KR20070053547A - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to an air conditioner provided with an unbending outdoor heat exchanger and formed to be safe for a user.

Air conditioner according to the present invention, the outer case 100 is formed of a plurality of panels to form an appearance, and the compressor 310 is provided at one inner side of the outer case 100 to compress the refrigerant which is a working fluid at high temperature and high pressure. And, the outdoor heat exchanger 320 is heat-exchanged while the refrigerant compressed by the compressor 310 flows, and the indoor heat exchanger 210 is provided on the other side of the outer case 100 and the heat exchanger while the refrigerant flows; And an indoor fan 220 for flowing air heat-exchanged by the indoor heat exchanger 210, and the outdoor heat exchanger 320 is formed to be bent so as to be inclined and mounted to the first heat exchanger 322. ), And a second heat exchanger 324 mounted vertically. According to the air conditioner configured as described above, the heat exchange efficiency of the outdoor heat exchanger is maximized to improve the air conditioning efficiency, and there is an advantage in that accident prevention is possible.

Air Conditioner, Outdoor Heat Exchanger, Bending, Long Hole Treatment, Long Hole

Description

Air Conditioner {Air-conditioner}

1 is a perspective view showing the appearance of a general air conditioner according to the prior art.

Figure 2 is a cutaway exploded perspective view showing the internal structure of a conventional air conditioner according to the prior art.

Figure 3 is a perspective view showing the appearance of an air conditioner employing a preferred embodiment of the present invention.

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

Figure 5 is a perspective view showing a state in which the side panel and the rear panel of the secondary side flow path of the air conditioner is adopted according to a preferred embodiment of the present invention.

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

Figure 7 is a top perspective view showing the air flow of an air conditioner employing a preferred embodiment according to the present invention.

Figure 8 is a bottom perspective view showing the air flow downward of the air conditioner employing a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100. Outer case 110. Front panel

112. Front intake 112 '. Front suction duct connection

114. Front discharge 114 '. Front discharge duct connection

120. Top panel 122. Top discharge outlet

124. Discharge grill 130. Left panel

132. Left Grill 134. Left Triangle Grill

136. Left Square Grill 140. Right Panel

142. Right Grill 144. Right Triangle Grill

146. Right Square Grille 150. Bottom Panel

152. Rear intake port 160. Rear panel

162. Rear Grill 170. Barrier

200. Primary side flow path 210. Indoor heat exchanger

220. Indoor fan 222. Fan housing

222 '. Support member 222 ". Discharge hole

224. Indoor motor 224 '. Motor support

226. Fan Pulley 230. Discharge Guide

240. Control box 242. Main board

244.Capacitors 246.Voltage Transformer

300. Secondary side flow path 310. Compressor

312.Accumulator 314. Mounting plate

320. Outdoor heat exchanger 322. First heat exchanger

324. Second heat exchanger 330. Outdoor fan

332. Orifice 340. Outdoor motor

342. Motor mount 350. Shielding plate

The present invention relates to an air conditioner, and more particularly, to an air conditioner provided with an unbending outdoor heat exchanger and formed to be safe for a user.

As air conditioners have a higher standard of living, the demand for improved quality of life has increased, and the demand for air conditioners has increased to create a more comfortable and comfortable living environment. This air conditioner is a device for maintaining the air of the space for air conditioning in the most optimal state according to the purpose.

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. Appliance.

In particular, the air conditioner is a secondary side flow path mainly formed in the outdoor unit (also referred to as 'outdoor side' or 'heat sink side') installed outdoors, and the indoor unit ('indoor side' or 'heat absorbing side') mainly installed indoors. It is divided into a primary side flow channel formed in the primary side flow path, the primary side flow path is equipped with an evaporator, the secondary side flow path is equipped with a condenser and a compressor.

Such air conditioners can be broadly divided into a separate air conditioner in which the primary side passage and the secondary side passage are separately installed, and an integrated air conditioner in which the primary side passage and the secondary side passage are integrally formed.

In addition to cooling and heating, an air conditioner has a variety of functions, such as an air purifying function that sucks and filters contaminated air in a room and re-supplies clean air into the room, and a dehumidification function that reinjects humid air into dry and dry air. Additional features are being added.

Hereinafter, an integrated air conditioner will be described with reference to the drawings.

Figure 1 is a perspective view showing the appearance of a conventional air conditioner according to the prior art. According to the figure, the air conditioner is provided with an outer case 10 forming an appearance.

The outer case 10 is provided with an upper panel 12 forming an outer appearance of the upper case, and the upper panel 12 is provided with a discharge part 20 through which heat-exchanged air is discharged to the outside of the outer case 10. do. The outer case 10 is provided with a side panel 14 forming a side appearance, a part of the side panel 14 is molded in a grill shape. In addition, the outer case 10 is provided with a front panel 16 to form a front appearance and a rear panel (not shown) to form a rear appearance.

The front panel 16 has a front suction opening 30, which is a passage through which air in a space for air conditioning is sucked into the outer case 10, is formed into a long rectangular shape in a vertical direction, and the front suction opening ( On the left side of the 30, the air sucked through the front suction port 30 is harmonized inside the outer case 10, and the front discharge port 40 is discharged into a space for air conditioning.

Figure 2 is a partially cutaway perspective view showing the internal configuration of the integrated air conditioner according to the prior art. According to the figure, the inside of the outer case 10 is divided into a primary side passage 60 and a secondary side passage 70 by the barrier 50. The barrier 50 is formed across both side panels 14, the front of the barrier 50 is formed with a primary side passage 60, the rear of the barrier 50 is a secondary side passage 70 Is formed.

The front panel 16 of the primary side flow path 60 is formed with a front inlet 30 for sucking external air into the interior of the primary side flow path 60, and an inlet duct on the edge of the front suction port 30. Inlet duct guide 32 for guiding the fastening of the not shown is formed to protrude forward.

On the left side of the front suction opening 30 is formed a front discharge port 40, which is a passage through which the air harmonized inside the primary side passage 60 is discharged into a space for air conditioning, the edge of the front discharge port 40 The discharge duct guide 46 which guides the fastening of the discharge duct (not shown) is formed to protrude forward.

The primary side flow path 60 is equipped with an indoor heat exchanger 62. The indoor heat exchanger (62) serves as an evaporator and is mounted between the front suction opening (30) and the front discharge opening (40). That is, the indoor heat exchanger 62 is mounted from the front suction port 30 and the front discharge port 40 to the right end of the barrier 50 so as to partition the primary side flow path 60 to the left and the right. .

Therefore, the outside air sucked through the front suction port 30 passes through the indoor heat exchanger 62 and undergoes heat exchange. The air heat-exchanged while passing through the indoor heat exchanger 62 is discharged into the space for air conditioning through the front discharge port 40.

In other words, the left side of the primary side passage 60, that is, the rear side of the front discharge port 40 is provided with an indoor fan 42. The indoor fan 42 serves to force the flow of air so that the air sucked through the front suction port 30 is discharged back to the space for air conditioning through the front discharge port 40.

In addition, a fan housing 44 is provided around the indoor fan 42, and a lower end of the fan housing 44 is mounted to contact the lower panel 18, and a left end thereof is the side panel 14. It is mounted to abut on the inner side of the.

A drain pan 64 is provided below the indoor heat exchanger 62. The drain pan 64 is provided below the lower surface of the indoor heat exchanger 62 to collect condensed water generated and dropped from the surface of the indoor heat exchanger 62. The drain pan 64 is formed to have a central portion recessed to easily collect condensate, and a drain hole 64 ′ is formed at the right side of the drain pan 64 to externally store the condensed water collected in the drain pan 64. To be discharged.

The drain hole 64 ′ is fastened to contact the lower right portion of the side panel 14 and is mounted to communicate with the outside to collect condensed water collected inside the drain pan 64 outside of the outer case 10. To be discharged.

On the other hand, the secondary side flow path 70 is formed behind the barrier 60. A compressor 72 is provided at the inner center of the secondary side flow path 70. The compressor 72 compresses a refrigerant, which is a working fluid, at a high temperature and high pressure, and a relatively large scroll type compressor is used.

The outdoor side heat exchanger 74 is mounted on the secondary side flow path 70. The outdoor heat exchanger 74 serves as a condenser, and is bent and molded on the rear inner surface of the secondary side flow path 70. Air sucked into the secondary side flow path 70 passes through the outdoor heat exchanger 74 and exchanges heat with a refrigerant that is a working fluid.

The outdoor heat exchanger 74 is formed in a substantially "∩" shape when viewed from the top to exchange heat with the refrigerant that flows inside and the air sucked while passing through the side panel 14 and the rear panel (not shown).

Therefore, the suction panel 18 is provided in the side panel 14 and the rear panel (not shown). That is, as shown in Figure 1, the second half of the side panel 14 is provided with a suction grill 18, a passage through which the outside air is sucked into the secondary side flow path 70, the rear panel (not shown) At the same time, the suction grill 18 is provided in a similar shape.

An upper surface discharging part 20 is mounted on the upper panel 12 provided above the secondary side flow path 70. The top discharge part 20 is formed of an outdoor fan 22, an orifice 24, a top discharge port 26, and a top grill 28.

When the external fan 22 is applied with external power, the outdoor fan 22 rotates to force the air flow in the secondary side flow path 70. An outer surface of the outdoor fan 22 is provided with an orifice 24 for guiding air flowing by the rotational movement of the outdoor fan 22. On the upper side of the orifice 24 is formed a top discharge port 26 which is perforated in the top panel 12. The top discharge port 26 is formed to have a diameter corresponding to the diameter of the orifice 24. An upper grill 28 is mounted on an upper side of the upper discharge port 26.

The left front end portion of the secondary side flow path 70 is further provided with a control panel 76 for controlling the operation of the air conditioner.

However, the following problems occur in the air conditioner according to the prior art as described above.

As the flow of air is forced by the rotation of the outdoor fan 22, external air introduced into the secondary side flow path 70 passes through the outdoor heat exchanger 74 to exchange heat. The amount of inflow of air passing through 74 is relatively small as the distance is far from the outdoor fan 22.

The farther away from the outdoor fan 22, the smaller the amount of air introduced therein, thereby causing a problem that smooth heat exchange does not occur, which causes a problem that a temperature deviation is formed in each cycle.

In addition, the suction grill 18 formed in the outer case 10 is molded so that the user can reach the hand, the user may be injured on the condenser pin, the service personnel injuries even during service Problems may occur.

In addition, the outdoor heat exchanger (74) is formed in a "∩" shape or "b" shape to be bent at the production site once more, the problem occurs that the workability is reduced, the productivity is also reduced Will occur.

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 equipped with an outdoor heat exchanger that is not bent.

Still another object of the present invention is to provide an air conditioner in which an injury to a user is prevented.

An air conditioner according to the present invention for achieving the above object, the compressor is formed in a plurality of panels to form an appearance, and a compressor provided at one side of the outer case to compress the refrigerant which is a working fluid at high temperature and high pressure And an outdoor heat exchanger that exchanges heat while the refrigerant compressed by the compressor flows, an indoor heat exchanger provided at the other inner side of the outer case, and an air exchanger that exchanges heat by the refrigerant. The outdoor heat exchanger is configured to include a first heat exchanger that is formed to be inclined and is mounted inclined so as not to be bent, and a second heat exchanger that is vertically mounted.

The outer case may include a front panel having a front inlet, which forms a front exterior and a front suction port, and a left side panel having a left side exterior, and a left grill which is a passage through which air from the left side is introduced. A right side panel having a right grill which forms an exterior of the right side and an air flow in the right side; a rear panel which forms a rear exterior; and a rear grill which is a passage in which air is introduced in the rear; It is formed, characterized in that it comprises a bottom panel provided with a lower surface suction port which is a passage for inhaling the air below.

The upper end of the second heat exchanger is characterized in that the shielding plate is further provided to shield the flow of air.

The outer case is characterized in that the long portion is processed in a grill shape to allow the suction of air.

The long hole is characterized in that the size of the human hand can not enter.

According to the air conditioner configured as described above, the heat exchange efficiency of the outdoor heat exchanger is maximized to improve the air conditioning efficiency, and there is an advantage in that accident prevention is possible.

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

Figure 3 is a perspective view showing the appearance of an air conditioner employing a preferred embodiment according to the present invention, Figure 4 is an exploded perspective view showing the internal configuration of an air conditioner employing a preferred embodiment according to the present invention Is shown. As shown in the figure, the air conditioner is provided with an outer case 100 to form an external appearance.

The outer case 100 includes a front panel 110 forming a front appearance, a top panel 120 forming a top appearance, a left panel 130 forming a left appearance, and a right panel forming a right exterior appearance ( 140 of FIG. 4, a bottom panel (150 of FIG. 4) to form a bottom surface, and a rear panel (160 of FIG. 4) to form a rear exterior.

The front panel 110 has a front inlet 112, which is a passage through which external air is sucked, is formed into a long rectangular shape, and the left side of the front inlet 112 in the inside of the outer case 100. The front discharge port 114 through which the harmonized air is discharged into a space for air conditioning is formed into a long rectangular shape. The front suction port 112 is formed such that the suction duct connecting part 112 ′ protrudes forward along the edge, and the discharge duct connecting part 114 ′ is molded to the front edge of the front discharge port 114.

The front suction port 112 is equipped with a front filter (not shown) to filter foreign matter contained in the air sucked from the outside, and clean air is sucked into the outer case 100, and the upper panel 120 The second half of the) is provided with a plurality of top discharge port (122). The discharge grill 124 is mounted on the upper surface discharge port 122.

The left grill 132 is molded in the second half of the left panel 130. The left grill 132 is a rectangular with a long horizontal in front of the left triangular grill 134 and the left triangular grill 134 is formed in the shape of a right triangle having a downward slope from the rear end of the left panel 130 to the front. The left square grill 136 is formed into a shape of.

That is, the left triangular grill 134 and the front end of the triangular grill 134 are formed in a right triangle shape (viewed from the outside) having a downward slope from the upper half of the left panel 130 to the lower end of the left panel 130. The upper left portion of the left triangle grill 136 is formed in a shape of a long rectangular shape that is slightly spaced forward from the front end is formed in a position corresponding to the upper end of the left triangular grill 134.

The left grill 132 is treated with a long hole and the long hole is formed to be smaller than the finger of a person so that a human hand does not enter the inside of the left grill 132. The plurality of long holes formed on the left triangular grill 134 are formed into long longitudinal holes, and the plurality of long holes formed on the left triangular grill 136 are formed into long horizontal holes.

The rear half of the right panel 140 is formed with a right grill 142 is formed in a shape corresponding to the left grill 132, the rear panel 160 is formed with a rear grill 162 from the upper half to the lower end. . The right grill 142 is formed by processing a long hole in a shape corresponding to the left grill 132, the rear grill 162 is formed by a long hole processing to be formed into a plurality of long holes in a grill shape.

Looking at the internal configuration of the air conditioner according to the present invention with reference to Figure 4, a barrier 170 for partitioning the front and rear is provided in the interior of the outer case 100 formed of a plurality of panels.

The barrier 170 is formed into a rectangular plate shape having a predetermined thickness, and is mounted across the front panel 110 and the rear panel 160. The front space inside the outer case 100 partitioned forward and backward by the barrier 170 is formed with a primary side passage 200, and the rear space has a secondary side passage 300.

In addition, the left panel 130 and the right panel 140 form an outer surface of the left side and the right side of the panel and the secondary side flow path 300 to form the exterior of the left side and the right side of the primary side flow path 200. It may be formed of a plurality of panels, such as a panel.

An interior heat exchanger 210 serving as an evaporator is mounted in the primary side flow passage 200. The indoor heat exchanger (210) is mounted with an upward slope to the right side in the inner right space of the primary side passage (200). The indoor heat exchanger 210 exchanges heat while the air introduced into the primary side flow path 200 passes through the front suction port 112.

That is, the air flowing into the inside of the primary side flow path 200 through the front suction port 112 passes through the indoor heat exchanger 210 and exchanges heat with a refrigerant that is a working fluid flowing inside the indoor heat exchanger 210. Done. Therefore, the upper end of the indoor heat exchanger 210 is mounted to contact the inner circumferential surface of the right panel 140 so that outside air does not pass through the indoor heat exchanger 210 to the inside of the primary side flow path 200. To prevent flow.

An indoor fan 220 is mounted on the left side of the indoor heat exchanger 210. The indoor fan 220 is forced to flow the internal air of the primary side flow path 200 while rotating. The indoor fan 220 is mainly used a fan called a sirocco fan, such a sirocco fan is a kind of blower that is widely used for ventilation or forced flow of air, a relatively large number of wings is also called a multi-fan.

The indoor fan 220 is wrapped by the fan housing 222. The fan housing 222 is formed to have a shape corresponding to that of the indoor fan 220, and is formed to surround the outer circumferential surface of the indoor fan 222. The fan housing 222 serves to protect the indoor fan 220, and guides the air forced by the indoor fan 220.

The fan housing 222 has a central shape of left and right sides in a cylindrical shape lying horizontally, and a discharge port (not shown) is formed at the lower side to guide the air forcedly flowed by the indoor fan 220. . That is, it serves to guide the air sucked from the side downward.

A support member 222 ′ supporting the fan housing 222 is provided below the fan housing 222. The support member 222 ′ is shaped into a substantially “∩” shape when viewed from the front, and a lower end portion is mounted on the upper surface of the lower panel 150, and is formed to support the fan housing 222 on the upper surface.

The support member 222 ′ is formed to have a predetermined height so that the fan housing 222 is formed to be spaced apart from the upper surface of the lower panel 150 at a predetermined interval. A discharge hole 222 ″ is formed in the upper surface of the support member 222 ′ so that air guided from the fan housing 222 is discharged downward.

An indoor motor 224 is provided at the front of the fan housing 222. The indoor motor 224 is supplied with external power to generate rotational power, and the indoor fan 220 is rotated by the rotational power of the indoor motor 224. The lower side of the indoor motor 224 is provided so that the motor support 224 ′ has an upward inclination toward the rear to support the indoor motor 224 on the upper surface of the motor support 224 ′.

The fan pulley 226 is mounted on the left side of the indoor fan 220. The fan pulley 226 serves to transmit the rotational power of the indoor motor 224 to the indoor fan 220, and is mounted on the left side of the indoor fan 220 while having a predetermined diameter.

Rotational power of the indoor motor 224 is transmitted to the indoor fan 220 by a connecting belt (not shown). In other words, when external power is applied, the indoor motor 224 generates rotational power, and the rotational power of the indoor motor 224 is connected to the indoor motor 224 by a connection belt (not shown). Is passed to 226.

When the rotational power of the indoor motor 224 is transmitted to the fan pulley 226, the rotational power is transmitted to the indoor fan 220 to which the fan pulley 226 is fastened so that the indoor fan 220 rotates.

The front end of the support member 222 'is mounted while the rear end of the discharge guide 230 is connected to the front end of the support member 222' and extends forward from the front end of the support member 222 'to a predetermined length. do. The discharge guide 230 is a passage through which air guided from the fan housing 222 flows to the front discharge port 114.

That is, the rear end of the discharge guide 230 is in contact with the front end of the support member 222 ', the front end of the discharge guide 230 is formed to be in contact with the rear end of the front discharge port 114, the upper surface The height is gradually increased toward the front.

Accordingly, the air sucked into the primary side passage 200 while the indoor fan 220 is rotated by the rotational power of the indoor motor 224 is guided by the fan housing 222 to support the air. The discharge guide 230 passes through the member 222 ′. The air passing through the discharge guide 230 is discharged into the space for air conditioning through the front discharge port 114.

The discharge guide 230 may be further provided with a heater (not shown). Such a heater is for heating the harmonized air passing through the discharge guide 230 to increase the temperature of the air, and is preferably installed across the left and right inside the discharge guide 230.

The control box 240 is provided on the left side of the discharge guide 230. The control box 240 is formed in a rectangular box shape to have an inner space, the main board 242 is provided inside the control box 240, the capacitor 244 and the voltage transformer on the main board 242 Many electrical components, such as 246, are mounted.

On the other hand, the secondary side flow path 300 is formed behind the barrier 170. The secondary side flow path 300 is equipped with a compressor 310 for compressing a refrigerant, which is a working fluid, at a high temperature and high pressure. A plurality of such compressors 310 are mounted at the rear end of the secondary side flow path 300. One side of the compressor 310 is equipped with an accumulator 312 to filter out the refrigerant in the liquid state so that only the refrigerant in the gas state flows into the compressor 310.

The compressor 310 and the accumulator 312 are mounted to the mounting plate 314 provided on the lower side. The mounting plate 314 is molded into a long rectangular plate shape, and is formed to be recessed below the center portion. The lower surface of the central portion formed to be recessed downward is fixed to the upper surface of the lower panel 150, and the compressor 310 and the accumulator 312 are fastened to the upper surface of the mounting plate 314 by a fastening means such as a screw. Is fitted.

In front of the compressor 310 and the accumulator 312 is equipped with an outdoor heat exchanger 320 that serves as a condenser. The outdoor heat exchanger 320 is generally formed in a substantially rectangular plate shape, and is formed of a pipe having a predetermined diameter.

The outdoor heat exchanger 320 has an upper end positioned above the upper end of the compressor 310, and a lower end portion formed to be inclined to be positioned on an upper surface of the front lower panel 150 of the compressor 310. ) And a second heat exchanger 324 which is vertically molded while the lower end is positioned in front of the lower end of the first heat exchanger 322.

The outdoor heat exchanger 320 is installed across the left and right of the secondary side flow path 300, the rear grill 162 and the left panel 130 and the right panel 140 formed in the rear panel 160. Air flowing through the left grill 132 and the right grill 142 to be formed are heat exchanged while passing through the outdoor heat exchanger 320.

In more detail, the outside air introduced into the secondary side flow path 300 through the rear grill 162 formed on the rear panel 160 has a downward slope from the rear panel 160 to the front. Heat is exchanged while passing through the first heat exchanger 322 to be molded and flows into the secondary side flow path 300.

In addition, in the first heat exchanger 322, external air introduced through the left triangular grill 134 of the left panel 130 and the right triangular grill 144 of the right panel 140 is heat-exchanged. The outside air passing through the first heat exchanger 322 exchanges heat with a refrigerant that is a working fluid flowing inside the first heat exchanger 322.

The outside air introduced into the secondary side flow path 300 through the left square grill 136 of the left panel 130 and the right square grill 146 of the right panel 140 is connected to the second heat exchanger ( While passing through the 324 is exchanged with the refrigerant which is a working fluid flowing inside the second heat exchanger 324 and then flows into the secondary side flow path (300).

The upper surface of the secondary side flow path 300, that is, the second half of the upper panel 120 is formed with a plurality of upper surface discharge port 122 perforated. The top discharge port 122 serves as a passage through which the outside air heat exchanged through the outdoor heat exchanger 320 is discharged to the outside. The discharge grill 124 is mounted on the top surface of the top discharge port 122.

An outdoor fan 330 is mounted below the top discharge port 122. The outdoor fan 330 is rotated to force the internal air of the secondary side flow path 300, the orifice 332 is provided along the outer circumferential surface of the outdoor fan 330. The orifice 332 guides the air forcedly flowed by the rotational movement of the outdoor fan 330 to be discharged to the outside through the top discharge port 122.

The orifice 332 is installed so that the upper end is in contact with the lower surface of the top discharge port 122, and extends downward to have a substantially cylindrical shape. Therefore, the air of the secondary side flow path 300 is guided to be discharged upward through the outdoor fan 330.

An outdoor motor 340 is provided below the outdoor fan 330. The outdoor fan 330 is rotated by the rotational power of the outdoor motor 340. A motor mount 342 is provided below the outdoor motor 340 to support and to be fixed while preventing the flow of the outdoor motor 340. The motor mount 342 has a central portion recessed downward, and the outdoor motor 340 is seated and supported by the central portion. The upper end of the motor mount 342 is fastened while being fixed to the lower surface of the upper panel 122.

The lower panel 150 is formed of a plurality of panels, the lower surface suction opening 152 is formed in the second half of the lower panel 150 forming the lower surface of the secondary side flow path (300). The lower surface suction port 152 is formed at a lower side of the second heat exchanger 324 and is formed to have a width corresponding to the width of the rectangular grills 136 and 146. This is to allow the outside air to flow through the second heat exchanger 324 when the outside air flows into the secondary side flow path 300 through the lower surface suction port 152.

FIG. 5 is a perspective view showing a state in which a side panel and a rear panel of the air conditioner secondary side flow path employing a preferred embodiment according to the present invention are removed, and FIG. 6 illustrates a preferred embodiment according to the present invention. A side cross-sectional view showing a secondary side flow path of an air conditioner is shown.

As shown in these drawings, when the first heat exchanger 322 and the second heat exchanger 324 are mounted in more detail, the first heat exchanger 322 has an upper end of the rear panel 160. It is located in the upper half of the lower end is located on the upper surface of the lower panel 150.

That is, the first heat exchanger 322 is formed above the compressor 310 and the like, and the upper end of the first heat exchanger 322 is located higher than the position of the outdoor motor 340. It is mounted to the panel 160.

The first support member provided on the upper surface of the lower panel 150 while the lower end of the first heat exchanger 322 is inclined downward from the upper end and inclined so as not to contact the upper end of the compressor 310. 6, 322 '). At this time, the angle formed by the first heat exchanger 322 and the upper surface of the lower panel 150 is about 45 to 50 degrees.

The lower end of the second heat exchanger 324 is positioned substantially corresponding to the lower end of the first heat exchanger 322, preferably above the lower end of the first heat exchanger 324. The lower end of the second heat exchanger 324 is mounted on the upper surface of the second support member (324 ′ in FIG. 6) provided on the upper surface of the lower panel 150.

The second heat exchanger 324 is molded vertically from the lower end so that the upper end is formed at a height corresponding to the upper end of the first heat exchanger 322. The front surface of the second heat exchanger 324 is formed to be spaced apart from the rear surface of the barrier 170 at a predetermined interval, and shielded between the rear surface of the barrier 170 from an upper end of the second heat exchanger 324. Plate 350 is provided.

The shielding plate 350 prevents external air sucked into the secondary side flow path 300 through the lower surface suction port 152 from flowing upward without passing through the second heat exchanger 324. It is provided for.

That is, when outside air is sucked into the secondary side flow path 300 through the lower surface suction port 152, the front is shielded by the barrier 170, and the upper side is the left panel 130 and the right side. It passes through the second heat exchanger 324 while being shielded by the shielding plate 350 formed between the panels 140 and flowing backward.

On the other hand, Figure 6 shows the distribution of the air intake amount flowing into the secondary side flow path. The first heat exchanger 322 that is inclined is heat-exchanged while the outside air flowing through the rear grill 162 formed in the rear panel 160 passes evenly.

In addition, the second heat exchanger 324 mounted in the vertical direction is a space formed by the barrier 170 and the second heat exchanger 324 through a lower surface suction opening 152 formed in the lower panel 150. The outside air sucked into the heat exchanger passes relatively evenly.

As such, when the outside air flowing into the inside of the secondary side flow passage 300 passes through the outdoor heat exchanger 320 relatively evenly, heat exchange of more air becomes possible, and more air flow is possible. do.

7 is a top perspective view showing an air flow of an air conditioner employing a preferred embodiment of the present invention, Figure 8 shows a lower air flow of the air conditioner employing a preferred embodiment of the present invention. Bottom perspective view is shown. Hereinafter, the operation of the air conditioner having the above configuration will be described with reference to these drawings.

When a user applies external power to use an air conditioner, power is applied to a plurality of electrical components provided inside the outer case 100.

First, the operation state of the primary side flow path 200, the front suction duct connecting portion 112 ′ of the front panel 110 is provided with a duct (not shown) is installed in the interior of the primary side flow path 200 It is shaped to communicate with the space for harmony.

The indoor motor 224 generates rotational power by an external power source, and the indoor fan 220 rotates by the rotational power of the indoor motor 224. A suction force is generated by the rotation of the indoor fan 220, and the air in the space for air conditioning is sucked into the primary side passage 200 by the suction force.

The air sucked into the primary side flow passage 200 exchanges heat with a refrigerant that is a working fluid flowing inside the indoor heat exchanger 210 while passing through the indoor heat exchanger 210. Heat exchanged air is introduced into the fan housing 222. The air introduced into the fan housing 222 is discharged in the circumferential direction by the rotation of the indoor fan 220 and guided by the discharge guide 230 to allow duct (not shown) to pass through the front discharge port 114. Is discharged into the space for air conditioning.

On the other hand, looking at the air flow of the secondary side flow path 300, the outdoor motor 340 generates the rotational power by the application of an external power source. The outdoor fan 330 is rotated by the rotational power of the outdoor motor 340.

By the rotation of the outdoor fan 330, the outside air of the secondary side flow path through the rear grill 162, the left grill 132 and the right grill 142, the lower side suction port 152, the secondary side flow path 300 Flows into).

That is, the left side air flows through the left triangular grill 134 and the left side triangular grill 136 formed at the rear half of the left panel 130, and the right side formed at the rear half of the right panel 140. Air in the right side is introduced through the triangular grill 144 and the right square grill 146.

In addition, downward air is sucked through the lower surface suction port 152 formed in the rear half of the lower panel 150, and the rear air is introduced through the rear grill 162 formed in the rear panel 160. do.

In more detail, the outside air introduced through the left triangular grill 134, the right triangular grill 144, and the rear grill 162 is introduced into the rear of the first heat exchanger 322, and the left triangular grill Outside air sucked through the 136 and the right square grill 146 and the lower surface suction opening 152 is sucked to the front of the second heat exchanger 324.

In addition, external air flowing into the secondary side flow path 300 by the rotation of the outdoor fan 330 is forced to flow upward. At this time, the outside air passes through the outdoor heat exchanger 320 which serves as a condenser.

The outside air passing through the outdoor heat exchanger 320 exchanges heat with the refrigerant that is a working fluid flowing inside the outdoor heat exchanger 320 while passing through the outdoor heat exchanger 320.

In more detail, the outside air introduced through the left triangular grill 134, the right triangular grill 144, and the rear grill 162 exchanges heat with the refrigerant while passing through the first heat exchanger 322. Outside air sucked through the left square grill 136, the right square grill 146, and the lower surface suction opening 152 passes through the second heat exchanger 324 to exchange heat with the refrigerant. Outside air that is heat-exchanged while passing through the outdoor heat exchanger 320 is blown upward through the top discharge port 122.

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

In a preferred embodiment of the present invention configured as described above, the outdoor heat exchanger as described in detail is formed of the first heat exchanger and the second heat exchanger, and is formed into an unbent heat exchanger.

Therefore, the flow rate of the air passing through the outdoor heat exchanger is increased, and as the flow rate of the air increases, heat exchange is smoothed, thereby reducing the temperature variation for each cycle.

As the heat exchange of the air passing through the outdoor heat exchanger becomes smooth, the heat exchange efficiency of the outdoor heat exchanger is improved. Since the heat exchange efficiency of the outdoor heat exchanger is improved, the air conditioning efficiency of the air conditioner is also improved.

The efficiency of energy consumption is improved by improving the air conditioning efficiency, and the maintenance cost of the air conditioner is reduced by improving the efficiency of energy consumption.

In addition, since the outdoor heat exchanger uses a heat exchanger that is not bent, a bending operation becomes unnecessary and one process is reduced, and workability is improved due to the reduction of the process.

In addition, the grill is formed in the rear panel of each panel except the upper panel is formed in the outer case is formed by the long hole treatment. As described above, the grille formed at the rear panel of each panel except for the upper panel to be long-hole is long-hole processed into a hole having a size that does not allow a human finger to enter.

As described above, the user's hand is not drawn into the outer case by the respective grills processed by the long holes of the size of the human finger, which prevents the user's injury or the injury of the service personnel.

Claims (5)

An outer case formed of a plurality of panels to form an appearance; A compressor provided at one inner side of the outer case to compress the refrigerant, which is a working fluid, at a high temperature and high pressure; An outdoor heat exchanger that exchanges heat while the refrigerant compressed by the compressor flows; An indoor heat exchanger provided at the other inner side of the outer case to exchange heat with the refrigerant; It has a configuration including an indoor fan for flowing the air heat exchanged by the indoor heat exchanger, The outdoor heat exchanger is configured to include a first heat exchanger is formed inclined so as not to bend and a second heat exchanger mounted vertically. The method of claim 1, wherein the outer case, A front panel which forms a front appearance and is provided with a front suction opening which is a passage through which air in front of the air is sucked; A left panel which forms an external appearance on the left side and is provided with a left grill which is a passage through which air from the left side flows; A right panel which forms an outer appearance on the right side and is provided with a right grill which is a passage through which air from the right side flows; A rear panel which forms a rear exterior and is provided with a rear grill which is a passage through which air at the rear is introduced; An air conditioner comprising a lower surface panel which forms an outer surface and is provided with a lower surface suction opening which is a passage through which air is sucked downward. The air conditioner of claim 1, further comprising a shielding plate that shields the flow of air at an upper end of the second heat exchanger. The air conditioner according to claim 2, wherein a part of the outer case is longed in a grill shape to allow suction of air. The air conditioner according to claim 4, wherein the long hole is formed to a size that a human hand cannot enter.

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