KR20050034145A - Air conditioner - Google Patents

Abstract

The present invention relates to an integrated air conditioner having a plurality of orifices and a plurality of indoor fans perforated.

An integrated air conditioner according to the present invention, the base fan 100 constituting the lower appearance; Heat exchangers 400 and 550 for performing heat exchange between the working fluid and the air; An air guide 300 for guiding air flow; A plurality of indoor fans 420 for generating air flow; A plurality of orifice holes (412 ') which is a flow passage of air is characterized in that it comprises a perforated orifice (410). The orifice 410 includes a main body plate 412 on which a plurality of orifice holes 412 'are formed, an inclined surface 413 extending inclined forward at an angle from an upper end of the main body plate 412, and The upper surface plate 414 is formed to extend at a predetermined angle from the distal end of the inclined surface 413, a plurality of reinforcing ribs 418 are further formed on the upper surface plate 414 to reinforce the strength. According to this invention, there is an advantage that the heat exchange efficiency is improved.

Description

Integrated Air Conditioner {Air conditioner}

The present invention relates to an air conditioner, and more particularly, to an integrated air conditioner in which a plurality of orifice holes corresponding to the number of indoor fans are formed in an orifice.

1 is an exploded perspective view showing a main configuration of an integrated air conditioner according to the prior art. Looking at the internal structure of the integrated air conditioner with reference to this, the base fan (1) forms the bottom of the air conditioner. The front panel 3 is installed on the indoor front surface of the base fan 1.

In the front panel 3, a suction part 3i, which is a passage through which air in the room is introduced, is formed at a lower side thereof, and an upper part of the front panel 3 has a discharge grill 3e for discharging the air heat-exchanged inside the air conditioner back into the room. Is formed. In the discharge grill 3e, a plurality of discharge holes 3e 'serving as a passage of the discharged air are formed.

Meanwhile, a suction grill 4 is installed in front of the suction part 3i, and a plurality of suction holes 4 'are formed in the suction grill 4, which is a passage for the air to be sucked. A filter (not shown) is further provided between 4) and suction part 3i.

An indoor heat exchanger 5 is installed inside the front panel 3. The indoor heat exchanger (5) is for heat exchange between the air sucked through the suction unit (3i) and the working fluid of the air conditioning cycle, more precisely installed in the air guide (7) to be described below.

An air guide 7 is installed on the base fan 1 at the rear of the indoor heat exchanger 5. The air guide 7 serves to partition the air conditioner into the indoor side and the outdoor side as a whole. Therefore, the indoor side and the outdoor side are blocked by the air guide 7 to limit the flow of air therebetween. At the top of the air guide 7 is formed a brace for connection with the shroud 18, which will be described below.

A scroll 9 is installed inside the air guide 7. The scroll 9 has a flow guide surface 9g formed with a predetermined curvature from one inner side to the other side thereof.

An orifice 11 is installed to correspond to the front surface of the scroll 9, that is, the indoor heat exchanger 5. The orifice 11 is perforated with an orifice hole 12 which guides the air flowing through the indoor heat exchanger 5 to the indoor fan 13 which will be described below. A discharge guide 11e for guiding the air heat-exchanged with the discharge grill 3e is integrally formed at the upper end of the orifice 11.

An indoor fan 13 is installed inside the scroll 9 to allow indoor air to flow through the suction unit 3i, the indoor heat exchanger 5, and the orifice hole 12. The indoor fan 13 sucks air through the orifice hole 12 and blows it in the centrifugal direction. The blown air is guided along the flow guide surface 9g to the discharge guide 11e. Flows.

The part described so far is the indoor side of the integrated air conditioner, and now describes the configuration of the outdoor side partitioned from the indoor side by the air guide 7.

On the outdoor side of the air guide 7 is mounted a motor 15 for rotating the indoor fan 13 and the blowing fan 17 to be described below. The motor 15 protrudes in a direction in which the rotation shafts face each other. One side of the rotating shaft extends to the center of the scroll (9) through the air guide (7) to rotate the indoor fan (13).

And the blower fan 17 is installed on the outdoor rotating shaft of the motor (15). The blower fan 17 serves to exchange heat by sucking outside air to the outdoor side of the air conditioner and passing the outdoor heat exchanger 19 to be described below. The blower fan 17 is provided with a ring 17r for connecting the wing tip thereof.

Next, a shroud 18 for guiding the air flow formed by the blowing fan 17 is installed on the base fan 1. The shroud 18 is formed with a through hole 18 ′ so that air flow is formed in accordance with the rotation of the blowing fan 17 communicating with the outdoor heat exchanger 19 side so that the blowing fan 17 is located. The shroud 18 guides the air sucked from the outside by the blower fan 17 and serves to flow to the entire outdoor heat exchanger 19 to be described below. The shroud 18 is fastened to both ends of the outdoor heat exchanger 19, and is also connected to the air guide 7 through a brace so that an upper end thereof is supported.

The outdoor heat exchanger 19 is installed on the outdoor side of the base fan 1 so as to face the shroud 18. The outdoor heat exchanger 19 allows the air sucked from the outside and the working fluid of the air conditioning cycle to exchange heat. And a compressor 20 which is a component of an air conditioning cycle is installed on the base fan 1 corresponding to the air guide 7 and the shroud 18.

Finally, the outer case 21 shields the various parts forming the air conditioner as described above from the outside. The outcase 21 as described above constitutes the appearance of the air conditioner.

In the integrated air conditioner having such a configuration, a portion corresponding to the indoor side is used in a space for air conditioning, and a portion corresponding to the outdoor side is used outdoors.

However, the integrated air conditioner according to the prior art as described above has the following problems.

In the above-described prior art, one indoor fan 13 is provided, and thus only one orifice hole 12 is formed in the orifice 11. However, since the indoor heat exchanger 5 has a substantially rectangular shape, there is a problem in that sufficient heat exchange is not performed by the indoor fan 13 and the orifice hole 12 having a single shape.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide an integrated air conditioner having a plurality of indoor fans.

Another object of the present invention is to form a plurality of orifice holes corresponding to the number of indoor fans in the orifice.

According to a feature of the present invention for achieving the above object, the present invention, the base fan constituting the lower appearance; A heat exchanger configured to exchange heat between the working fluid and the air; An air guide for guiding air flow; A plurality of indoor fans generating air flow; An orifice in which a plurality of orifice holes serving as air flow passages are drilled; A front panel installed at the front end of the base fan to form a front exterior; It is fixed to one side of the base fan, characterized in that it comprises a cabinet to form an upper surface and side appearance.

The orifice may include a main body plate on which a plurality of orifice holes are formed, an inclined surface extending inclined forward at a predetermined angle from an upper end of the main body plate, and an upper surface plate extending at a predetermined angle from the tip of the inclined surface. It features.

The top plate is characterized in that the reinforcing ribs to further strengthen the strength is formed.

The orifice hole of the orifice is characterized in that it is formed in a number corresponding to the indoor fan.

The orifice ball and the indoor fan is characterized in that each pair is formed.

According to the integrated air conditioner according to the present invention having such a configuration, there is an advantage that the heat exchange efficiency is improved.

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

3 is a partial cutaway perspective view of the integrated air conditioner of the preferred embodiment of the present invention, Figure 4 is an exploded perspective view of the integrated air conditioner according to the present invention. And, Figure 5 shows the internal configuration of the integrated air conditioner according to the present invention in a perspective view, Figure 6 shows the air flow through the air guide of the integrated air conditioner according to the present invention, Figure 7 A perspective view of an orifice, which is a main component of the integrated air conditioner according to the invention, is shown. On the other hand, Figure 8 is a perspective view of the rear surface of the front panel which is a main component of the integrated air conditioner according to the present invention, Figure 9 and Figure 10 is a state in which air flows inside the integrated air conditioner according to the present invention. Is shown.

As shown in these drawings, the upper surface of the base fan 100 constituting the bottom surface of the air conditioner is partitioned into the indoor side and the outdoor side, and various components are installed. First, the front panel 200 is installed at the forefront of the indoor side.

The front panel 200 forms a front appearance of the air conditioner and is rounded forward. In other words, the front center portion is formed to protrude roundly in a forward direction.

The lower end of the front panel 200 is formed with a front suction port 210 that is a passage for suctioning the air of the space for air conditioning to the indoor side of the air conditioner, the side suction holes 215 on both sides of the front panel 200. Is formed. Therefore, the indoor air is introduced into the air conditioner through the lower end and the side of the front panel 200.

An indoor discharge port 220 for discharging the heat-exchanged air back to a space for air conditioning is formed at an upper end of the front panel 200. The distal end of the indoor discharge port 220 guides a discharge direction of the discharged air. Discharge guide member 222 is further provided.

The rear of the front panel 200 is provided with a discharge door 230 for selectively opening and closing the indoor discharge port 220. The discharge door 230 opens and closes the indoor discharge port 220 while sliding up and down.

Therefore, the door opening and closing means for opening and closing the discharge door 230 is provided on the rear surface of the front panel 200. The door opening and closing means includes a motor mounting part 242 fixed to the rear surface of the front panel 200, a driving motor 244 installed at one side of the motor mounting part 242, and a central axis of the driving motor 244. The extended rotational shaft 246, the rotation pinion 248 provided on the rotation shaft 246, and the rack 232 on which the gears meshing with the gears of the rotation pinion 248 are formed.

The rack 232 is integrally formed up and down on the rear surface of the discharge door 230 to serve to move the discharge door 230 upward or downward in accordance with the rotation of the rotary pinion 248. That is, when the driving motor 244 is driven by a power source applied from the outside, the rotation pinion 248 interlocked with the driving motor 244 is rotated so that the discharge door 230 slides up and down.

The air guide 300 partitions the indoor side and the outdoor side and guides the air flow in the indoor side on the base fan 100. The air guide 300 is composed of a lower air guide 310 located in a relatively lower portion, and an upper air guide 350 mounted on an upper side of the lower air guide 310.

An indoor side base 320 is integrally formed at a lower end of the lower air guide 310. That is, the indoor base 320 is vertically bent from the lower side of the lower air guide 310 to protrude forward and is formed to correspond to the front end of the base fan 100 and is fixed to the base fan 100. .

Then, left and right barriers 312 are formed in the front center of the lower air guide 310 up and down. That is, the left and right barriers 312 protrude forward from the front center of the lower air guide 310 to partition the front of the lower air guide 310 from side to side.

On the other hand, the left side and the right side of the lower air guide 310 is formed with an indoor fan installation hole 314, each of which the indoor fan 420 will be described below. The indoor fan installation hole 314 is formed in a size corresponding to the indoor fan 420 to be described below, it is preferable that the edge is formed to protrude a portion forward.

The upper air guide 350 has a discharge passage 352 for guiding air discharged from the indoor fan 420 to be described below to the indoor discharge port 220 of the front panel 200. That is, the discharge passage 352 is formed to protrude a predetermined portion from the rear end of the upper air guide 350 to the front end portion is formed to correspond to the indoor discharge port 220 of the front panel 200.

The filter installation part 360 protruding upward is formed on the upper surface of the upper air guide 350. The filter installation unit 360 has a high-performance filter 370 for purifying the air in the room to be discharged back to the room is seated from above.

A control box 380 is provided at the right end of the upper air guide 350. The control box 380 is formed to a predetermined size, and although not shown here, a control component such as a circuit board for controlling the operation of the capacitor and the air conditioner is installed.

An indoor heat exchanger 400 is installed in front of the air guide 300. The indoor heat exchanger 400 is a place where the working fluid of the heat exchange cycle heat exchanges with the air sucked in the space for air conditioning.

An orifice 410 is installed between the indoor heat exchanger 400 and the air guide 300. The orifice 410 serves to guide the air heat exchanged in the indoor heat exchanger 400.

The orifice 410 is formed in a substantially rectangular body plate 412, an inclined surface 413 extending inclined forward at a predetermined angle from an upper end of the body plate 412, and formed at the tip of the inclined surface 413 The upper surface plate 414 and the side support plate 416 is formed to protrude to a predetermined size in front of both side ends of the main body plate 412.

That is, the top plate 414 is formed to be perpendicular to the body plate 412, the inclined surface 413 is formed between the top plate 414 and the body plate 412 is introduced from below and discharged forward Smooth air movement

On the other hand, orifice holes 412 'corresponding to the indoor fan installation hole 314 of the lower air guide 310 are formed in pairs on the left and right of the body plate 412 of the orifice 410, respectively. That is, a circular orifice hole 412 'corresponding to the shape of the indoor fan 420 to be described below is formed in front of the indoor fan 420 by the same quantity as the indoor fan 420, so that the indoor heat exchanger 400 Guides the rear inlet of the heat exchanged air.

The upper plate 414 forms a lower surface of the discharge passage 352, and a reinforcing rib 418 is further formed on the upper plate 414. The reinforcing rib 418 serves to reinforce the strength of the upper plate 414, and is formed before and after the upper plate 414, and a plurality of reinforcing ribs 418 are formed at predetermined intervals.

An indoor fan 420 is installed inside the air guide 300 to provide a driving force for air flow in the indoor side. The indoor fans 420 are formed in pairs, one on each side. That is, the indoor fan 420 is located in the indoor fan installation hole 314 formed on the left and right of the lower air guide 310, respectively.

Next, although not shown, a vent hole may be further formed at one side of the air guide 300 and the orifice 410. External air is selectively sucked through the ventilation hole to ventilate the indoor air. Therefore, a damper is installed at one side of the air guide 300, and the damper is operated by a separate power motor to open and close the ventilation hole.

On the other hand, a ventilation tunnel (not shown) may be further formed to guide the outdoor air so that outside air flows through the ventilation hole as described above. That is, the ventilation tunnel to guide the rear air forward to the lower portion of the brace (not shown) connecting between the upper end of the air guide 300 and the shroud 500 to be described below to enter the ventilation hole is More could be formed.

The fan motor 450 is installed at the rear side of the indoor fan 420. The front end of the central shaft 452 of the fan motor 450 is inserted into the center of the indoor fan 420, and the rear end is inserted into the center of the outdoor fan 460, which will be described below. Thus, the fan motor 450 provides rotational power to the indoor fan 420 and the outdoor fan 460.

That is, the fan motor 450 may be directly mounted on the rear surface of the air guide 300 or supported on a separate bracket. The rotating shaft is provided at both ends thereof, and one of the fan motors 420 is installed. The outdoor fan 460 is installed at the other one.

A shroud 500 for guiding air flow in the outdoor side is provided at a rearward distance from the air guide 300. A through hole 502 corresponding to the indoor fan installation hole 314 of the air guide 300 is formed at left and right sides of the central portion of the shroud 500. In addition, a guide bead (not shown) may be further formed at the upper end of the shroud 500 to guide the condensate guided by the fan ringer 422 of the outdoor fan 460 to be described below.

Inside the through hole 502, an outdoor fan 460 is installed to forcibly blow outdoor air to cause heat exchange. The outdoor fan 460 is provided with a fan ringer 422 connecting the blade end. Therefore, the fan ringer 422 is sprayed on the condensed water accumulated in the lower portion of the outdoor heat exchanger 550 to be described below installed in the rear of the outdoor fan 460 to spray the temperature of the outdoor heat exchanger 550 during the cooling operation Lower the cooling efficiency.

An outdoor heat exchanger 550 is installed at the rear end of the base fan 100 corresponding to the rear side of the shroud 500. The outdoor heat exchanger 550 causes the working fluid of the heat exchange cycle and the air sucked from the outside to exchange heat, and when the air conditioner is operated to cool, the indoor heat exchanger 550 discharges heat from the room to the outside.

On the other hand, the compressor 560 constituting the heat exchange cycle is installed on the base fan 100 on the outdoor side. The compressor 560 is connected to the indoor heat exchanger 400 and the outdoor heat exchanger 550, respectively.

The installation position of the compressor 560 is between the air guide 300 and the shroud 500, more specifically between the air guide 300 and the shroud 500 and at the same time the fan motor (left) 450) is installed between the central axis and the central axis of the fan motor 450 on the right. In this case, the compressor 560 is located at the center of the outdoor side.

The rear panel 600 is formed at the rear of the outdoor heat exchanger 550 to form a rear grill. The rear panel 600 has a plurality of grill discharge ports 610 to discharge air therein to the left and right. That is, the grill discharge port 610 is formed by repeatedly forming a plurality of triangular irregularities on the rear panel 600, and then the lower side of the irregularities is cut to the left and right by a predetermined portion.

The cabinet 700 forms the upper surface and both side surfaces of the air conditioner as described above. The cabinet 700 is to shield the components and to form an air flow path inside the air conditioner.

An installation guide part 710 is formed across the left and right sides of the cabinet 700. The installation guide 710 is formed to be recessed downward from the upper surface of the cabinet 700 to allow the air conditioner to be easily seated on the window of the building, and a curtain assembly (not shown) may be seated there. do.

Both side rear ends of the cabinet 700 are formed with a plurality of side suction holes 720 through which air is sucked from the side, and a plurality of top suction holes 730 with air sucked from above are also formed at both rear ends of the upper surface. . On the other hand, the filter grill 740 is installed on the front end of the cabinet 700, that is, the front portion of the installation guide 710.

The filter grill 740 is installed at a position corresponding to the upper surface of the high performance filter 370 installed on the upper surface of the upper air guide 350 to guide the discharge direction of air passing through the high performance filter 370. It is preferable to be detachably mounted. In addition, a side surface of the cabinet 700 may be further provided with a handle 750 to facilitate installation and movement.

On the other hand, the flow path guide plate 354 for guiding the discharged air is further provided inside the discharge passage 352. The flow guide plate 354 is formed as a substantially rectangular flat plate and is forcedly blown by the indoor fan 420 to guide the air introduced into the upper air guide 350.

That is, the air introduced into the upper air guide 350 upward by the indoor fan 420 is discharged through the indoor discharge port 220 in front of the discharge passage 352 according to the user's selection, or the discharge The flow path 352 flows upward and is discharged upward through the high performance filter 370, and the flow path guide plate 354 performs this discharge direction.

The front end of the flow guide plate 354 is hinged to the lower end of the filter installation unit 360, the stepping motor 356 for driving the flow guide plate 354 is installed on one side of the fixing portion. Accordingly, when the stepping motor 356 rotates according to the user's selection, the rear end of the flow guide plate 354 flows up and down to selectively shield the discharge flow path 352.

That is, when the rear end of the flow guide plate 354 rises and the flow guide plate 354 becomes horizontal, the bottom surface of the filter installation unit 360 is shielded, and the air forcedly discharged by the indoor fan 420 is Discharged in front of the discharge passage 352.

On the contrary, when the rear end of the flow path guide plate 354 descends by the reverse rotation of the stepping motor 356 and touches the bottom surface of the discharge flow path 352, the front surface of the discharge flow path 352 is shielded. Air forcedly blown by 420 is discharged upward through the high performance filter 370.

Hereinafter will be described in detail the operation of the preferred embodiment of the present invention having the configuration as described above.

It will be described that the air conditioner of the present invention is operated in the cooling mode. When the air conditioner is driven, the left and right fan motors 450 are operated to rotate the indoor fans 420 and the outdoor fans 460 on the left and right sides, respectively. Then, the compressor 560 is driven so that the working fluid circulates the heat exchange cycle.

By driving the indoor fan 420 provided on each of the left and right sides, air of a space for air conditioning is sucked through the front suction port 210 and the side suction hole 215 to provide the indoor heat exchanger 400. Will pass.

The heat exchanged in the indoor heat exchanger 400 to a relatively low temperature is sucked to the front of the indoor fan 420, at which time through the orifice hole 412 'formed in pairs in the orifice 410 Air enters.

The air introduced into the indoor fan 420 is discharged in the circumferential direction of the indoor fan 420 as the indoor fan 420 rotates. That is, the indoor fan 420 is rotated by the fan motor 450, and the air introduced from the front by the rotation of the indoor fan 420 is discharged in the circumferential direction.

As such, the air discharged in the circumferential direction of the indoor fan 420 is guided by the side and left and right barriers 312 of the lower air guide 310 and flows into the upper air guide 350 installed above. Air introduced into the upper air guide 350 is discharged forward through the discharge passage 352 opened forward.

That is, the air introduced upward by the lower air guide 310 is discharged forward by changing the direction, through the discharge passage 352 and then through the indoor discharge port 220 of the front panel 200 It is discharged to the space for air conditioning.

Meanwhile, in order to purify the air cooled by the indoor heat exchanger 400, the flow guide plate 354 shields the discharge flow path 352 by driving the stepping motor 356.

Therefore, the air heat exchanged by the indoor heat exchanger 400 is guided in the circumferential direction by the indoor fan 420 to be discharged upwards, and the discharged air is not discharged to the indoor discharge port 220, so Through the high-performance filter 370 of the through the filter grill 740 is discharged to the space for air conditioning.

As described above, the state of the discharged air guided by the flow guide plate 354 will be described in more detail with reference to FIGS. 9 and 10. In the case where air is discharged forward through the discharge passage 352, the stepping motor may be used. The rear end of the flow path guide plate 354 is raised upward by the rotation of the 356 so that the front of the discharge passage 352 is opened, and the lower surface of the filter installation unit 360 is shielded.

Accordingly, as shown in FIG. 9, the air forcedly blown by the indoor fan 420 does not flow into the high performance filter 370, but passes through the indoor discharge port 220 through the discharge passage 352. All are discharged forward through. At this time, since an inclined surface is formed between the upper plate 414 and the main body plate 412 of the orifice 410 forming the bottom of the discharge passage 352, the air flowing upward from the indoor fan 420 is directed forward. It is possible to easily turn. Of course, at this time, the discharge door 230 is lowered to the room discharge port 220 is opened.

Then, in order to clean the air discharged into the space for air conditioning, the rear end of the flow guide plate 354 is driven downward by the driving of the stepping motor 356. In this case, the discharge passage 352 is shielded, and as shown in FIG. 10, air forcedly blown from the indoor fan 420 flows into the lower surface of the filter installation unit 360.

The air introduced into the filter installation unit 360 from below is purified while passing through the high performance filter 370, and the purified air is discharged upward through the filter grill 740. Of course, at this time, since the air is not discharged forward through the discharge passage 352, the discharge door 230 is preferably upwardly shielding the indoor discharge port 220.

When the discharged air passes through the high-performance filter 370, foreign matter in the air is filtered, and thus clean air is supplied to the room. Therefore, the air supplied to the space for air conditioning is not only cooled but also goes through a clean process, thereby creating a more comfortable environment.

Next, referring to the outdoor side, outdoor air is sucked into the air conditioner by driving the outdoor fan 460. That is, external air is introduced into the air conditioner through the side suction hole 720 and the top suction hole 730 of the cabinet 700 by the rotation of the outdoor fan 460.

The air introduced into the air conditioner is guided by the shroud 500 and sucked into the outdoor fan 460, and the air discharged backward by the outdoor fan 460 is the outdoor heat exchanger 550. As it passes through, it exchanges heat with the working fluid of the heat exchange cycle. At this time, heat is transferred from the working fluid to the air and heat of the room is released to the outside.

The relatively low temperature air delivered to the outdoor side thus lowers the temperature of the compressor 560 and is transferred to the outdoor heat exchanger 550 by the outdoor fan 460 to exchange heat with the working fluid and discharge the outdoor fluid. .

On the other hand, referring to the operation of the ventilation system for ventilating the air of the space for air conditioning to the outside air, when the ventilation hole formed in one side of the air guide 300 is opened according to the user's setting, the indoor discharge port 220 is discharged It is shielded by the door 230.

Therefore, the air sucked through the front suction port 210 and the side suction hole 215 passes through the indoor heat exchanger 400 and then flows into the outdoor side through the ventilation hole (not shown), and then the side suction hole. It will be discharged to (720) or through the grill discharge port 610 of the rear panel 600.

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.

For example, in the above embodiment, the orifice holes 412 'of the indoor fan 420 and the orifice 410 are configured in pairs, but in addition to the two, the three or more may be provided. Of course it is possible.

The air conditioner according to the present invention as described in detail above was provided with an orifice in which a pair of indoor fans left and right and a pair of orifice holes corresponding to the indoor fans are formed.

Therefore, since the air can be forcedly blown to correspond to the area of the indoor heat exchanger having a substantially rectangular shape, the heat exchange efficiency is improved compared with the prior art using a single fan.

That is, since the air passing through the indoor heat exchanger is sucked by the two indoor fans, the efficiency is improved compared to the case of using a single indoor fan, and the orifice has a pair of orifice holes perforated, so that the air suction becomes easier. .

On the other hand, the inclined surface formed between the body plate and the top plate of the orifice has the effect of facilitating the forward turning of the air forcedly blown from the bottom by the indoor fan, the reinforcing rib formed on the top plate of the orifice is the top plate Since there is an effect of reinforcing the strength of the upper air guide as a whole, there is an advantage that a number of parts seated on the upper air guide is firmly supported.

1 is an exploded perspective view showing the main configuration of the integrated air conditioner according to the prior art.

Figure 2 is a perspective view showing the appearance and the air flow of the integrated air conditioner according to the prior art.

Figure 3 is a partial cutaway perspective view showing a preferred embodiment of the integrated air conditioner according to the present invention.

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

Figure 5 is a perspective view showing the internal configuration of a preferred embodiment of the integrated air conditioner according to the present invention.

Figure 6 is a perspective view showing a state in which air flows through the air guide and orifice which is a main component of a preferred embodiment of the integrated air conditioner according to the present invention.

7 is a perspective view of an orifice which is a main component of a preferred embodiment of the integrated air conditioner according to the present invention.

Figure 8 is a perspective view showing the back of the front panel which is a main portion of the integrated air conditioner according to the present invention.

Figure 9 is a side cross-sectional view showing an internal state when the air is discharged through the discharge passage in the interior of the integrated air conditioner according to the present invention.

Figure 10 is a side cross-sectional view showing an internal state when the air cleaning function is performed in the integrated air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawings

100. Base fan 200. Front panel

210.Front Intake 215.Side Intake

220. Indoor discharge port 222. Discharge guide member

230. Discharge door 232. Rack

242. Motor mounting part 244. Drive motor

246.Rotating shaft 248.Rotating pinion

300. Air guide 310. Lower air guide

312. Left and Right Barriers 350. Upper Air Guide

352. Outlet flow path 354. Euro guide board

356. Stepping motor 360. Filter installation

370. High Performance Filters 380. Control Box

400. Indoor heat exchanger 410. Orifice

412. Body plate 412 '. Orifice ball

413. Inclined surface 414. Top plate

416. Lateral support plates 418. Reinforcement ribs

420. Indoor fan 450. Fan motor

452. Central axis 460. Outdoor fan

500. Shroud 550. Outdoor Heat Exchanger

600. Rear Panel 610. Grill Discharge Outlet

700. Cabinet 710. Installation guide

720. Side suction hole 730. Top suction hole

740. Filter Grill

Claims (5)

A base fan constituting the lower appearance; A heat exchanger configured to exchange heat between the working fluid and the air; An air guide for guiding air flow; A plurality of indoor fans generating air flow; An orifice in which a plurality of orifice holes serving as air flow passages are drilled; A front panel installed at the front end of the base fan to form a front exterior; The air conditioner is fixed to one side of the base fan, characterized in that it comprises a cabinet to form a top surface and side appearance. The method of claim 1, wherein the orifice, A main body plate on which a plurality of orifice holes are formed, An inclined surface extending inclined forward at a predetermined angle from an upper end of the main body plate, And an upper surface plate extending from the distal end portion of the inclined surface at a predetermined angle. 3. The integrated air conditioner of claim 2, wherein the top plate further includes reinforcing ribs for reinforcing strength. The integrated air conditioner according to claim 1, wherein an orifice hole of the orifice is formed in a quantity corresponding to the indoor fan. The integrated air conditioner according to claim 4, wherein the orifice hole and the indoor fan are each paired.