention having such a configuration, there is an advantage that the refrigerant amount check and the refrigerant refilling operation are easier.

Hereinafter, the configuration of a preferred embodiment of the air conditioner according to the present invention as described above will be described in detail with reference to the accompanying drawings.

FIG. 4 is a perspective view of a preferred embodiment of the air conditioner according to the present invention, FIG. 5 is an exploded perspective view of the air conditioner according to the present invention, and FIG. 6 is an air conditioner according to the present invention. The internal configuration is shown in partial perspective.

As shown in these figures, the appearance of the air conditioner is formed by an outer case 100 having a substantially rectangular cylindrical shape. That is, the front panel 110 to form a front appearance, the side panel 120 to form a side appearance, the rear panel 130 to form a rear appearance, the top panel 140 to form a top appearance, and the lower appearance It consists of a base fan 150 to form.

In the outer case 100 formed by the plurality of panels as described above, a barrier 200 ′ partitioning left and right is formed. That is, the barrier 200 'is installed across the front and rear between the front panel 110 and the rear panel 130. Accordingly, the heat absorbing side 200 is formed at the left side and the heat dissipating side 300 is formed at the right side based on the barrier 200 ′. The front end of the barrier 200 ′ is formed to be inclined to the right side to increase the air inlet of the heat absorbing side 200.

A pair of vents are formed side by side on the left side of the front panel 110. That is, the pair of air vents includes a heat absorbing side discharge port 112 formed on the left side and a heat absorbing side suction port 114 formed on the right side. The endothermic side discharge port 112 serves as an outlet through which the heat exchanged air inside the air conditioner is discharged into an indoor space (a space for air conditioning), and the endothermic side suction port 114 is an indoor space (for air conditioning Serves as an inlet through which air in the space is introduced into the air conditioner.

The heat absorbing side discharge port 112 is formed in a quadrangular shape so as to correspond to the tip shape of the discharge flow path 220 to be described below, and the heat absorbing side suction port 114 corresponds to a duct (not shown) connected to the outside. It is preferred to be molded into a cylindrical shape as much as possible. On the other hand, the endothermic side discharge port 112 and the endothermic side suction port 114 is provided with a circular duct guide 116. The duct guide 116 serves to guide the cylindrical duct (not shown) to be easily connected to the heat absorbing side discharge port 112 and the heat absorbing side suction port 114.

The right side of the front panel 110 is provided with service ports 132 and 132 'provided with service valves 316 and 316' for refilling the refrigerant of the compressor 310 to be described below. That is, a high pressure service port 132 in which the high pressure service valve 316 to be described below is installed, and a low pressure service port 132 'in which the low pressure service valve 316' is installed are provided.

The rear panel 130 is composed of a heat absorbing side rear panel 130 'and a heat dissipating side rear panel 130 ". That is, the heat absorbing side is formed on a relatively left side to form a rear view of the heat absorbing side 200. And a heat dissipation side rear panel 130 ″ provided on the rear panel 130 ′ and relatively on the right side to form a rear appearance of the heat dissipation side 300.

An indoor fan 210 is installed at the rear end of the heat absorbing side 200. The indoor fan 210 serves to force the flow of air so that the air introduced through the endothermic side suction port 114 is discharged back to the indoor space. A sirocco fan is mainly used as the indoor fan 210. Such a sirocco fan is a type of blower widely used for ventilation or air control, and is called a multiblade fan with a relatively large number of wings of about 30 to 50.

The indoor fan 210 is rotated by the fan motor 212 provided on one side, the fan housing 214 is formed to surround the indoor fan 210 on the outside of the indoor fan 210. The fan housing 214 is rounded to correspond to the shape of the outer circumferential surface of the indoor fan 210 to protect the fan motor 212, while the air formed by the rotation of the fan motor 212 as shown To guide the flow of.

In addition, a support member 216 for supporting the fan housing 214 is provided at the bottom of the fan housing 214. The support member 216 is shaped to have a predetermined height in a '∩' shape so that the fan housing 214 is spaced upwards from the base fan 150 by a predetermined distance. Therefore, the lower end of the support member 216 is fixed to the base fan 150 and the upper end is in contact with the lower end of the fan housing 214.

The discharge passage 220 is formed in communication with the tip of the fan housing 214. The discharge passage 220 extends forward from the lower half of the fan housing 214 to a predetermined length and serves as a passage through which air discharged by the fan housing 214 moves to the heat absorbing side discharge port 112. .

Therefore, the air introduced into the fan housing 214 from the side of the fan housing 214 is forcibly rotated by the indoor fan 210 to be guided to the discharge passage 220, and the discharge passage 220 Air passing through is discharged to the space for air conditioning through the endothermic side discharge port 112.

An electric heater 230 may be further installed in the discharge passage 220. The electric heater 230 is to improve the temperature of the air discharged into the indoor space, is installed across the discharge flow path 220 from side to side, provided in pairs to enter and exit through the heater installation port 222 do.

On the other hand, the control box 240 is formed on the left side of the discharge passage 220, the control box 240 is divided into upper and lower portions by the control barrier 242. That is, the upper part of the control barrier 242 is formed with a component seating portion 240 ′ in which a plurality of components for controlling the air conditioner is formed, the heater mounting portion is fixed to one side of the electric heater 230 in the lower side 240 "is formed.

In addition, the control barrier 242 is provided with a wire entrance 244 through which various components provided in the component seating part 240 ′ and wires connecting other components in the air conditioner come in and out. The wire entrance 244 is formed in a circular shape, preferably two are formed side by side.

The endothermic side 200 is provided with an evaporator 250, also called an indoor side heat exchanger. The evaporator 250 is a heat exchange between the refrigerant flowing through the inside and the outside air, and is installed slightly obliquely across the front and rear of the heat absorbing side (200). That is, the rear end is installed to contact the rear end of the barrier 200 ', and the front end is installed to be located between the heat absorbing side suction opening 114 and the heat absorbing side discharge opening 112 formed in the front panel 110. On the other hand, the evaporator 250 is installed at a predetermined interval from the indoor fan 210. Therefore, condensate generated in the evaporator 250 is prevented from being sucked into the indoor fan 210.

The drain pan 260 is provided below the evaporator 250. The drain pan 260 is provided at a position corresponding to the lower end of the evaporator 250 to collect condensed water falling from the evaporator 250. The front and rear ends of the drain pan 260 are provided with a drain hole 262 which is an outlet through which condensed water accumulated in the drain pan 260 is discharged to the outside.

That is, a drain hole 262 is formed at the front end of the drain pan 260 to discharge the condensed water collected in the drain pan 260 to the front of the front panel 110, and a rear end of the drain pan 260. The drain hole 262 'is further formed to allow the condensate to be discharged to the rear side.

The compressor 310 is installed on the heat radiation side 300 formed on the right side of the barrier 200 ′. The compressor 310 is to compress the refrigerant in a state of high temperature and high pressure, a relatively small rotary compressor is used, it is installed on one side of the rear end of the heat dissipation side (300).

The compressor 310 is connected to the refrigerant pipe 312 to be a flow passage of the refrigerant. That is, between the compressor 310 and the condenser 320 to be described below, a high pressure pipe 312 ′ through which a relatively high pressure refrigerant flows is provided, and between the compressor 310 and the evaporator 250 is relatively high. A low pressure pipe 312 "through which a low pressure refrigerant flows is provided.

In addition, the refrigerant pipe 312 is further formed to communicate with the service pipe 314. That is, the high pressure service pipe 314 ′ is formed in communication with the high pressure pipe 312 ′, and the low pressure service pipe 314 ″ is formed in communication with the low pressure pipe 312 ″.

In addition, service valves 316 and 316 'are formed at the end of the service pipe 314. The service valves 316 and 316 'open and close the refrigerant pipe 312, and refrigerant is injected or discharged through the service valves 316 and 316'.

Meanwhile, the service valves 316 and 316 'are provided at the end of the high pressure service pipe 314' and the low pressure service valve 316 'provided at the end of the low pressure service pipe 314 ". The service valves 316 and 316 'are mounted at the service ports 132 and 132' provided in the front panel 110.

The heat dissipation side 300 is provided with a condenser 320, also called an outdoor heat exchanger. The condenser 320 is formed to have a substantially '-' shape (when viewed from above) to surround the right side of the heat dissipation side 300 and the air introduced through the rear panel 130 and the side panel 120 on the right side. To allow heat exchange. Therefore, a suction grill (not shown) may be further installed on the right side portions of the side panel 120 and the rear panel 130.

The upper panel 140 is provided with an outdoor fan 330 for forcing the air flow of the heat radiation side 300. That is, a circular heat dissipation side discharge port 142 is formed on the top panel 140 that shields the top surface of the heat dissipation side 300, and the outdoor fan 330 is installed below the heat dissipation side discharge port 142 to dissipate the heat dissipation side. Air of 300 is sent upwards.

An orifice 340 that guides the flow of air is further installed outside the outdoor fan 330. The orifice 340 is installed so that the upper end is in contact with the bottom surface of the heat dissipation side discharge port 142, and extends downward to have a substantially cylindrical shape. Therefore, the air from the heat radiation side 300 is guided to discharge upward through the outdoor fan 330, the discharge grill 144 is further provided on the upper side of the heat radiation side discharge port 142.

The base frame 400 is installed below the base fan 150. The base frame 400 supports the base fan 150 in which a plurality of components are installed as described above, and is formed long in left and right and has a predetermined space formed therein so that the side cross section has a '∪' shape. And, the base frame 400 is installed side by side at the front and rear ends of the base fan 150, respectively.

Lift bases 410 are formed in the base frame 400 in pairs on the left and right. The lift hole 410 is formed to a predetermined size so that a lift (not shown) such as a forklift can be easily inserted. Therefore, the movement of the air conditioner is facilitated by using the lift hole 410. On the other hand, it is possible to insert a lift, such as a forklift in the left and right side of the base frame 400. That is, the base frame 400 is formed so that the side cross section has a '∪' shape, it is possible to insert a lift (not shown) from the side into the recessed space therein.

Hereinafter, the operation of the air conditioner according to the present invention having the configuration as described above.

First, the operation state of the endothermic side 200, the duct guide 116 of the front panel 110 is installed a duct (not shown) is installed inside the air conditioner communicates with the indoor space (space for air conditioning) In this state, the indoor fan 210 is driven.

The suction force is generated according to the driving of the indoor fan 210, and the air of the space for air conditioning is introduced into the air conditioner through the heat absorbing side suction port 114. The air introduced into the heat exchanger (cooling) is made while passing through the evaporator 250 and then introduced into the fan housing 214 through the side of the fan housing 214.

Air introduced into the fan housing 214 is discharged in the circumferential direction by the indoor fan 210 and flows into the discharge passage 220. In this case, the discharge passage 220 is in communication with the endothermic side discharge port 112, so that the air passing through the discharge passage 220 passes through the duct (not shown) through the endothermic side discharge port 112 and is air-conditioned. Ejected to space for

On the other hand, if necessary, the electric heater 230 may be installed in the discharge passage 220. When the electric heater 230 is installed, the discharge air passing through the discharge passage 220 by the indoor fan 210 is discharged. Heating causes the temperature to rise.

Of course, at this time, the evaporator 250 should be configured to reverse the flow of the refrigerant to serve as a condenser or to prevent heat transfer through the evaporator 250. That is, if the flow of the refrigerant through the compressor 310 does not occur, the air introduced into the interior by the rotation of the indoor fan 210 does not undergo heat exchange while passing through the evaporator 250, and thus the discharged air While passing through the discharge passage 220, only heat is supplied from the electric heater 230 and discharged in a high temperature state.

Next, referring to the air flow of the heat dissipation side 300, the air outside the air conditioner passes through the condenser 320 and flows into the air conditioner as the outdoor fan 330 rotates. At this time, the incoming air is heat-exchanged with the refrigerant in the condenser 320 to increase the temperature, the high-temperature air is discharged upward through the outdoor fan 330.

If the air conditioner needs to check the amount of refrigerant or needs to replenish the refrigerant, the service valves 316 and 316 'fixed to the front panel 110 and the service ports 132 and 132' are opened to work. You can do

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention may be made by those skilled in the art within the above technical scope.

In the air conditioner according to the present invention as described in detail above, the service valve is exposed to the outside of the front panel through the front panel. Therefore, there is an advantage in that service operations such as refrigerant amount check and refrigerant exchange are convenient.

That is, in the related art, since the service valve is located inside the air conditioner, there is a problem in that at least one panel needs to be removed during the refrigerant amount check operation to determine whether the refrigerant needs to be replenished, as well as to replenish the refrigerant. In the configuration of the present invention, the service valve is opened from the outside without removing the panel to check the amount of refrigerant or to replenish the refrigerant.

As a result, according to the present invention, there is an advantage that service work efficiency such as refrigerant amount check and refrigerant replenishment is improved.

1 is a perspective view of an air conditioner according to the prior art.

Figure 2 is an exploded perspective view showing the internal configuration of an air conditioner according to the prior art.

Figure 3 is a perspective view showing the installation state of the compressor and the service valve of the air conditioner according to the prior art.

Figure 4 is a perspective view showing a preferred embodiment of the air conditioner according to the present invention.

Figure 5 is an exploded perspective view showing the main configuration of the preferred embodiment of the air conditioner according to the present invention.

Figure 6 is a partial perspective view showing the inside of a preferred embodiment of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Outer case 110. Front panel

112. Endothermic side outlet 114. Endothermic side inlet

116. Duct Guide 120. Side Panel

130. Rear panel 140. Top panel

142. Heat dissipation outlet 144. Discharge grill

150. Base fan 200. Endothermic side

200 '. Barrier 210. Indoor Fan

212.Fan motor 214. Fan housing

216. Supporting member 220. Discharge channel

230. Electric heater 240. Control box

240 '. Component Mount 240 ". Heater Mount

242. Control Barrier 250. Evaporator

260. Drain pan 262,262 '. Drain hole

300. Heat dissipation side 310. Compressor

320. Condenser 330. Outdoor Fan

340. Orifice 400. Baseframe

410. Lift hole

Claims (3)

A compressor for compressing the refrigerant; A condenser provided on the heat dissipation side and generating heat exchange; An evaporator installed on the endothermic side and generating heat exchange; A high pressure service valve installed at one side of the high pressure pipe connecting the compressor and the condenser to control the access of the refrigerant; A low pressure service valve installed at one side of the low pressure pipe connecting the compressor and the evaporator to control the access of the refrigerant; And the high pressure service valve and the low pressure service valve are exposed to the outside of the heat dissipation side. The air conditioner of claim 1, wherein the high pressure service valve and the low pressure service valve protrude forward of the front panel forming a front exterior. The method of claim 2, wherein the front panel, A high pressure service port for guiding the installation of the high pressure service valve; And a low pressure service port for guiding the installation of the low pressure service valve.