KR100660968B1 - Filter Unit of Air Conditioner - Google Patents

Abstract

A filter unit of an air conditioner according to the present invention includes: a filter case installed to be located at an air inlet formed in an indoor unit and having a communication hole communicating with an interior of the indoor unit; A high performance filter mounted to the filter case; A filter cover installed in the filter case to protect the high performance filter and having an indoor air suction hole to suck indoor air; It is configured to include a pre-filter installed in the filter cover to filter foreign matter in the air sucked into the indoor air suction hole, it is possible to clean the indoor air without having to provide a separate air cleaner in the room, power consumption and cost This is reduced, there is an advantage that can take full advantage of the indoor space.

Air Conditioners, Filter Units, Filter Cases, High Performance Filters, Filter Covers, Pre-Filters

Description

Filter unit of air conditioner

1 is a perspective view of an embodiment of an air conditioner equipped with a filter unit according to the present invention;

2 is a perspective view when the front of the indoor unit shown in FIG. 1 is open;

3 is a perspective view when the front surface of the indoor unit shown in FIG. 1 is closed;

4 is an exploded perspective view of the indoor unit shown in FIG. 1;

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a cross-sectional view taken along the line B-B of FIG.

7 is a cross-sectional view taken along the line C-C of FIG.

8 is an exploded perspective view of the oxygen generating unit shown in FIG.

9 is a schematic configuration diagram of the oxygen generating unit shown in FIG. 1;

10 is an exploded perspective view of the optional filter unit shown in FIG. 1;

11 is a perspective view of an air conditioner according to the prior art,

12 is an exploded perspective view of the indoor unit shown in FIG. 11;

FIG. 13 is a cross-sectional view of the indoor unit shown in FIG. 11.

<Explanation of symbols on main parts of the drawings>

100: indoor unit 102: chassis

104: ventilation duct through hole 105: oxygen hose through hole

109: front air intake 110; Front grill

113; Top air inlet 130: blower motor

132: blower fan 134: indoor heat exchanger

140: front panel 150: ventilation unit

152: ventilation blower 154: ventilation fan

156: ventilation motor 160: ventilation fan housing

162; Inlet port 164: outlet port

170; Ventilation duct 200: outdoor unit

250: oxygen supplier 252: oxygen generating unit

254; Oxygen hose 300: filter unit

310: filter case 311: communication hole

312: rib 320: left high performance filter

322: lower case 324: upper case

326: HEPA filter 328: silver nano filter

330: right high performance filter 340: filter cover

341: indoor air suction hole 342: grille

345,346: hook 350: left pre-filter

360: right prefilter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter unit of an air conditioner, and more particularly, to a filter unit of an air conditioner installed at an air intake port of an indoor unit to increase cleanliness of a room.

In general, the air conditioner is to create a more comfortable indoor environment by cooling / heating the room, and divided into two types (window type) and separate (seperate or split type).

The one-piece type and the separate type are functionally the same, but the one-piece type integrates the function of cooling heat dissipation, and is directly installed by drilling a hole in a wall of a house or by hanging a device on a window. The separate type installs a cooling device on the indoor side and heat dissipation on the outdoor side. And a compression device to connect the two devices separated from each other by a refrigerant pipe.

The separate type of the air conditioner is an indoor unit having an indoor heat exchanger to perform a cooling function largely, an outdoor heat exchanger performing a heat dissipation and compression function, an outdoor unit having a compressor and an expansion device, and an indoor unit and an outdoor unit connected to each other. It consists of refrigerant piping.

11 is a perspective view of an air conditioner according to the prior art, FIG. 12 is an exploded perspective view of the indoor unit shown in FIG. 11, and FIG. 13 is a cross-sectional view of the indoor unit shown in FIG. 11.

As shown in FIG. 11, a conventional air conditioner includes an indoor unit 1 installed indoors, an outdoor unit 50 installed outdoors, and a refrigerant pipe 52 connecting the indoor unit 1 and the outdoor unit 50. It is composed of

11 to 13, the indoor unit 1 is coupled to the chassis 2 and the front surface of the chassis 2, and an air intake port 4 and a suction grille 6 are formed and the front lower side or A front grill 10 having an air outlet 8 formed on its bottom surface, a suction grill 12 rotatably connected to a front surface of the front grill 10, a motor 14 mounted on the chassis 2, And an indoor heat exchanger (18) disposed between the blower fan (16) connected to the motor (14), and the blower fan (16), the air intake port (4), and the suction grill (6).

The front grille 10 has a front air inlet 4 formed on its front surface, and the upper side suction grille 6 is integrally formed on its upper surface.

The front grille 10 is provided with a pre-filter (5) for filtering foreign matter in the air sucked into the front air intake (4).

The intake grille 12 protects the front air intake port 4 and the prefilter 5, and an upper portion thereof is rotatably connected to an upper portion of the front grille 10.

A louver for forming a condensate receiver 19 for receiving condensate dropped from the indoor heat exchanger 18 and changing the left and right wind directions of the air discharged to the air outlet 8 in the inner lower portion of the front grill 10. A discharge grill 24 including a vane 22 for changing the upper and lower wind directions 20 is mounted.

In the conventional air conditioner configured as described above, when the blower fan 16 is rotated by the driving of the motor 14, the indoor air in front of the suction grille 12 receives the suction grille 12 and the front air suction port. The foreign matter is filtered by the filter 5 while passing through (4), and is sucked into the space between the front grill 10 and the chassis (2).

In addition, indoor air above the front grille 10 is sucked into the space between the front grille 10 and the chassis 2 through the upper suction grille 6.

The indoor air sucked as described above is cooled or heated by the refrigerant passing through the indoor heat exchanger 18 while passing through the indoor heat exchanger 18, and after passing through the blower fan 16, the louver 20. ) And the vanes 22 are discharged into the room through the air discharge port 8.

However, since the air conditioner according to the prior art only uses the prefilter 5 to clean the indoor air, there is a limit to clean the indoor air, and a separate air purifier such as an oxygen generator is used to clean the indoor air. When installed indoors, since the air conditioner and the air cleaner must be operated separately, not only the convenience is lowered, but the power consumption and the cost are increased, and the indoor space is narrowed by the air cleaner.

The present invention has been made to solve the above problems of the prior art, it is an object of the present invention to provide a filter unit of an air conditioner that can clean indoor air without a separate air cleaner, power consumption and cost is reduced. .

The filter unit of the air conditioner according to the present invention for solving the above problems is mounted to the upper surface of the indoor unit, the communication hole is formed in communication with the interior of the indoor unit, and a high-performance filter is mounted; It is installed to protect the high performance filter, the indoor air suction hole is formed so that the indoor air is sucked into the inside of the filter case, and comprises a filter cover for mounting a pre-filter, the filter cover is the rear end of the filter case The hinge is connected to the rear end of the.

The filter case is characterized in that the high-performance filter sliding guide is formed so that the high-performance filter is detached back and forth.

The filter case is characterized in that the leaf spring is formed to press the high performance filter.

The high performance filter may include a left high performance filter installed on the upper left side of the filter case and a right high performance filter installed on the upper right side of the filter case.

The high performance filter includes a lower case opened up and down, an upper case installed to cover the upper side of the lower case and opened up and down, and a HEPA filter installed inside the lower case and the upper case. .

The high performance filter is characterized in that it further comprises a silver nano filter installed in the lower case to be positioned below the HEPA filter.

The filter cover is characterized in that the grill is formed in the indoor air suction hole.

delete

The filter cover is characterized in that the pre-filter sliding guide is formed so that the pre-filter sliding detachable.

The filter cover is characterized in that the hook formed with the pre-filter is formed.

The prefilter may include a left prefilter installed on a lower left side of the filter cover, and a right prefilter installed on a right side of the bottom of the filter cover.

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

1 is a perspective view of an embodiment of an air conditioner equipped with a filter unit according to the present invention.

As shown in FIG. 1, the air conditioner according to the present embodiment includes a ventilation unit 150 formed in the indoor unit 100 to discharge indoor air to the outside; Oxygen supply 250 is formed in the outdoor unit 200 to supply oxygen (O ″) to the room through the indoor unit 100, and the air is installed in the indoor unit 100 is sucked toward the indoor unit 100 It comprises a filter unit 300 for cleaning.

The air conditioner includes a cooling / heating operation in which cold or warm air I ′ is discharged from the indoor unit 100, a ventilation operation in which indoor air is sucked into the indoor unit 100, and discharged to the outside, and the indoor unit. An oxygen operation in which oxygen O ″ is supplied through 100, and an independent clean operation in which indoor air is cleaned by the filter unit 300, and includes the cooling / heating operation, a ventilation operation, , Oxygen operation, and clean operation are carried out together or independently.

The indoor unit 100 includes an indoor heat exchanger 134 for exchanging indoor air while refrigerant is evaporated / condensed, and sucks indoor air into the indoor unit 100 to pass the indoor heat exchanger 134 to the room. An indoor blower for blowing air is installed.

The ventilation unit 150 includes a ventilation blower 152 installed inside the indoor unit 100.

The ventilation blower 152 is installed at one side of the left, right inside of the indoor unit (100).

The ventilation unit 150 further includes a ventilation duct 170 for guiding the indoor air blown by the ventilation blower 152 to the outside.

One end of the ventilation duct 170 is disposed inside the indoor unit 100, and passes through the duct through hole 104 formed in the indoor unit 100, and the other end thereof is extended to the outside.

The outdoor unit 200 includes a compressor for compressing a refrigerant, an outdoor heat exchanger in which the refrigerant is condensed / evaporated by the outdoor air, an expansion device for expanding the refrigerant, and outdoor air being sucked into the outdoor unit to pass through the outdoor heat exchanger. An outdoor blower is installed to blow the air outside.

The outdoor unit 200 is provided with a four-way valve for switching the flow of the refrigerant when the indoor unit 100 serves both cooling and heating.

The oxygen supplier 250 guides the oxygen generating unit 252 generating oxygen O ″ by sucking outdoor air and the oxygen O ″ generated in the oxygen generating unit 252 to the inside of the indoor unit. It is configured to further include an oxygen hose 254.

The oxygen generating unit 252 separates nitrogen (O ′) and oxygen (O ″) from the outdoor air, supplies oxygen (O ″) to the oxygen hose 254, and nitrogen (O ′) to the outside. As it is discharged again, it is installed on the upper surface of the outdoor unit (200).

 One end of the oxygen guide hose 254 is connected to the oxygen generator 252 and passes through the hose through hole 105 formed in the indoor unit 100, and the other end is in front of the indoor heat exchanger 134 of the indoor unit 100. Or on the upper side.

The filter unit 300 is installed on the upper surface of the indoor unit 100 to clean the air sucked through the upper surface of the indoor unit 100 from the upper side of the indoor unit 100.

2 is a perspective view when the front surface of the indoor unit shown in FIG. 1 is open, FIG. 3 is a perspective view when the front surface of the indoor unit shown in FIG. 1 is closed, and FIG. 4 is an exploded perspective view of the indoor unit shown in FIG. 5 is a cross-sectional view taken along line AA of FIG. 2, FIG. 6 is a cross-sectional view taken along line BB of FIG. 3, and FIG. 7 is a cross-sectional view taken along line CC of FIG. 2.

The indoor unit (100) includes a chassis (102), as shown in Figs. A front grill (110) installed at the front of the chassis (102) and having an air inlet (109) formed at the front thereof; A discharge grill assembly 120 installed below the front grill 110 and having an air outlet 119 therein; An indoor blower comprising a blowing motor 130 and a blowing fan 132 installed in the chassis 102; It is configured to include an indoor heat exchanger 134 installed between the blowing fan 132 and the front grill (110).

The chassis 102 has a refrigerant pipe passage hole 103 through which the refrigerant pipe 135 connected to the indoor heat exchanger 134 passes.

The chassis 102 is provided with a pipe holder 103a for supporting the refrigerant pipe 135 that has passed through the refrigerant pipe passage hole 103.

The chassis 102 has a duct through hole 104 through which the ventilation duct 170 penetrates.

The chassis 102 has a hose through hole 105 through which the oxygen hose 254 passes.

A bearing for supporting a left side of the indoor heat exchanger 134 and forming a flow path of air heat exchanged in the indoor heat exchanger 134 on the front left side of the chassis 102, and for supporting the blower fan 132. A left heat exchanger supporter 106 on which 133 is installed is formed.

The left heat exchanger supporter 106 may be disposed at the front and the upper side of the first left heat exchanger supporter 106a protruding forward from the front left side of the chassis 102 and the first left heat exchanger supporter 106a. The second left heat exchanger supporter 106c fastened to the chassis 102 by fastening means such as fastening bolts.

The first left heat exchanger supporter 106a is provided with an accommodating part 106b to which the rear part of the bearing 133 is mounted.

The second left heat exchanger supporter 106c is provided with an accommodating portion 106d to which the front portion of the bearing 133 is mounted.

A right side heat exchanger supporter 107 is formed on the front right side of the chassis 102 to support the right side of the indoor heat exchanger 134 and form a flow path of air heat exchanged by the indoor heat exchanger 134.

The right heat exchanger supporter 107 protrudes forward from the front right side of the chassis 102 and has a shaft through-hole 107a through which the rotating shaft 131 of the blowing motor 130 passes. .

The drain portion 108 which receives the condensed water dropped from the indoor heat exchanger 134 and drops onto the upper surface of the discharge grill 120 is protruded from the front of the chassis 102.

The front prefilter 111 is installed at the front air inlet 109 on the front surface of the front grill 110.

An upper surface air inlet 113 is formed on the upper surface of the front grill 110.

The filter unit 300 is installed on the upper surface of the front grill 110 to clean the air sucked through the upper air inlet 113.

Deco panel 118 is installed around the front of the front grill (110).

The front grille 110 is provided with a suction guide 119a to guide the indoor air sucked into the front air inlet 109 and the upper air intake 113 to the indoor heat exchanger 134 without leaking sideways. .

The suction guide 119a is formed at the left and right sides of the suction guide 119a, and a part of the indoor air sucked into the indoor unit 100 is a part of the ventilation unit 150, in particular, the ventilation blower 152 in the left suction guide. A plurality of ventilation holes 119c are formed to be sucked into.

The discharge grill assembly 120 has a discharge main body 122 having a condensate receiving portion 121 for receiving condensate dropped from the indoor heat exchanger 134 on an upper surface thereof and an air outlet 119 formed on a lower surface thereof. And a louver 123 installed to adjust the left and right wind directions of the air discharged to the air discharge port 119, and a vane 124 provided to adjust the up and down wind direction of the air discharged to the air discharge port 119. do.

The blower fan 132 is disposed long to the left and right, and a left rotating shaft 132a rotatably supported by the bearing 133 is protruded from the left end, and a rotating shaft 131 of the blowing motor 130 is disposed at the right end. ) Is connected to the right rotating shaft 132b.

The indoor heat exchanger 134 includes a vertical portion 134a disposed vertically behind the front air inlet 109 and a first inclined portion 134b disposed to be inclined upwardly from an upper end of the vertical portion 134a. And a second inclined portion 134c disposed to be inclined downward from the upper end of the first inclined portion 134b.

The indoor unit 100 further includes a front panel 140 rotatably installed on the front of the front grill 110 to open and close the front air intake 109.

The front panel 140 includes a panel frame 140a that is pivotally connected to and detachably connected to the front surface of the front grill 110 and a door glass 140b disposed in front of the panel frame 140a. .

An opening hole 140c is formed at one side of the panel frame 140a for a transparent part to be described later.

On the back of the door glass 140, a printed matter 140d having a specific color or pattern is formed.

The printed matter 140d is not printed in front of the opening hole 140c so that the front panel 140 has a transparent portion described later.

The front panel 140 is supported at the lower portion of the front grill 110 so that the front panel 140 can be rotated forward with respect to the lower portion.

A hook rib 140e protrudes from the lower rear surface of the front panel 140 so that the lower portion of the front panel 140 can be rotated forward while being locked to the lower front surface of the front grill 110. Hook ribs 110a for hook ribs 110e are formed at the lower portion of the front surface of the grill 110 and are not caught in the upward direction and the rotational direction of the front panel 140 while the hook ribs 140e are engaged in the left and right directions. .

The front panel 140 is connected to the lower portion of the front of the front grill 110 by a link means.

The link means may include a first link 141 hinged to a lower front surface of the front grill 110, and a second link hinged to the first link 141 and hinged to a rear surface of the front panel 140. 142).

The rear surface of the front panel 140 is provided with a link supporter 143 for rotatably hanging the second link 142.

The link supporter 143 is installed to be slid left and right to facilitate assembly / disassembly of the front panel 140.

The front grille 110 and the front panel 140 are provided with a front panel driving means for rotating opening and closing the front panel.

The front panel driving means includes a rack 144 detachably mounted on an upper rear surface of the front panel, a front panel driving motor 145 installed on the front grill 110, and a front panel driving motor 145. And a pinion 146 which is arranged on a rotating shaft of the rack and is engaged with the rack 144.

The front panel 140 has a transparent portion formed by the opening hole 140c and the door glass 140b of the panel frame 140a, and a display 148 displaying operation information of the air cleaning system at the rear of the transparent portion. ) Is installed.

On the rear surface of the front panel 140 and the front surface of the front grill 110, when the front panel 140 is inclined or vertically disposed, the display 148 is located behind the transparent portion, and the front panel Display mounting means 149 is formed to hold the display 148 on the front side of the front grill 110 when 140 is detached from the front grill 110.

The display mounting means 149 has a lower end connected to the front lower portion of the front grill 110 and an upper end free of the display bracket 149a on which the display 148 is mounted, and the display 148. Hooks 149b protruding from the rear surface of the front panel 140 and hooks 149c for hooking the upper ends of the display brackets 149a are formed to be hooked to the rear surface of the front panel 140. It is configured to include a display connector (149d) connected to the upper front of the front grill (110).

Meanwhile, the ventilation unit 150 is disposed on one side of the left side of the left heat exchanger supporter 136 and the right side of the right heat exchanger supporter 138, hereinafter, the ventilation unit 150 is installed on the left side of the left heat exchanger supporter 136. The description will be limited.

As shown in FIGS. 4 and 7, the ventilation blower 152 includes a ventilation fan 154 and a ventilation motor 156; The ventilation fan 154 and the ventilation motor 156 includes a ventilation fan housing 160 is installed.

The ventilation fan housing 160 has an inlet 162 through which the indoor air I is sucked and a discharge port 164 through which the air blown by the ventilation fan 154 is discharged.

The ventilation fan housing 160 includes a housing main body 166 in which the ventilation motor 156 is installed, one surface thereof is opened, and a discharge port 164 is formed, and the suction port 162 is coupled to the housing main body 166. It consists of an orifice 168 formed.

The ventilation fan housing 160 is fixed to the chassis 102 by a fastening member such as a fastening bolt.

Reference numeral 180 shown in FIG. 4 is a motor cover that is fastened to the chassis 102 by screws or hooks to cover the blowing motor 130.

Reference numeral 190 shown in FIG. 4 is a control box mounted with a control component for controlling the air conditioner and disposed at the front or the upper side of the motor cover 180.

A reference numeral 198 illustrated in FIG. 4 is a box cover that blocks a service hole formed in front of the control box 190 for service of the control box 190.

Reference numeral 102a shown in FIG. 6 is an assembly guide protruding from the front surface of the chassis 102 to determine the assembly position of the ventilation fan housing 160.

The reference numeral 166a shown in FIG. 6 is a protrusion projecting backward from the housing body 166 in the ventilation fan housing 160 to be inserted into the assembly guide 102a and engaged.

FIG. 8 is an exploded perspective view of the oxygen generating unit shown in FIG. 1, and FIG. 9 is a schematic configuration diagram of the oxygen generating unit shown in FIG. 1.

As illustrated in FIGS. 7 and 8, the oxygen generating unit 252 includes an air intake unit 262 through which air is sucked and branched in two directions, and first and second nitrogens installed to allow oxygen to pass and adsorb nitrogen. Branched into two branches so as to communicate with each of the first and second nitrogen adsorption modules 264 and 266 and through the first and second nitrogen adsorption modules 264 and 266. Oxygen discharge unit 268 for discharging the oxygen separated from the nitrogen, the oxygen discharge pump 270 for pumping the oxygen discharged to the oxygen discharge unit 268, and the first and second nitrogen adsorption module 264 The nitrogen discharge part 272 branched into two branches and the nitrogen adsorbed to the first and second nitrogen adsorption modules 264 and 266 may be discharged to the outside to discharge the nitrogen adsorbed to the 266. It is configured to include a vacuum pump 274 mounted to the nitrogen discharge portion 272 to be.

The air suction part 262 is provided with a filter 263 for purifying the outdoor air sucked into the air suction part 262.

The first and second nitrogen adsorption modules 264 and 266 include a module case in which an inlet and an outlet are formed, and a capture powder which collects nitrogen in the air that is received inside the module case and increases oxygen content of the air. do.

The capture powder is a zeolite that uses a difference in the collection power of a plurality of molecules constituting the air, and since nitrogen is easily collected compared to oxygen or other molecules, the ratio of nitrogen in the air passing through the zeolite is increased. This decreases and the air with increased oxygen content is discharged.

The oxygen hose 254 is connected to the oxygen outlet 268.

The oxygen outlet 268 is provided with first and second check valves 268a and 268b to prevent oxygen backflow between the first and second nitrogen adsorption modules 264 and 266.

The nitrogen discharge part 272 extends outside the oxygen generating unit 252 to discharge nitrogen to the outside.

On the other hand, the oxygen generating unit 252 is in communication with one side of the branch of the air inlet 262 and one of the branch of the nitrogen outlet 268 and the first nitrogen adsorption module 264, the air A first solenoid valve 276 for selectively opening and closing one side of the branch of the suction unit 262 and one of the branch of the nitrogen discharge unit 268, and the other side of the branch of the air suction unit 262. The other side of the branch of the nitrogen outlet 268 and the second nitrogen adsorption module 266 is in communication, the other side of the branch of the air inlet 262 and the branch of the nitrogen outlet 268 And a second solenoid valve 278 for selectively opening and closing the other side.

The first solenoid valve 276 and the second solenoid valve 278 alternately open and close the air inlet 262 and the nitrogen outlet 272.

In addition, the oxygen generating unit 252 is the air suction unit 262, the first and second nitrogen adsorption modules 264, 266, the oxygen discharge unit 268, the oxygen discharge pump 270, nitrogen The discharge part 272 and the casing 280 in which the vacuum pump 274 etc. are further included are comprised.

The casing 280 is a cabinet 284 installed on the upper surface of the outdoor unit by fastening means such as fastening bolts, and installed on the base 282, and having an outdoor air inlet 283 formed therein. It is composed.

Reference numeral 286 is connected to one end of the air intake 262 so that a flat pressure can be formed in the first and second nitrogen adsorption modules 264 and 266 and the first and second solenoid valves 276 and 278. The other end is connected to the oxygen discharge portion 268 is a flat pressure forming portion.

Reference numerals 288 and 290 denote first and second orifices provided in the flat pressure forming unit 286 to adjust air and oxygen flow rates.

10 is an exploded perspective view of the optional filter unit shown in FIG. 1.

As shown in FIGS. 5, 6, and 11, the filter unit 300 includes a filter case 310 installed to be located at an upper air inlet 113 of the indoor unit 100, and the filter case 310. A high performance filter 320, 330 mounted on the filter cover, a filter cover 340 installed on the filter case 310 to protect the high performance filter 320, 330, and the filter cover 340. It comprises a pre-filter 350, 360 is installed on the filter cover 340 to filter foreign matter in the air sucked into.

In the filter case 310, a communication hole 311 communicating with the inside of the indoor unit 50 is formed to be opened in the vertical direction.

A plurality of ribs 312 are formed in the filter case 310 to be spaced apart from the communication hole 311.

The high performance filter sliding guides 313a, 313b, 314a and 314b are formed in the filter case 310 such that the high performance filters 320 and 330 slide back and forth.

The high performance filter sliding guides 313a, 314a, 314a, and 314b include a high performance filter left sliding guide 313a and 314a in which left surfaces of the high performance filters 320 and 330 are slid forward and backward. High-performance filter is formed to be spaced apart at intervals slightly larger than the left and right width of the filter left sliding guide (313a) (314a) and the high-performance filter (320) 330, the right surface of the high-performance filter (320, 330) is guided sliding back and forth It consists of the right sliding guide 313b and 314b.

The filter case 310 is formed with leaf springs 315a, 315b, 316a, and 316b for pressing the high performance filters 320 and 330.

The leaf springs 315a, 315b, 316a, and 316b are elastically deformed by the upper surface of the high performance filters 320 and 330 when sliding the high performance filters 320 and 330 backward. It is formed to press the high performance filter downward.

That is, the leaf springs 315a, 315b, 316a, 316b are formed to be inclined downward from the rear to the front, and the tip is inclined upward toward the front to facilitate initial sliding of the high performance filter 320 or 330. Is formed.

The leaf springs 315a, 315b, 316a, and 316b are formed of a left leaf spring 315a, 316a formed to press the left side of the high performance filter 320, 330, and the high performance filter 320, 330. It consists of the right leaf springs 315b and 316b formed so as to press the right side of.

The high performance filter 320, 330 includes a left high performance filter 320 installed on the upper left side of the filter case 310 and a right high performance filter 330 installed on the upper right side of the filter case 310. do.

The high performance filter 320 and 330 may include a lower case 322 having an upper and lower opening, an upper case 324 provided to cover an upper side of the lower case 322 and having an upper and lower opening. The HEPA filter 326 is disposed inside the lower case 322 and the upper case 324.

The high performance filter 320, 330 further includes a silver nano filter 328 installed in the lower filter case 322 to be positioned below the HEPA filter 326.

An indoor air suction hole 341 through which the indoor air is sucked is opened in the filter cover 340, and a grill 342 is formed in the indoor air suction hole 341.

Pre-filter sliding guides 343a, 343b, 344a and 344b are formed on the filter cover 340 so that the pre-filters 350 and 360 slide back and forth.

The pre-filter sliding guides 343a, 343b, 344a, and 344b include pre-filter left sliding guides 343a and 343b in which left ends of the pre-filters 350 and 360 are slid back and forth, and the pre-filters Pre-filters are formed spaced at intervals slightly smaller than the left and right widths of the filter left sliding guide (343a) (343b) and the pre-filter 350, 360 so that the right surface of the pre-filter 350, 360 is slid back and forth It consists of right sliding guides 344a and 344b.

The prefilter left sliding guides 343a and 343b and the prefilter right sliding guides 344a and 344b are formed to face guide grooves so that side ends of the prefilters 350 and 360 are inserted in the front-rear direction.

The prefilter left sliding guides 343a and 343b and the prefilter right sliding guides 344a and 344b have a wider tip portion than the other portions to facilitate sliding insertion of the prefilters 350 and 360.

Hooks 345 and 346 on which the pre-filters 350 and 360 are engaged are formed to protrude downward from the bottom of the filter cover 340.

The rear end of the filter cover 340 is hinged to the rear end of the filter case 310.

Hinge rods 349 protrude from opposite sides of the rear end of the filter cover 340, and hinge holes 319 for rotatably inserting the hinge rods 349 are provided at both rear ends of the filter case 310. Oppositely formed.

The prefilters 350 and 360 may include a left prefilter 350 installed on a lower left side of the filter cover 340 and a right prefilter 360 installed on a lower right side of the filter cover 340. do.

Looking at the operation of the present invention configured as described above are as follows.

First, when the cooling operation is input to the air conditioner, the compressor of the outdoor unit 150 is driven, the four-way valve of the outdoor unit 150 is switched to the cooling mode, and the front panel driving motor 145 is in the open mode. It is driven by, the blower motor 130 of the indoor blower is driven, the blower motor of the outdoor blower is driven.

When the compressor of the outdoor unit 150 is driven and the four-way valve of the outdoor unit 150 is switched to the cooling mode, the refrigerant compressed by the compressor is connected to the four-way valve, the outdoor heat exchanger, the expansion mechanism, and the indoor heat exchanger 134. After passing through the four-way valve in order to circulate to the compressor, the indoor heat exchanger 134 is evaporated while taking the heat of the surroundings, the air around the indoor heat exchanger 134 is cooled.

On the other hand, when the front panel driving motor 145 is driven in the open mode, the pinion 146 is rotated to advance the rack 144, the front panel 140 is shown in Figures 1 and 2 and 5 As shown in the drawing, the front pivoting around the lower portion forms an air intake passage between the front surface of the front grill 110, and the indoor unit 50 provides indoor air through the front air intake port 109. Can be inhaled.

Then, when the blowing motor 130 of the indoor blower is driven, the blowing fan 132 is rotated, the indoor air (I) in front of the indoor unit 50 is sucked into the front air inlet 109, The indoor air I above the indoor unit 50 is sucked into the filter unit 300.

The indoor air I sucked into the front air inlet 109 passes through the front prefilter 111 mounted on the front of the front grill 110, and foreign substances such as dust are filtered out thereafter, and then the suction guide 119a. Is cooled by the refrigerant while passing through the vertical portion 134a or the first inclined portion 134b of the indoor heat exchanger 134.

Meanwhile, the indoor air I sucked into the filter unit 300 is purified while passing through the filter unit 300.

Hereinafter, the action of purifying the indoor air by the filter unit 300 will be described in more detail.

The air above the filter unit 300 in the indoor air is sucked into the filter unit 300 through the indoor air suction hole 341 between the grilles 342 of the filter cover 340, and the pre-filter ( The foreign matter in the air is filtered while passing through 350 and 360.

Air filtered with the foreign matter is sucked into the high performance filter 320, 330, the fine dust is filtered while passing through the HEPA filter 326, and then passing through the silver nano filter 328, odor particles, bacteria Etc. are removed.

The indoor air I purified as described above is sucked into the indoor unit 100 through the communication hole 311 of the filter case 310, and is then guided by the suction guide 119a. The refrigerant is cooled by passing through the first inclined portion 134b or the second inclined portion 134c of the heat exchanger 134.

The indoor air I ′ cooled as described above is guided by the louver 123 and the vane 124 of the discharge grill assembly 120 after passing through the blower fan 132 and the air discharge port 119. It is discharged to the room through.

When the heating operation is input to the air conditioner, the compressor of the outdoor unit 150 is driven, the four-way valve of the outdoor unit 150 is switched to the heating mode, and the front panel driving motor 145 is driven in the open mode. The blower motor 130 of the indoor blower is driven, and the blower motor of the outdoor blower is driven.

When the compressor of the outdoor unit 150 is driven and the four-way valve of the outdoor unit 150 is switched to the heating mode, the refrigerant compressed in the compressor is connected to the four-way valve, the indoor heat exchanger 134, the expansion mechanism, and the outdoor heat exchanger. Passed through the four-way valve in turn to the compressor, the indoor heat exchanger 134 is condensed while releasing heat to the surroundings, the air around the indoor heat exchanger 134 is heated.

Since the flow of the indoor air I in the heating operation of the air conditioner is the same as in the cooling operation, a detailed description thereof will be omitted, and the indoor air I ′ heated by the indoor heat exchanger 134 is the air. It is discharged to the room through the discharge port 119.

On the other hand, when the ventilation operation is input to the air conditioner, the ventilation motor 156 is driven so that the ventilation fan 154 is rotated, and the front panel driving motor 145 is driven in the open mode.

The indoor air I is sucked into the indoor unit 50 as in the cooling / heating operation, and then passes through the ventilation hole 119b of the suction guide 119a to the ventilation blower 152. Is inhaled.

The indoor air I sucked toward the ventilation fan 152 flows into the ventilation fan housing 160 through the inlet 162 of the ventilation fan housing 160, and the ventilation fan 154. It is blown by the air is discharged to the discharge port 164 of the ventilation fan housing 160.

The indoor air I ″ discharged to the discharge port 164 of the ventilation fan housing 160 is discharged to the outside while being guided by the ventilation duct 170.

On the other hand, the air conditioner drives the oxygen generating unit 252 when oxygen operation is input.

When the oxygen generating unit 252 is driven, the oxygen generating unit 252 sucks outdoor air O to separate nitrogen and oxygen, discharges nitrogen separated from oxygen to the outside, and discharges nitrogen and Separated oxygen O ″ is supplied to the oxygen hose 254.

Hereinafter, the nitrogen (O ′) discharge and oxygen (O ″) supply by the oxygen generating unit 252 will be described in more detail.

The oxygen generating unit 252 alternately supplies oxygen and discharges nitrogen from the first nitrogen adsorption module 264 and the second nitrogen adsorption module 266.

First, when the discharge of nitrogen by the first nitrogen adsorption module 264 and the supply of oxygen by the second nitrogen adsorption module 266 are described, the first solenoid valve 276 is the air intake part 262 side. And the nitrogen discharge part 272 side is opened, and the second solenoid valve 278 opens the air suction part 262 side and seals the nitrogen discharge part 272 side.

Appropriate flow rate of the air passing through the air inlet 262 passes through the first orifice 288 to the oxygen outlet 268 to form a flat pressure on the second nitrogen adsorption module 266, and the air The air sucked into the suction unit 262 is sucked into the second nitrogen adsorption module 266, and the air sucked into the second nitrogen adsorption module 266 adsorbs nitrogen to the second nitrogen adsorption module 266. Only oxygen passes through the second nitrogen adsorption module 266.

Oxygen O ″ passing through the second nitrogen adsorption module 266 passes through the second orifice 290 after passing through the second check valve 268b and passes through the flat pressure forming unit 286. After being combined with air, it is supplied to the oxygen hose 254 through the oxygen discharge pump 270.

At this time, nitrogen (O ′) adsorbed on the first nitrogen adsorption module 264 is vacuum pumped and discharged through the nitrogen discharge unit 272.

Referring to the discharge of oxygen by the first nitrogen adsorption module 264 and the discharge of nitrogen by the second nitrogen adsorption module 266, the first solenoid valve 276 opens the air inlet 262 side. In addition, the nitrogen discharge part 272 side is sealed, and the second solenoid valve 278 seals the air intake part 262 side and opens the nitrogen discharge part 272 side.

The proper flow rate of the air passing through the air inlet 286 passes the first orifice 288 to the oxygen outlet 268 to form a flat pressure on the first nitrogen adsorption module 264, and the air The air sucked into the suction unit 262 is sucked into the first nitrogen adsorption module 264, and the air sucked into the first nitrogen adsorption module 264 adsorbs nitrogen to the first nitrogen adsorption module 264. Only oxygen passes through the first nitrogen adsorption module 264.

Oxygen O ″ having passed through the first nitrogen adsorption module 264 passes through the second orifice 290 after passing through the first check valve 268a and passes through the flat pressure forming unit 286. After being combined with air, it is supplied to the oxygen hose 254 through the oxygen discharge pump 270.

Meanwhile, nitrogen (O ′) adsorbed on the second nitrogen adsorption module 266 is vacuum pumped and discharged through the nitrogen discharge unit 272.

On the other hand, oxygen (O ″) supplied to the oxygen hose 254 is guided to the oxygen hose 254 is discharged to the upper or front of the indoor heat exchanger 134, after which the air outlet of the indoor unit 50 119 or the upper surface air inlet 113 is discharged into the room.

On the other hand, the air conditioner, of course, it is also possible to drive the blowing motor 130 of the indoor blower when the oxygen operation input.

When the blower motor 130 of the indoor blower is driven, the air in the room is sucked into the indoor unit 50 through the upper air inlet 113 and supplied through the oxygen hose 254. ) Is discharged to the air discharge port 119 and oxygen (O ″) is rapidly supplied to the room together with the indoor air discharged after being sucked into the indoor unit (50).

In addition, the air conditioner may of course drive the front panel driving motor 145 in the open mode when the oxygen operation is input.

In the open mode of the front panel driving motor 145, the front panel 140 opens the front air inlet 109 like the cooling operation and the heating operation, and the air of the indoor unit 50 is the upper surface. The air outlet 119 is sucked into the indoor unit 50 not only through the air inlet 113 but also through the front air inlet 109 and then supplied with oxygen O ″ through the oxygen hose 254. Is discharged, and oxygen (O ″) is supplied to the room more quickly.

In the air conditioner, when the independent clean operation is input, the compressor of the outdoor unit 150 and the blower motor of the outdoor blower are stopped and the blower motor 130 of the indoor blower is driven. The driving motor 145 is driven in the closed mode or the open mode.

In the airtight mode of the front panel driving motor 145, the indoor air is sucked into the indoor unit 50 after passing through the filter unit 300, and after passing through the indoor heat exchanger 134 without heat exchange, the air discharge port. It is discharged to the room through 119.

On the other hand, in the open mode of the front panel driving motor 145, the indoor air is sucked into the indoor unit 50 after a part of it is purified by the filter unit 300, the rest of the front pre-filter 111 After the foreign matter has been filtered by the suction unit to the indoor unit 50, the air purged by the filter unit 300 and the air filtered only the foreign matter passes through the indoor heat exchanger 134 without heat exchange the air discharge port ( 119 is discharged into the room.

In the filter unit of the air conditioner according to the present invention configured as described above, the filter case is installed in the air inlet formed in the indoor unit, the high performance filter is mounted in the filter case, and the filter cover in which the indoor air suction hole is formed in the filter case is installed. And, since the pre-filter is installed in the filter cover, it is possible to clean the indoor air without having to provide a separate air purifier in the room, power consumption and cost is reduced, there is an advantage that can maximize the indoor space.

In addition, since the bulky foreign matter is firstly filtered by the prefilter in the room air sucked into the filter unit indoors, and fine dust is secondly filtered by the high-performance filter, the high-performance by the bulky foreign matter is There is an advantage in that clogging of the filter can be prevented and the indoor air can be cleaned more efficiently.

In addition, the filter case has a high-performance filter sliding guide is formed so that the high-performance filter is sliding back and forth, there is an advantage that the first installation and replacement of the high-performance filter is easy.

In addition, the filter case is formed with a leaf spring pressurizing the high-performance filter, the high-performance filter is not shaken by vibration of the air conditioner, there is an advantage that the high-performance filter is mounted on the filter case stably.

In addition, the filter cover has an advantage that the grill is formed in the indoor air suction hole, it can protect the pre-filter.

In addition, the filter cover has a pre-filter sliding guide is formed so that the pre-filter sliding back and forth, there is an advantage that the initial mounting and cleaning of the pre-filter is easy.

In addition, the filter cover is provided with a hook to the pre-filter is caught in the front, there is an advantage that the pre-filter is not detached to the front side, it is firmly and stably mounted on the filter cover.

Claims (12)

A filter case mounted on an upper surface of the indoor unit, and having a communication hole communicating with the inside of the indoor unit, wherein the high performance filter is mounted; It is installed to protect the high performance filter, the indoor air suction hole is formed so that the indoor air is sucked into the inside of the filter case, and comprises a filter cover for mounting the pre-filter, The filter cover is a filter unit of the air conditioner, characterized in that the rear end is hinged to the rear end of the filter case. The method of claim 1, The filter case of the air conditioner, characterized in that the high-performance filter sliding guide is formed in the filter case so that the high-performance filter slides back and forth. The method of claim 1, The filter case of the air conditioner, characterized in that the filter spring is formed with a leaf spring for pressing the high performance filter. The method of claim 1, The high performance filter comprises a left high performance filter installed on the upper left side of the filter case, and a right high performance filter installed on the upper right side of the filter case. The method of claim 1, The high performance filter includes a lower case opened up and down, an upper case installed to cover the upper side of the lower case and opened up and down, and a HEPA filter installed inside the lower case and the upper case. Filter unit of air conditioner. The method of claim 5, The high performance filter is a filter unit of the air conditioner, characterized in that further comprising a silver nano filter installed in the lower case to be positioned below the hepa filter. The method of claim 1, The filter cover is a filter unit of the air conditioner, characterized in that the grill is formed in the indoor air suction hole. delete The method of claim 1, The filter unit of the air conditioner, characterized in that the pre-filter sliding guide is formed in the filter cover so that the pre-filter sliding back and forth. The method of claim 1, The filter cover of the air conditioner, characterized in that the filter cover is formed with a hook to the hook. The method of claim 1, The pre-filter is a filter unit of the air conditioner, characterized in that the left pre-filter is installed on the left side of the filter cover, and the right pre-filter is installed on the right side of the filter cover. delete

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