KR20050051770A - Indoor unit for air conditioner - Google Patents

Abstract

The present invention relates to an indoor unit of an air conditioner, wherein the heat insulating member provided inside the outer case is firmly supported by the heat insulating material fixing member.

The indoor unit of the air conditioner according to the present invention includes: an outer case 100 'forming an appearance; A heat insulating member 380 provided inside the outer case 100 'to block heat exchange; It has a configuration including a heat insulating material fixing member 382 for supporting the heat insulating member 380. The heat insulating material fixing member 382 is installed inside the outer case 100 ′ to allow the heat insulating member 380 to be in close contact with an inner surface of the outer case 100 ′. In addition, the insulating member fixing member 382 is made of a wire (wire), it is installed detachably to the outer case (100 '). According to the indoor unit of the air conditioner according to the present invention having such a configuration, since the heat insulation is more effective, there is an advantage that the efficiency of the air conditioner is improved.

Description

Indoor unit for air conditioner

The present invention relates to an air conditioner, and more particularly, to an indoor unit of an air conditioner, wherein a heat insulating member provided inside the outer case is firmly supported by a heat insulating material fixing member.

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

In particular, an air conditioner is an outdoor unit (sometimes called an 'outdoor' or a 'heat sink') mainly installed outdoors, and an indoor unit (also called an 'indoor' or 'heat absorbing side') mainly installed inside a building. The outdoor unit is provided with a condenser (outdoor heat exchanger) and a compressor, and the indoor unit is provided with an evaporator (indoor heat exchanger).

As is well known, an air conditioner may be broadly 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 integrally installed.

FIG. 1 schematically shows an example of a separate air conditioner, and FIG. 2 shows an indoor unit configuration of the separate air conditioner shown in FIG. 1.

As shown in these figures, the air conditioner is mainly composed of an indoor unit 10 installed on the indoor side of the building and an outdoor unit 50 mainly installed on the outside of the building, and between the indoor unit 10 and the outdoor unit 50. The refrigerant pipe 60 is connected to guide the flow of the refrigerant.

The indoor unit 10 is formed to have a substantially hexagonal pillar shape, and the exterior is formed by the outer case 10 '. The outer case 10 ′ is formed by the front panel 12, the side panel 14, the rear panel 16, and the top panel 18. The lower surface is opened to form a suction port (not shown), and the second half of the upper panel 18 also penetrates upward and downward to form a discharge port 20. Meanwhile, a connection duct (not shown) is further installed at the suction port and the discharge port 20 to connect the indoor unit 10 and the space for air conditioning.

One end of the refrigerant pipe 60 penetrates through the front panel 12, and a through hole 12 ′ is exposed at a lower portion of the front panel 12 so that the drain portion 42 ′ formed in the drain pan 42 is described below. Is formed.

A barrier 22 partitioning the upper and lower sides is installed inside the indoor unit 10, and a control box 24 is provided above the barrier 22. The control box 24 has a plurality of parts for controlling the air conditioner, the rear of the control box 24 discharge port 20 for guiding the air discharged from the indoor fan 32 to be described below upwards Is formed.

The fan housing 30 is integrally formed on the bottom of the barrier 22. The fan housing 30 guides the flow of air generated by the indoor fan 32 installed therein, and the fan housing 30 includes a fan motor for driving the indoor fan 32. ) Is installed.

An indoor heat exchanger 40, also called an evaporator, is installed below the fan housing 30. The indoor heat exchanger (40) is a heat exchange between the refrigerant flowing through the inside and the air sucked by the indoor fan 32 is formed in a substantially '∧' shape. Therefore, the lower end may be fixed to the side panel 14 or to the front panel 12 and the rear panel 16.

A drain pan 42 is installed below the indoor heat exchanger 40. The drain pan 42 is installed above the base frame 44 provided at the lower end of the indoor unit 10, and serves to collect condensate generated in the indoor heat exchanger 40.

The drain part 42 ′ is formed to protrude forward from the front right side of the drain pan 42. The drain portion 42 ′ is installed to be exposed to the outside through the penetrating portion 12 ′ of the front panel 12 so that the condensed water accumulated in the drain pan 42 is discharged forward.

On the other hand, the inner side of the outer case 10 'is provided with a heat insulating member 10 ". The insulating member 10" is installed along the inner surface of the outer case 10', and the inside of the indoor unit (10) Shut off heat exchange between outside.

However, the prior art as described above has the following problems.

In the prior art as described above, the heat insulating member 10 "is installed along the inner surface of the outer case 10 ', but since there is no separate supporting means for supporting the heat insulating member 10", the outer case 10 ') Is not attached properly and there is a problem that is removed.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide an indoor unit of an air conditioner in which a heat insulating member provided inside the outer case is firmly supported by a supporting means.

According to a feature of the present invention for achieving the object as described above, the present invention, the outer case to form an appearance; An insulation member provided inside the outer case to block heat exchange; It characterized in that it comprises a support means for supporting the heat insulating member.

The support means is installed inside the outer case, such that the heat insulating member is in close contact with the inner surface of the outer case.

In addition, the support means is characterized in that the wire (wire) is installed along the inner surface of the outer case.

And the support means is characterized in that it is installed detachably to the outer case.

According to the indoor unit of the air conditioner according to the present invention having such a configuration, since the heat insulation is more effective, there is an advantage that the efficiency of the air conditioner is improved.

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

FIG. 3 is a perspective view of a preferred embodiment of the indoor unit of the air conditioner according to the present invention, FIG. 4 is an exploded perspective view of the indoor unit of the air conditioner according to the present invention, and FIG. 5 is an indoor unit according to the present invention. The internal configuration of is shown. And, Figure 6 is a perspective view of a heat insulating material fixing member constituting an embodiment of the present invention, Figure 7 shows a state in which air flows in the embodiment of the present invention, Figure 8 of the indoor unit according to the present invention An inverted internal state is shown in front view.

As shown in these figures, the exterior of the indoor unit 100 of the air conditioner is a front panel (110,120) to form a front appearance, an outer case (100 ') forming a side and rear exterior, and to form a top exterior It has a configuration including a top panel 150. The outer case 100 ′ is formed of a side panel 130 forming a side appearance and a rear panel 140 forming a rear appearance.

The front panels 110 and 120 are divided into two upper and lower parts and include a front upper panel 110 provided at a relatively upper side, and a front lower panel 120 provided at a lower side of the front upper panel 110. In addition, a panel holder 160 is provided between the front upper panel 110 and the front lower panel 120, and a lower end of the front upper panel 110 and an upper end of the front lower panel 120 are disposed on the side panel. In close contact with (130).

The switch exposure hole 112 is formed at the upper left portion of the front upper panel 110. The switch exposure hole 112 is formed to have a substantially rectangular shape so that the power switch 376 to be described below is discharged to the outside, the switch exposure hole 112 is the case when the air conditioner is not used It is shielded by a shield plate 114 having a size corresponding to the switch exposure hole (112).

The front lower panel 120 has left and right piping holes 122 through which a refrigerant pipe (not shown) formed to communicate with the indoor heat exchanger 250 to be described below is formed. The pipe 122 is composed of a high pressure pipe 122 'through which a high pressure pipe (not shown) through which a relatively high pressure refrigerant flows, and a low pressure pipe hole 122 "through which a low pressure pipe (not shown) passes. do.

In the front lower panel 120, drain holes 124 are formed on the left and right sides of the drain pan 230 to be described below. On the other hand, the upper side of the drain hole 124 is a side drain hole 126 is further formed to expose the side drain portion 242 of the side drain pan 240 to be described below.

The top panel 150 forms an outer appearance of the first half of the upper surface of the indoor unit 100. And the rear side of the upper panel 150 penetrates up and down to form a discharge port 170, through which the internal air is discharged to the outside.

The lower frame 200 is provided at the lower end of the side panel 130. The lower frame 200 is formed long before and after the front end frame portion 204 and the front end of the side frame portion 202 and the front end of the side frame portion 202 fixed to the lower end of the side panel 130 and the It consists of a rear frame portion 206 that connects the rear ends of the side frame portions 202 with each other. Therefore, a rectangular inlet 210 is formed inside the lower frame 200 to guide the air introduced into the indoor unit 100 from the outside.

A fan sliding part 208 protruding laterally is further formed at the upper end of the side frame part 202. That is, the fan sliding part 208 is formed to protrude from the side frame part 202 toward the side (inner side) to support the drain pan 230 and the indoor heat exchanger 250 to be described below. The upper surface is configured to allow the drain pan 230 to slide back and forth.

A filter cover 220 is further provided at the front of the lower frame 200, and a rectangular air filter 222 is integrally formed at the rear of the filter cover 220. Therefore, when the filter cover 220 is fastened to the front end of the lower frame 200, the air filter 222 shields the inlet 210 to filter foreign matter from the air flowing from the outside.

The drain pan 230 is installed above the lower frame 200. The drain pan 230 collects and discharges the condensate generated by the indoor heat exchanger 250 to be described below, and a drain part that guides the condensate accumulated in the drain pan 230 to be discharged forward. 232 is formed.

Therefore, the drain portion 232 is exposed to the outside through the drain hole 124 of the front lower panel 120 to guide the discharge of condensate. On the other hand, it is preferable that the bottom surface of the drain pan 230 is formed to be inclined to a predetermined portion so that condensed water accumulated therein is naturally introduced to the tip portion.

Meanwhile, front and rear ends of the drain pan 230 may further include fan fixing members 234 and 236 for fixing the drain pan 230 to the lower frame 200. That is, the front end fixing member 234 is detachably provided at the front end of the drain pan 230 so that the front end of the drain pan 230 and the front end frame part 204 are coupled to each other.

The rear end fixing member 236 is provided at the rear end of the drain pan 230 so that the drain pan 230 and the rear end frame part 206 are coupled to each other. The rear end fixing member 236 is preferably formed integrally with the rear end frame portion 206.

A side drain pan 240 is further provided on the upper left end of the drain pan 230. The side drain fan 240 is formed at a height corresponding to the height of the indoor heat exchanger 250 to be described below, when the indoor unit 100 is laid lying inside the building, falling from the indoor heat exchanger 250 To collect condensate.

The side drain portion 242 is formed at the lower end of the side drain pan 240 to protrude forward. The side drain portion 242 serves to guide the condensate accumulated in the side drain pan 240 to be discharged forward through the side drain hole 126 of the front lower panel 120.

An indoor heat exchanger 250 is integrally installed on the upper surface of the drain pan 230. The indoor heat exchanger (250) is configured to form a heat exchange between a refrigerant flowing inside and external air, and is configured in a '∧' shape, and the front and rear surfaces are shielded to block the flow of air.

The center frame 260 is installed behind the panel holder 160. The center frame 260 is composed of a side portion 252 which is a portion fixed to the side panel 130 and a rear portion 254 that is a portion fixed to the rear panel 140. The fan guide guide 256 is further formed.

That is, when the indoor unit 100 is installed inverted, the indoor heat exchanger 250 and the drain pan 230 are installed upside down. At this time, the fan is formed to protrude to the inside of the central frame 260 to have a predetermined width. The guide guide 256 supports the bottom surface of the drain pan 230.

The upper frame 300 is installed at a predetermined interval on the upper side of the center frame 260. The upper frame 300 is composed of a barrier 310 for partitioning the top and bottom, and a vertical guide portion 320 is formed by extending vertically bent upward from the rear end of the barrier 310, the barrier 310 in the bottom A discharge hole 312 for guiding the discharge of air forcedly blown from the indoor fan 332 to be described is formed to pass through.

The housing assembly 330 is mounted below the barrier 310. The housing assembly 330 includes an indoor fan 332 for generating a flow of air, a fan motor 334 for providing rotational power to the indoor fan 332, and a wrap around the outside of the indoor fan 332. Has a configuration including a fan housing 336 is formed.

The outer circumferential surface of the fan motor 334 is further provided with a motor mount 338 for mounting the fan motor 334, the outlet of the air discharged by the indoor fan 332 at the upper end of the fan housing 336 An outlet 340 is formed.

Meanwhile, the housing mounting guide part 342 is further formed along the edge of the outlet 340. The housing mounting guide part 342 is formed to protrude outwardly from the edge of the outlet 340 to be coupled with a housing mounting part (not shown) formed on the bottom of the barrier 310 to slide back and forth.

The vertical guide portion 320 is formed at a predetermined height to correspond to the height of the exhaust guide member 350 to be described below to guide the air discharged through the discharge hole 312 upward. In addition, the vertical guide part 320 is formed such that the heater installation groove 322 fixed to the rear end of the electric heater 360 to be described below is recessed to the rear.

An exhaust guide member 350 is provided above the barrier 310. The exhaust guide member 350 guides the air forcedly blown by the indoor fan 332 upward, and includes a side plate 352 and a front plate 354, and discharge holes of the barrier 310. 312 is mounted on top. In addition, a heater installation hole 356 through which the electric heater 360 to be described below is formed on the front plate 354 of the exhaust guide member 350.

The electric heater 360 is installed through the heater installation port 356. The electric heater 360 is to generate heat by the power supplied from the outside to increase the temperature of the air, is installed in the exhaust guide member 350. That is, it is installed inside the discharge port 170 formed by the exhaust guide member 350 and the vertical guide portion 320 of the upper frame 300 to heat the air discharged by the indoor fan 332. Will be.

A heater support plate 362 is integrally formed at the front end of the electric heater 360. Thus, the heater support plate 362 is fixed to the front plate 354 of the exhaust guide member 350, the heater installation groove 322 formed in the vertical guide portion 320, the rear end of the electric heater (360) When received in the installation of the electric heater 360 is completed.

And the electric heater 360 may be selectively installed according to the user's intention, when not installing the electric heater 360, the heater installation port 356 of the exhaust guide member 350 is a separate shield plate ( (Not shown).

The control box 370 is formed in front of the exhaust guide member 350. The control box 370 is equipped with a plurality of control parts for controlling the operation of the air conditioner, such as the voltage transformer 372, the board 374, etc., the power switch 376 is installed at the left end. Therefore, the power switch 376 is exposed to the outside through the switch exposure hole 112 of the front upper panel 110. The upper panel 150 is shielded from an upper portion of the control box 370.

Meanwhile, a connection duct (not shown) may be further installed at the suction port 210 and the discharge port 170. That is, when the indoor unit 100 does not directly contact the space for air conditioning, a connection duct (not shown) connecting the indoor unit 100 and the space for air conditioning includes the inlet 210 and the outlet 170. It is installed in).

In addition, the inner surface of the outer case (100 ') is further provided with a heat insulating member 380 to insulate with the outside, the heat insulating material fixing member 382, which is a support means for the heat insulating member 380 is in close contact with the outer case is It is further installed in the center part.

The heat insulating material fixing member 382 is made of a wire having a predetermined diameter, and the side fixing portion 382a and the heat insulating member (3Aa) which closely adhere the heat insulating member 380 to the inner surface of the side panel 130. 380 is formed of a rear fixing part 382b which is in close contact with the inner surface of the rear panel 140, and a tip bent part 382c which is fitted and fixed to the front end of the side panel 130.

The tip bent portion 382c is vertically bent upwardly extending from the tip of the heat insulating material fixing member 382 and is formed to be inserted into the tip portion of the side panel 130 to allow the heat insulating material fixing member 382 to be stretched by a wire. ) Is firmly fixed to the inner surface of the outer case (100 ').

Hereinafter, the operation of the indoor unit of the air conditioner as described above.

First, look at the operating state when the indoor unit 100 is used for cooling the space for air conditioning.

The indoor unit 100 having the configuration as described above is generally used in an upright state as shown in FIG. 7, wherein air is introduced into the indoor unit 100 from below through the suction port 210. That is, when the indoor fan 332 is rotated by the power applied from the outside, a suction force is generated, and the air from the outside (the space for air conditioning) is caused by the suction force through the suction port 210 to the indoor unit 100. Is sucked into the interior.

The air introduced into the interior through the inlet 210 is first filtered by the air filter 222, and then heat exchange occurs while passing through the indoor heat exchanger 250. That is, when the air conditioner is operated to cool, the indoor heat exchanger 250 acts as an evaporator, so that the air sucked through the inlet 210 deprives heat of the refrigerant flowing inside the indoor heat exchanger 250. Will be.

Meanwhile, when heat exchange occurs through the indoor heat exchanger 250, condensed water is generated in the indoor heat exchanger 250 due to a temperature difference, and the condensed water descends downward and is collected in the drain pan 230. The condensed water dropped to the drain pan 230 is transferred to the tip portion and discharged to the outside of the indoor unit 100 through the drain portion 232.

Air deprived of heat while passing through the indoor heat exchanger 250 is introduced into the indoor fan 332 through the side of the fan housing 336 and then discharged in the circumferential direction. The air discharged in the circumferential direction by the indoor fan 332 is guided by the fan housing 336 and discharged upward through the discharge port 340.

The air discharged through the discharge port 340 of the fan housing 336 is external (air) through the discharge port 170 formed by the exhaust guide member 350 and the vertical guide part 320 of the upper frame 300. Space for coordination). Of course, although not shown at this time, a separate connection duct is further installed between the discharge port 170 and the space for air conditioning to guide the air.

Although not shown, the outdoor heat exchanger inside the outdoor unit installed in a separate space while the indoor unit 100 is operated as described above serves as a condenser. Therefore, since the refrigerant inside the outdoor heat exchanger emits heat into the air, the indoor unit 100 and the components of the outdoor unit form one cycle as a whole.

Next, look at the case where the indoor unit 100 is used for heating. At this time, the indoor heat exchanger 250 acts as a condenser by reversing the flow of the refrigerant (working fluid) flowing inside the indoor heat exchanger 250 or by simply operating the electric heater 360 to heat air. Done.

Looking at the case of heating using the electric heater 360, the air of the outside (space for air conditioning) is introduced into the indoor unit 100 through the suction port 210 in accordance with the rotation of the indoor fan 332. Then passes through the indoor heat exchanger (250).

At this time, since the indoor heat exchanger 250 is in an inoperable state, heat exchange is not performed, and the sucked air moves upward and flows into the indoor fan 332 through the side of the fan housing 336. . The air forcedly blown by the indoor fan 332 is guided upward by the fan housing 336 to pass through the exhaust guide member 350.

At this time, since the electric heater 360 is heated by the power applied from the outside, the air passing through the exhaust guide member 350 is heated by the electric heater 360, the hot air is discharged 170 It is discharged to the indoor space (space for air conditioning) through. This realizes the heating of the indoor space.

Meanwhile, the indoor unit 100 as described above needs to be installed upside down as necessary. When the indoor unit 100 is inverted and installed in this manner, the installation state of the indoor heat exchanger 250 and the drain pan 230 should be changed as shown in FIG. 8 in order to process the condensed water generated by the indoor heat exchanger 250. do.

That is, as shown in FIG. 7 (upright state), the indoor heat exchanger 250 and the drain pan 230 installed at the lower end of the indoor unit 100 are pulled forward and separated, and then the indoor unit 100 is turned upside down. Upright, the indoor heat exchanger 250 and the drain pan 230 is installed on the center frame 260.

In addition, the front lower panel 120 is also removed and mounted upside down like the indoor heat exchanger 250. In this case, the drain portion 232 of the drain pan 230 is exposed to the outside through the drain hole 124 of the front lower panel 120 as in the case where the indoor unit 100 is upright.

On the other hand, when the drain pan 230 and the indoor heat exchanger 250 is mounted on the upper surface of the center frame 260 as described above, the rear end of the drain pan 230 is raised to the front end of the center frame 260. Then, when the drain pan 230 is pushed backward, both ends of the drain pan 230 slide in a state where it is mounted on the upper surface of the fan guide guide 256 of the center frame 260 and is pushed back.

As such, the indoor heat exchanger 250 and the drain pan 230 are mounted upside down in a front view in FIG. 8. Referring to the operation state of the indoor heat exchanger 250 and the drain pan 230, the external heat exchanger 250 and the drain pan 230 are installed in an upright state. First, the indoor fan 332 rotates.

As the indoor fan 332 rotates, air from outside (indoor space or space for air conditioning) is sucked into the indoor unit 100 from the upper portion through the suction port 210. The air sucked through the suction port 210 passes through the indoor heat exchanger 250 and exchanges heat with the refrigerant therein to become cold air.

At this time, the surface of the indoor heat exchanger 250 generates condensate during heat exchange, and the condensate is collected in the drain pan 230 which is integrally installed at the lower portion. In this case, the condensed water accumulated in the drain pan 230 is discharged to the outside (front) through the drain portion 232 of the tip portion.

The air passing through the indoor heat exchanger 250 descends downward and flows into the indoor fan 332 through the side of the fan housing 336, and the air introduced into the indoor fan 332 is discharged in the circumferential direction. It is discharged downward through the discharge port 170. In addition, a connection duct (not shown) may be further installed at the discharge port 170, and the connection duct guides the air discharged to the discharge port 170 to a space for air conditioning.

Meanwhile, even when the indoor unit 100 is installed upright or inverted as described above, the heat insulating material fixing member 382 firmly supports the heat insulating member 380 inside the outer case 100 ', and thus the heat insulating member 380. It does not flow down.

In addition, the insulating material fixing member 382 is composed of a wire (wire), so it is easily bent, it is easy to attach and detach. That is, the side fixing portion 382a is bent to a certain portion, and then inserted or removed at the front end of the side panel 130 so that the detachable operation is easy.

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 indoor unit of the air conditioner according to the present invention as described in detail above, an inner heat insulating material fixing member is installed at the inner central portion of the outer case to support the heat insulating material provided on the inner surface of the outer case.

Therefore, since the heat insulating material is in close contact with the inner surface of the outer case is prevented from flowing down, the heat insulation is made more effectively.

That is, in the present invention, since the heat exchange blocking of the inside and the outside of the indoor unit is more reliably performed, the overall efficiency of the air conditioner is improved.

On the other hand, the heat insulating material fixing member is composed of a wire (wire), so the elastic force due to its own shape is generated. Therefore, there is an advantage that the work efficiency is improved by the removable detachable insulation member.

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

Figure 2 is a perspective view of a state in which the front panel showing the internal configuration of the indoor unit of the air conditioner according to the prior art removed.

Figure 3 is a perspective view showing the appearance configuration of a preferred embodiment of the indoor unit of the air conditioner according to the present invention.

Figure 4 is an exploded perspective view showing the configuration of a preferred embodiment of the indoor unit of the air conditioner according to the present invention.

5 is a perspective view showing an internal configuration of an embodiment of the present invention.

Figure 6 is a perspective view showing the configuration of the heat insulating material fixing member constituting an embodiment of the present invention.

Figure 7 is an internal front view showing a state in which air flows through the interior of the embodiment of the present invention.

8 is an internal front view showing an inverted installation state of the indoor unit of the air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Indoor unit 110. Front upper panel

112. Switch exposure hole 114. Shield plate

120. Front lower panel 122. Plumber

124. Drain hole 130. Side panel

140. Rear Panel 150. Top Panel

160. Panel holder 170. Outlet

200. Bottom frame 208. Fan sliding part

210. Suction port 220. Filter cover

222.Air filter 230.Drain pan

232. Drains 234. Tip fixing members

236. Rear end fixing member 240. Side drain pan

242. Side drain section 250. Indoor heat exchanger

260.Center frame 300.Upper frame

310. Barriers 320. Vertical Guides

330. Housing Assembly 332. Indoor Fan

334. Fan motor 336. Fan housing

338. Motor mount 340. Outlet

342. Housing mounting guide 350. Exhaust guide member

356. Heater installation 360. Electric heater

362. Heater support plate 370. Control box

372. Voltage transformer 374. Board

376. Power switch 380. Insulation member

382. Insulation fixing member

Claims (4)

An outer case forming an appearance; An insulation member provided inside the outer case to block heat exchange; Indoor unit of the air conditioner, characterized in that it comprises a support means for supporting the heat insulating member. The indoor unit of an air conditioner according to claim 1, wherein the support means is installed inside the outer case so that the heat insulating member is in close contact with the inner surface of the outer case. The indoor unit of an air conditioner according to claim 1, wherein the support means is a wire installed along an inner surface of the outer case. The indoor unit of an air conditioner according to claim 1, wherein the support means is detachably installed in the outer case.