CN105805830A - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner having a door for closing a hole for discharging air. The air conditioner according to an embodiment of the present invention includes, a body rear panel (150) forming an upper rear external appearance and having an inlet (151a) for admitting air, a body front panel (190) coupled to the body rear panel (150), forming a front external appearance, and having an outlet (190a) for discharging air, a blowing module (140) for discharging air to the outlet (190a), a guide panel (170) disposed between the blowing module (140) and the body front panel (190) and having a guide hole (170a) for guiding air from the blowing module (140) to the outlet (190a), and a door unit (180) rotatably coupled to the guide panel (170) for closing the outlet (190a) and the guide hole (170a).

Description

Air conditioner

Technical field

The present invention relates to air conditioner, say in more detail the air conditioner of the door relating to a kind of hole being provided with and making air spue for opening and closing.

Background technology

Air conditioner is to suck air change temperature, humidity or degree of purification etc. by air sucting, then passes through air spitting unit and spues indoor, so that indoor are changed to the device of comfortable environment.

In air conditioner, air spitting unit can be formed with at front part, the air-conditioning units such as the heat exchanger for changing the temperature of air, humidity or degree of purification or filter can be provided with therein, and the air-supply arrangement flowed for making air carry out can be provided with.

The air conditioner used in family mainly uses separate type air conditioner, it arranges indoor heat exchanger and indoor blower in indoor set, off-premises station arranges outdoor heat exchanger, outdoor draft fan, compressor etc., and utilizing refrigerant piping to connect the indoor set and off-premises station being separated from each other, separate type air conditioner is wall-hung type and three-dimensional air conditioner according to the Form division of indoor set.

The indoor set of such home-use air conditioner needs to make its simple in construction and efficiency high.

Summary of the invention

It is an object of the invention to provide the air conditioner of the door in a kind of hole being provided with and making air spue for opening and closing.

The purpose of the present invention is not limited to above-mentioned purpose, and those skilled in the art can be clearly understood that other purposes silent by following record.

In order to realize described purpose, the air conditioner of embodiments of the invention includes: body rear board, is used for forming rear outward appearance, is formed with the suction inlet sucking air；Body front panel, is combined with described body rear board and forms front outward appearance, be formed with the discharge opening of discharge air；Air-supply module, for spuing the air sucked in described suction inlet to described discharge opening；Guide panel, is located between described air-supply module and described body front panel, is formed with the pilot hole for being guided by the air flowed by described air-supply module to described discharge opening；And, door portion, it is rotatably mounted in described guide panel, discharge opening and described pilot hole described in opening and closing.

The particular content of other embodiments is included in detailed description of the invention and accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of the air conditioner of one embodiment of the invention.

Fig. 2 is the exploded perspective view of the air conditioner shown in Fig. 1.

Fig. 3 is the axonometric chart of the adapter of the air conditioner of one embodiment of the invention.

Fig. 4 is the axonometric chart of the base rear board of the air conditioner of one embodiment of the invention.

Fig. 5 is the installation diagram of the guard shield panel of the air conditioner of one embodiment of the invention.

Fig. 6 is the installation diagram of the body front panel of the air conditioner of one embodiment of the invention.

Fig. 7 is the installation diagram of the front of chassis plate of the air conditioner of one embodiment of the invention.

Fig. 8 is the axonometric chart in the door portion of the air conditioner of one embodiment of the invention.

Fig. 9 is the exploded perspective view of a part of structure of the air conditioner of one embodiment of the invention.

Figure 10 is the front view of the guide panel of the air conditioner of one embodiment of the invention.

Figure 11 is the front view of the body front panel of the air conditioner of one embodiment of the invention.

Figure 12 and Figure 13 is the figure of the opening and closing situation in the door portion illustrating one embodiment of the invention.

Figure 14 is the profile of the door driving arm periphery of the air conditioner of one embodiment of the invention.

Figure 15 is the profile of the door turn arm periphery of the air conditioner of one embodiment of the invention.

Figure 16 and Figure 17 is the open cube display of the input/output module of the air conditioner of one embodiment of the invention.

Figure 18 is the structure chart of the input/output board of the air conditioner of one embodiment of the invention.

Detailed description of the invention

By referring to accompanying drawing and the embodiment that is described in detail later in the lump, it is possible to definitely advantages of the present invention, feature and the method for realizing it.But, the present invention is not limited to embodiment disclosed below, but can be implemented by mutually different variform, the present embodiment is provided only as more fully disclosing the present invention, and more fully pointing out the scope of the present invention to the those of ordinary skill of the technical field belonging to the present invention, the present invention is only defined by scope of the claims.In entire disclosure, identical reference marker represents identical structural detail.

Hereinafter, with reference to accompanying drawing, the air conditioner of embodiments of the invention is illustrated.

Fig. 1 is the axonometric chart of the air conditioner of one embodiment of the invention, and Fig. 2 is the exploded perspective view of the air conditioner shown in Fig. 1.

The air conditioner of one embodiment of the invention includes: base rear board 110, is supported in floor and is being internally formed space, is used for forming rear, bottom outward appearance；Body rear board 150, is incorporated into the upside of base rear board 110 and forms upper back outward appearance, is formed with the suction inlet 151a for sucking air；Adapter 130, is incorporated into the inside of base rear board 110；Front of chassis plate 120, is combined with adapter 130 and is formed front, bottom outward appearance；Body front panel 190, lower end is combined with front of chassis plate 120, and side is combined with body rear board 150, forms front, top outward appearance and is formed with the discharge opening 190a for the air that spues.

Base rear board 110 forms rear, the bottom outward appearance of air conditioner, is supported in the floor being provided with air conditioner and supports air conditioner.Base rear board 110 is formed as the polyhedron morphology that front is open, and has been internally formed space at described base rear board 110.It is preferably formed to curved surface after base rear board 110.Floor is touched in the bottom surface of base rear board 110.

It is combined with adapter 130 in the side of the inner space of base rear board 110.It is configured with electric box (not shown) in the inner space of base rear board 110, wherein holds component and other electronic units for controlling air conditioner.It is configured with front of chassis plate 120 in the front of base rear board 110.It is combined with body rear board 150 in the upside of base rear board 110.

Adapter 130 is incorporated into the inner side of base rear board 110.Adapter 130 is formed as the column form longer with above-below direction.Adapter 130 can be provided with multiple, comprising: be incorporated into the left side adapter 130-1 in the inside left face of base rear board 110；And, it is incorporated into the right side adapter 130-2 in the inner right side face of base rear board 110.Left side adapter 130-1 and right side adapter 130-2 is mutually symmetrically to be formed.

Adapter 130 is for strengthening the intensity of base rear board 110, and supports the guard shield panel 160 being wherein combined with air-supply module 140 and guide panel 170.The bottom surface of adapter 130 and one side are combined with base rear board 110.It is combined with guard shield panel 160 in the upside of adapter 130.At adapter 130 above in conjunction with there being front of chassis plate 120.

Body rear board 150 is incorporated into the upside of base rear board 110, for forming the upper back outward appearance of air conditioner.Body rear board 150 is formed as open polyhedron-shaped in front and lower section, and is being internally formed space.

Body rear board 150 is formed with suction inlet 151a, and the indoor room air being provided with air conditioner is drawn into described suction inlet 151a.Suction inlet 151a is formed at after body rear board 150.When air-supply module 140 described later is driven so that when air flows, air is drawn into suction inlet 151a, and the air being inhaled into flows to guard shield panel 160 via indoor heat exchanger 10 described later.

Body rear board 150 includes: the body rear board main body 151 having suction inlet 151a formed behind；It is installed on after body rear board main body 151, for covering the rear board filter part 152 of suction inlet 151a.Rear board filter part 152 is for filtering the air sucked in suction inlet 151a.Rear board filter part 152 is preferably installed in outside after body rear board main body 151.

It is combined with guard shield panel 160 in the front of body rear board 150.It is combined with base rear board 110 in the downside of body rear board 150.

It is configured with indoor heat exchanger 10 in the inside of body rear board 150.Indoor heat exchanger 10 is arranged between body rear board 150 and guard shield panel 160, for making leaked-in air and cold-producing medium in the suction inlet 151a of body rear board 150 carry out heat exchange.Heat exchange is carried out and cooled or heating air flows to guard shield panel 160 at indoor heat exchanger 10 and cold-producing medium.Indoor heat exchanger 10 is had the pipe of cold-producing medium and carries out the fin of heat exchange with air and constitute by flowing.

Air-supply module 140 makes air flow, and sucks air from the suction inlet 151a of body rear board 150, and to the discharge opening 190a discharge air of body front panel 190.When module 140 of blowing is driven, the air sucked in suction inlet 151a, by indoor heat exchanger 10, then passes through the shield bore 160a of guard shield panel 160 and flows by air-supply module 140.Air by air-supply module 140 flowing is spued to the discharge opening 190a of body front panel 190 by the pilot hole 170a of guide panel 170.

Air-supply module 140 is provided preferably with multiple, and in the present embodiment, air-supply module 140 is provided with two.Two air-supply modules 140 configure with above-below direction.Two air-supply modules 140 configure accordingly with two shield bore 160a of guard shield panel 160 respectively.Two air-supply modules 140 are incorporated into after guide panel 170 with above-below direction.

Air-supply module 140 includes: for producing the air supply motor 142 of revolving force；For air supply motor 142 being incorporated into the air supply motor bracket 143 after guide panel 170；Rotate and make, by air supply motor 142, the pressure fan 141 that air flows.

Pressure fan 141 preferably centrifugal fan (CentrifugalFan), it makes air flow into direction of principal axis, and is spued with radiation shape by side surface part.Pressure fan 141 is configured to, and makes the direction shield bore 160a towards guard shield panel 160 of suction air.The air spued to the side of pressure fan 141 is under the effect of guard shield panel 160, towards front and by the pilot hole 170a of guide panel 170.When being provided with multiple air-supply module 140, pressure fan 141 is provided with multiple, and multiple pressure fan 141 configure accordingly with multiple shield bore 160a respectively.

Guard shield panel 160 is for guiding the air sucking and flowing to air-supply module 140 in the suction inlet 151a of body rear board 150.Guard shield panel 160 is formed with shield bore 160a, in suction inlet 151a suck and indoor heat exchanger 10 to air-supply module 140 flow air by described shield bore 160a.Shield bore 160a has preferably been correspondingly formed multiple with multiple air-supply modules 140, and in the present embodiment, shield bore 160a and two air-supply module 140 is formed with two with above-below direction accordingly.

The contoured of the shield bore 160a of guard shield panel 160 becomes dome (dome) form, thus in inner containment air-supply module 140, and guide the air by air-supply module 140 flowing towards front.

The lower end of guard shield panel 160 is combined with the upper end of adapter 130.It is combined with body rear board 150 at the rear of guard shield panel 160.It is combined with guide panel 170 in the front of guard shield panel 160.

The air flowed by air-supply module 140 is guided by guide panel 170 to discharge opening 190a.Guide panel 170 is formed with pilot hole 170a, from air-supply module 140 to the discharge opening 190a air flowed by described pilot hole 170a.Pilot hole 170a is preferably formed with multiple, in the present embodiment, pilot hole 170a respectively with above-below direction longer formed, two pilot hole 170a are formed at left and right sides with centrage C for benchmark.Each pilot hole 170a is formed as becoming more narrow the closer to upper end and its width of lower end.The top and bottom of each pilot hole 170a are bent to form with the centrage C direction towards above-below direction.

Pilot hole 170a carries out opening and closing by door portion 180, when pilot hole 170a is formed with multiple, is provided with multiple the portions 180 of each pilot hole 170a of opening and closing respectively.

Air-supply module 140 is installed after guide panel 170.In the present embodiment, after guide panel 170, it is combined with two air-supply modules 140 with above-below direction.Former configuration in guide panel 170 has a portion 180.In the present embodiment, before guide panel 170, it is configured with two door portions 180 with left and right.

Preferably, guide panel 170 be formed as curved-surface shape at least partially so that door portion 180 can rotate along guide panel 170 and slide.In the present embodiment, two door portions 180 configure with left and right, guide panel 170 with the centrage of above-below direction for benchmark, around side each be previously formed as curved-surface shape.That is, a cross section part for guide panel 170 can centrage be the arc state that benchmark is formed as that side is respectively forwards prominent around.

Guide panel 170 has air-supply module 140 to combine with guard shield panel 160 to separate each other, thus forming a unit.In the present embodiment, guide panel 170, air-supply module 140, guard shield panel 160 can be collectively referred to as blowing unit 90.That is, blowing unit 90 includes guide panel 170, air-supply module 140, guard shield panel 160.

Door portion 180 is for opening and closing pilot hole 170a and discharge opening 190a.Door portion 180 is rotatably engaged in blowing unit 90.Door portion 180 is rotatably engaged the guide panel 170 in blowing unit 90 or guard shield panel 160, and in the present embodiment, door portion 180 is rotatably engaged in guide panel 170.The part in door portion 180 slides on before guide panel 170 with opening and closing pilot hole 170a.Further, the part in door portion 180 slides on after body front panel 190 with opening and closing discharge opening 190a.That is, the part in door portion 180 is slided between guide panel 170 and body front panel 190, and simultaneously opening and closing pilot hole 170a and discharge opening 190a.

Front of chassis plate 120 forms front, the bottom outward appearance of air conditioner.Front of chassis plate 120 is combined with adapter 130, and covers the front of open base rear board 110.Front of chassis plate 120 is formed as the plate form of curved surface.The rear of front of chassis plate 120 is combined with adapter 130, and the upper end of front of chassis plate 120 is combined with body front panel 190.

Body front panel 190 forms front, the top outward appearance of air conditioner.Being formed with discharge opening 190a at body front panel 190, flowing by air-supply module 140 and pass through the air of pilot hole 170a spues to described discharge opening 190a.The form of discharge opening 190a and pilot hole 170a is correspondingly formed.In the present embodiment, 190a and two pilot hole 170a is corresponding for discharge opening, each discharge opening 190a with above-below direction longer formed, two discharge opening 190a are formed at left and right sides with centrage C for benchmark.The top and bottom of each discharge opening 190a are bent to form towards the centerline direction of above-below direction.Each discharge opening 190a is formed as becoming more narrow the closer to upper end and its width of lower end and finally disappearing.Discharge opening 190a carries out opening and closing by door portion 180.

Body front panel 190 is formed as the plate form of curved surface.The lower end of body front panel 190 is combined with front of chassis plate 120, and side is combined with body rear board 150.

Being formed with input and output hole 222 at body front panel 190, the opening-like state in described input and output hole 222 is so that a part for input/output module 200 is exposed to outside.Input and output hole 222 is preferably formed to rounded form.

The operating condition of the input/output module 200 instruction or display air conditioner for inputting user.Input/output module 200 is incorporated into after body front panel 190, and one part is exposed to outside by input and output hole 222.

Fig. 3 is the axonometric chart of the adapter of the air conditioner of one embodiment of the invention, and Fig. 4 is the axonometric chart of the base rear board of the air conditioner of one embodiment of the invention.

The adapter 130 of one embodiment of the invention includes: connector base 139, is formed at bottom and is incorporated into the bottom surface of base rear board 110；Clamp accommodation portion 131, the part towards the face of the medial surface of described base rear board 110 of adapter is recessed in the opposite direction and is formed；Clamp joint portion 132, in front and the clamp accommodation portion 131 rearward prominent formation dividually in clamp accommodation portion 131；Front of chassis grab joint portion 133, opening-like state is with joint base front panel 120；Connector bolt insertion section 135, opening-like state is to insert the adapter joint bolt 136 for joint connector 130 and base rear board 110 wherein.

As mentioned above, adapter 130 is made up of left side adapter 130-1 and right side adapter 130-2 the two part, is respectively formed with above-described connector base 139, clamp accommodation portion 131, clamp joint portion 132, front of chassis grab joint portion 133 and connector bolt insertion section 135 relatively symmetrically in left side adapter 130-1 and right side adapter 130-2.

Further, the base rear board 110 of one embodiment of the invention includes: adapter accommodation portion 112, and an inner bottom surface part for base rear board is recessed to downside and is formed, so that the bottom of adapter 130 is inserted described adapter accommodation portion 112 and combines；Adapter clamp 113, is formed as cantilever beam form, highlights from inner side and forwards highlights longlyer；Adapter insertion section 114, is formed as making a part for described adapter to insert inner side；Connector bolt joint portion 115, wherein joint connector joint bolt 136；Drainage Division 119, is formed at upside the condensed water for producing in collecting chamber internal heat exchanger 10.

Connector base 139 is formed as one part, and the closer to downside, its sectional area becomes more wide form.Bottom surface and the peripheral part of connector base 139 are inserted adapter accommodation portion 112 and combine.

Clamp accommodation portion 131 is formed multiple in the face of the medial surface towards base rear board 110 with above-below direction, and is used for holding adapter clamp 113.Adapter clamp 113 is formed multiple in the two sides, inside of base rear board 110 with clamp accommodation portion 131 accordingly with above-below direction.The front end of adapter clamp 113 separately and forwards highlights from the inner side of base rear board 110, and the front end of prominent adapter clamp 113 is clamped in clamp joint portion 132 and combines.

Adapter insertion section 114 is formed asForm, the side to be coated with adapter 130 is a part of and a part of below.Adapter insertion section 114 can be formed multiple in the two sides, inside of base rear board 110.At least one adapter insertion section 114 in multiple adapter insertion sections 114 is formed with the connector bolt joint portion 115 for joint connector joint bolt 136.

Front of chassis grab joint portion 133 is formed multiple before adapter 130 with above-below direction.

Fig. 5 is the installation diagram of the guard shield panel of the air conditioner of one embodiment of the invention, and Fig. 6 is the installation diagram of the body front panel of the air conditioner of one embodiment of the invention, and Fig. 7 is the installation diagram of the front of chassis plate of the air conditioner of one embodiment of the invention.

The guard shield panel 160 of one embodiment of the invention is formed with guard shield grab 165 prominent downwards at side, is formed with the shroud flange 166 that downward side is prominent in lower end.Guard shield grab 165 is formed multiple in the two side ends of guard shield panel 160 with above-below direction.Guard shield grab 165 is blocked combination by guard shield grab joint portion 155 described later.Shroud flange 166 is formed with two in the lower end two side ends of guard shield panel 160.Two shroud flange 166 respectively with left side adapter 130-1 and the respective upper end of adapter 130-2, right side before a part overlap to form.Shroud flange 166 and adapter 130 upper end utilize extra guard shield joint bolt (not shown) to combine.The guard shield joint bolt insertion section 137 wherein in conjunction with guard shield joint bolt it is formed with in adapter 130 upper end.

The body rear board 150 of one embodiment of the invention is formed with the guard shield grab joint portion 155 wherein blocking guard shield grab 165 in inner side, and face is formed and wherein blocks before body described later grab joint portion 157 before the body of grab 193 in inner and the outer sides.Guard shield grab joint portion 155 is formed as pore morphology or annular state.Before body, grab joint portion 157 is formed as pore morphology or annular state.

The bottom of body rear board 150 is combined into cladding Drainage Division 119, thus in conjunction with body rear board 150 and base rear board 110.

Guard shield grab joint portion 155 is formed multiple in the two sides, inside of body rear board 150 with multiple guard shield grabs 165 accordingly with above-below direction.Before body, grab joint portion 157 is formed multiple in the both sides external face of body rear board 150 with above-below direction.

The front of chassis plate 120 of one embodiment of the invention is formed with, at inner face, the front of chassis grab 123 that rearward prominent and connected device 130 front of chassis grab joint portion 133 is blocked, and is formed with body front flange joint portion 125 that is rearward prominent from upper end inner face and that be combined with body front flange 195 described later.Front of chassis grab 123 is formed multiple at the inner face left and right sides of front of chassis plate 120 with multiple front of chassis grab joint portions 133 accordingly with above-below direction.As it is shown in fig. 7, front of chassis grab 123 is blocked combination by front of chassis grab joint portion 133, so that front of chassis plate 120 is incorporated into adapter 130.

The body front panel 190 of one embodiment of the invention is formed with the body front flange 195 that downward side is prominent in lower end.As shown in Figure 6, it is rearward recessed that body front flange 195 is formed one part, thus clamp body front flange joint portion 125 wherein.

Fig. 8 is the axonometric chart in the door portion of the air conditioner of one embodiment of the invention, Fig. 9 is the exploded perspective view of a part of structure of the air conditioner of one embodiment of the invention, Figure 10 is the front view of the guide panel of the air conditioner of one embodiment of the invention, and Figure 11 is the front view of the body front panel of the air conditioner of one embodiment of the invention.

The door portion 180 of one embodiment of the invention is provided with multiple, and it includes offside door portion 180-1 and offside door portion 180-2.Offside door portion 180-1 is used for discharge opening 190a-2 and right side pilot hole 170a-2 on the right side of opening and closing for discharge opening 190a-1 and left side pilot hole 170a-1, offside door portion 180-2 on the left of opening and closing.

The door portion 180 of one embodiment of the invention includes: door face board 181, moves between guide panel 170 and body front panel 190, for opening and closing discharge opening 190a and pilot hole 170a；Door muscle 185, forwards highlights from door face board 181；Door drives arm 182, is formed as cantilever beam form, and rearward extends from door face board 181；Door turn arm 183, is formed as cantilever beam form, and rearward extends from door face board 181；Door pilot pin 184, prominent from the downward side of door face board 181.

Door face board 181 is with the panel that formed of the longer ground of above-below direction.The shape of door face board 181 and pilot hole 170a is correspondingly formed, thus fully covering pilot hole 170a.Door face board 181 is formed as becoming more narrow the closer to upper end and its width of lower end.The top and bottom of door face board 181 are bent to form towards the centrage C direction of guide panel 170.

Door face board 181 carries out sliding and opening and closing discharge opening 190a and pilot hole 170a between guide panel 170 and body front panel 190.Preferably, door face board 181 is configured between guide panel 170 and body front panel 190 with the state directly not touching guide panel 170 and body front panel 190.Preferably, a cross section part for door face board 181 is formed as arc state.Door portion 180 drives the rear end of arm 182 and door turn arm 183 to pivot about with door, and therefore, door face board 181, when opening and closing discharge opening 190a and pilot hole 170a, substantially rotates with arc state.

Door muscle 185 is prominent to the front of door face board 181 to be formed, so that door face board 181 does not directly touch body front panel 190.Door muscle 185 is formed multiple before door face board 181 with above-below direction.Body front panel 190 is formed with the door muscle guide 197 of arc shape later, so that door muscle 185 touches described door muscle guide 197.Door muscle guide 197 can be formed multiple accordingly with multiple muscle 185 with above-below direction.When door portion 180 rotates, door muscle 185 touches a muscle guide 197.

Door drives arm 182 rearward extend from door face board 181 and be formed as cantilever beam form.Door driving arm 182 is formed as becoming more narrow fan-shaped pattern the closer to rear end.Door drives the rear end of arm 182 to be directly connected in door drive division 189 described later, thus rotating by door drive division 189.Door drives the door that arm 182 rotatably disposes or is rotatably engaged in guide panel 170 described later to drive arm support portion 172.

Door drives arm 182 can be provided with multiple in the top and bottom of door face board 181.

Door turn arm 183 rearward extends from door face board 181 and is formed as cantilever beam form.The rear end of door turn arm 183 is rotatably engaged the door turn arm support portion 173 in guide panel 170 described later.When door drives arm 182 to be provided with multiple, door turn arm 183 is arranged in multiple and drives between arm 182.

Rearward separately and downwards side is prominent from door face board 181 for door pilot pin 184.Door pilot pin 184 is inserted in the door guide rail 174 of guide panel 170 described later, and slides along door guide rail 174 with arc shape.

Door pilot pin 184 can be formed multiple at door face board 181 with above-below direction.Door pilot pin 184 is arranged preferably in and to drive between arm 182 and door turn arm 183.

The body front panel 190 of one embodiment of the invention is formed with grab 193 before the body that downward side is prominent later, is formed with aforesaid door muscle guide 197 later.

Before body, grab 193 is inserted in grab joint portion 157 before body from the upper side to the lower side, thus in conjunction with body front panel 190 and body rear board 150.Before body, before grab 193 and multiple bodies, both sides after body front panel 190 accordingly, grab joint portion 157 are formed multiple with above-below direction.

The guide panel 170 of one embodiment of the invention includes: door drives arm support portion 172, rearward prominent to be inserted rotatably into a driving arm 182；Door turn arm support portion 173, is inserted rotatably into a turn arm 183, and is rotatably engaged a rear end for turn arm 183；Blower cover 179, the configuration with pressure fan 141 covers pressure fan 141 accordingly；Door guide rail 174, is formed as arc shape, and door pilot pin 184 is inserted in described door guide rail 174 and goes forward side by side line slip.

Door drives arm support portion 172 to extend to the rear of guide panel 170, can make a space driving arm 182 to insert being internally formed.Arm support portion 172 is driven to be inserted rotatably into a driving arm 182 at door.Door drives arm support portion 172 to be formed as fan shape, rotates inside arm support portion 172 so that door drives arm 182 to drive at described door.Drive arm support portion 172 that door can be disposed to drive arm 182 at door.Drive arm support portion 172 that door drive division 189 described later is installed at door.Door drives arm support portion 172 rear end of arm 182 can be driven to be rotatably engaged with door.

Door drives arm support portion 172 to be configured at upside or the downside of blower cover 179 with the state evading blower cover 179.When door drives arm 182 to be provided with multiple, door drives arm support portion 172 to drive arm 182 to be provided with multiple accordingly with multiple.Multiple drive the top and bottom that arm support portion 172 is configured at guide panel 170.When blower cover 179 is provided with multiple, multiple drive upside and the downside that arm support portion 172 is configured at multiple blower cover 179.

Door turn arm support portion 173 extends to the rear of guide panel 170, and is being internally formed the space that a turn arm 183 can be made to insert.It is inserted rotatably into a turn arm 183 in door turn arm support portion 173.Door turn arm support portion 173 is formed as fan shape, so that door turn arm 183 rotates inside described door turn arm support portion 173.A turn arm 183 can be disposed in door turn arm support portion 173.The rear end of door turn arm support portion 173 and door turn arm 183 is rotatably engaged.

Door turn arm support portion 173 is configured at the middle-end of guide panel 170.When door drives arm support portion 172 to be provided with multiple, door turn arm support portion 173 is configured at multiple and drives between arm support portion 172.When blower cover 179 is provided with multiple, door turn arm support portion 173 is configured between multiple blower cover 179.

Blower cover 179 is used for covering pressure fan 141, so that the air from pressure fan 141 discharge spues towards pilot hole 170a.Blower cover 179 is configured between the pilot hole 170a-1 and right side pilot hole 170a-2 of left side.That is, pilot hole 170a is formed at left side and the right side of blower cover 179, and is formed as not overlapping with the pressure fan 141 of air-supply module 140.

When pressure fan 141 is provided with multiple with above-below direction, blower cover 179 and multiple pressure fan 141 are provided with multiple accordingly and configure with above-below direction.

Door guide rail 174 is formed as the arc shape that forwards highlights, so that door pilot pin 184 is inserted in described door guide rail 174 and goes forward side by side line slip.Door guide rail 174 makes door face board 181 directly not touch guide panel 170, so that door face board 181 can stably rotate.Door guide rail 174 is configured at before blower cover 179.When being provided with multiple pilot pins 184, door guide rail 174 is provided with multiple.When being provided with multiple blower cover 179, door guide rail 174 be configured at least one in multiple blower cover 179 before.

With reference to Figure 10, pilot hole 170a with the centrage C of the above-below direction of guide panel 170 for benchmark, the left and right sides in described guide panel 170 has been asymmetrically formed two.Two pilot hole 170a respectively with above-below direction longer formed, its top and bottom are bent to form towards centrage C.Two pilot hole 170a are respectively formed as and become more narrow the closer to upper end and its width of lower end.Two pilot hole 170a include left side pilot hole 170a-1 and right side pilot hole 170a-2.Left side pilot hole 170a-1 and right side pilot hole 170a-2 is formed with centrage C for reference symmetry.

Guide panel 170 includes the guide grid 171 being formed at pilot hole 170a.Guide grid 171 is formed as the form that the centre in its cross section is thicker and thinning to front-rear direction, thus guiding the air passed through in guide grid 171.

Guide grid 171 is formed as its extended line with the center of module 140 of blowing for the oval form that benchmark is concentric.It is provided with two situations in for benchmark with above-below direction with centrage C in air-supply module 140, the center of the top above Lateral supply module 140 of guide grid 171 is that benchmark forms concentric oval form, and the center of bottom following Lateral supply module 140 is that benchmark forms concentric oval form.

Guide grid 171 is formed as radiation form with the specified point on centrage C for benchmark.When module 140 of blowing is provided with two for benchmark with above-below direction with centrage C, the second point f2 in the middle of first f1 on the upside of guide grid above Lateral supply module 140 respectively, upper Lateral supply module 140 and lower Lateral supply module 140, the thirdly f3 on the downside of lower Lateral supply module 140 are that benchmark is formed as radiation form.

Guide grid 171 is to be integrally formed as concentric oval form or radiation form, so that rotating to the side of pressure fan 141 and the air that spues can move smoothly through pilot hole 170a.

With reference to Figure 11, with two pilot hole 170a accordingly, two discharge opening 190a are formed with centrage C for reference symmetry.Two discharge opening 190a respectively with above-below direction longer formed, its top and bottom are bent to form towards centrage C.Two discharge opening 190a are respectively formed as and become more narrow the closer to upper end and its width of lower end and finally disappear for point.Two discharge opening 190a include left side discharge opening 190a-1 and right side discharge opening 190a-2.Left side discharge opening 190a-1 and right side discharge opening 190a-2 is formed with centrage C for reference symmetry.

Figure 12 and Figure 13 is the figure of the opening and closing situation in the door portion illustrating one embodiment of the invention.

Figure 12 A and Figure 13 A is figure, Figure 12 B and Figure 13 B during the open pilot hole 170a and discharge opening 190a in a portion 180 is the portion 180 figure when closing pilot hole 170a and discharge opening 190a.

Discharge opening 190a is provided with multiple with the centrage C of body front panel 190 for benchmark symmetrically.In the present embodiment, it is provided with two discharge opening 190a and is provided with left side discharge opening 190a-1 and right side discharge opening 190a-2.Pilot hole 170a is provided with multiple with the centrage C of guide panel 170 for benchmark symmetrically.In the present embodiment, it is provided with two pilot hole 170a and is provided with left side pilot hole 170a-1 and right side pilot hole 170a-2.The centrage C of above-described body the front panel 190 and centrage C of guide panel 170 is consistent.

Door portion 180 and two discharge opening 190a and two pilot hole 170a are provided with two accordingly.Two door portions 180 include offside door portion 180-1 and offside door portion 180-2.

As open two discharge opening 190a and two pilot hole 170a, the centrage C that two door portions 180 are configured to body front panel 190 converges mutually.

That is, as shown in Figure 12 A and Figure 13 A, as open discharge opening 190a and pilot hole 170a, offside door portion 180-1 and offside door portion 180-2 converges towards centrage C direction.

As shown in Figure 12 B and Figure 13 B, when closing discharge opening 190a and pilot hole 170a, offside door portion 180-1 and offside door portion 180-2 towards with centrage C away from direction move, thus closing discharge opening 190a and pilot hole 170a.

With reference to Figure 13, the cross section of guide panel 170 is formed as arc state for benchmark at left and right sides with centrage C, and the cross section of body front panel 190 is formed as arc state on the whole.The door face board 181 in door portion 180 rotates and mobile between guide panel 170 and body front panel 190.

Figure 14 is the profile of the door driving arm periphery of the air conditioner of one embodiment of the invention.

Figure 14 A and Figure 14 B is the section that a door during portion 180 opening drives arm 182 periphery.

Door drives arm 182 be inserted in a driving arm support portion 172 and rotate.The backend arrangement driving arm support portion 172 at door has a drive division 189.Door drive division 189 is realized by motor.

Driving the rear end of arm 182 to be formed with a driving arm aperture 182a at door, the motor shaft of door drive division 189 is directly connected in described door and drives arm aperture 182a.Door drives the rear end of arm 182 arm support portion 172 can be driven to be rotatably engaged with door.

Figure 15 is the profile of the door turn arm periphery of the air conditioner of one embodiment of the invention.

Figure 15 A and Figure 15 B is the section of door turn arm 183 periphery during portion 180 opening.

Door turn arm 183 is inserted in a turn arm support portion 173 and rotates.It is formed with the rear end with door turn arm support portion 173 in the rear end of door turn arm 183 and rotates the door turn arm pin 183a combined.

Figure 16 and Figure 17 is the open cube display of the input/output module of the air conditioner of one embodiment of the invention.

The input/output module 200 of one embodiment of the invention includes: input and output body 220, delivery outlet 222 that the output light be formed with the remote control hole 221 making the remote controller signal sent from remote controller pass through, being used in display operating condition passes through, the input terminal being combined with input for directly receiving user input hole 223；Input/output board 210, is attached to before input and output body 220, and one part is made up of metal material, so that remote control hole 221, delivery outlet 222 and input hole 223 do not expose to outside；Input and output lid 230, for covering after input and output body 220；Input and output substrate 240, is configured at the inside of input and output body 220, receives the remote controller signal passed through in remote control hole 221, irradiates the output light passed through in delivery outlet 222, is provided with the input terminal of input for directly receiving user.

Input and output substrate 240 receives the remote controller signal passed through in input/output board 210 and remote control hole 221.Input and output substrate 240 shows seven strokes of pipes (Segment) irradiation output light of (FlexibleNumericDisplay, FND) to being embodied as dexterous digitized.The output light irradiated from input and output substrate 240 to seven strokes of pipes (Segment) is by delivery outlet 222 and carries out luminescence input/output board 210.Input and output substrate 240 irradiates output light and shows the indoor indoor temperature residing for the design temperature of air conditioner or air conditioner.Input and output substrate 240 is provided with the input terminal of the input receiving user with condenser type or voltage-type.Input terminal is preferably located in input hole 223 and contacts with input/output board 210.

In input and output body 220, remote control hole 221, delivery outlet 222, the opening-like state of input hole 223.Delivery outlet 222 and input hole 223 are respectively formed with multiple.It is seven strokes of tubular states that delivery outlet 222 is correspondingly formed with the output light irradiated to seven strokes of pipes.Input hole 223 inserts input terminal.

Input and output lid 230 covers after input and output body 220 to protect input and output substrate 240.That is, input and output substrate 240 is configured between input and output body 220 and input and output lid 230.

Input/output board 210 is formed as making remote control hole 221, delivery outlet 222, input hole 223 not expose to outside.Input/output board 210 is formed as making remote controller signal and output light by described input/output board 210.

The position corresponding with the input hole 223 of input and output body 220 before input/output board 210 is printed with input key 210c.Input key 210c can be formed multiple according to pressing key class.Input key 210c comprises the steps that the power key of power supply for opening/close air conditioner, for regulating the temperature adjusting key of temperature, for regulating the air quantity adjusting key of air quantity.

The remote control hole 221 with input and output body 220 after input/output board 210 and position corresponding to delivery outlet 222 are printed with remote control portion 210a and output portion 210b.Input/output board 210 printed portions except remote control portion 210a and output portion 210b below is black, and remote control portion 210a and output portion 210b printing is white.

Figure 18 is the structure chart of the input/output board of the air conditioner of one embodiment of the invention.

The input/output board 210 of one embodiment of the invention includes: the transparent thin film layer 212 of transparent synthetic resin material；Input key printing layer 211, lamination, in the front side of transparent thin film layer 212, is printed with input key 210c in the position corresponding with the input hole 223 of input and output body 220；The metal forming layer 213 of opaque metal material, is configured at the rear side of transparent thin film layer 212, and makes remote controller signal and output light by described metal forming layer 213；Display part printing layer 215, it is configured at the rear side of metal forming layer 213, print for white as the output portion 210b of the part corresponding with delivery outlet 222, except being black as the printed portions except the output portion 210b of the part corresponding with delivery outlet 222 and remote control hole 221 and remote control portion 210a；Two-sided belt 217, is configured at the rear side of display part printing layer 215, includes caking property material to bond with input and output body 220.

As it has been described above, input/output board 210 is from front, in turn lamination input key printing layer 211, transparent thin film layer, metal forming layer, display part print layer 215 and two-sided belt 217.

The manufacture process of input/output board 210 illustrates as follows.

Prepare the transparent thin film layer 212 of transparent synthetic resin material.Transparent thin film layer 212 is preferably made up of polyethylene terephthalate (Polyethylenephthalate, PET).

At transparent thin film layer 212 followed by UV molding.UV molding refers to relatively unfertile land evaporation coating material, and utilizes UV to print off pattern with semi-harden/mold.After transparent thin film layer 212 lamination pattern, evaporation metal material is to form metal forming layer 213.The metal material being deposited with is preferably indium.

After metal forming layer 213, output portion 210b and remote control portion 210a is printed for white, be black by the printed portions except output portion 210b and remote control portion 210a, thus forming display part printing layer 215.After display part printing layer 215 described in display part printing layer 215 preferably lamination.

Then, printing input key 210c before transparent thin film layer 212, thus forming input key printing layer 211.Finally, print, at display part, the two-sided belt 217 that bonds after layer 215.

Above the preferred embodiments of the present invention it is shown and illustrates; but the present invention is not limited to above-described specific embodiment; when the objective of the present invention claimed in without departing substantially from claims; it can be implemented various deformation by the those of ordinary skill in technical field belonging to the present invention, and such deformation implementation should not depart from the technological thought of the present invention or prospect and be understood individually.

The air conditioner of the present invention have the effect that one or more.

The first, by revolving door portion with while opening and closing discharge opening and pilot hole, thus simplifying the structure of product.

The second, a portion is enable to rotate swimmingly.

3rd, make a portion and front and back panel without rotating interferingly.

4th, pilot hole has been asymmetrically formed two for benchmark at left and right sides with the centrage of above-below direction such that it is able to spue swimmingly air from pressure fan.

5th, the top and bottom making pilot hole are formed towards camber, so that the loss of the air spued in pressure fan minimizes.

6th, the guide grid on pilot hole is made to be formed as oval form or radiation form, so that the air spued in the side of pressure fan can move smoothly through pilot hole.

The effect of the present invention is not limited to the effect arrived mentioned above, and those skilled in the art can be clearly understood that other effects silent from the record of claims.

Claims (15)

1. an air conditioner, it is characterised in that including:

Body rear board, is used for forming rear outward appearance, is formed with the suction inlet sucking air；

Body front panel, is combined with described body rear board and forms front outward appearance, be formed with the discharge opening of discharge air；

Air-supply module, for spuing the air sucked in described suction inlet to described discharge opening；

Guide panel, is located between described air-supply module and described body front panel, is formed with the pilot hole for being guided by the air flowed by described air-supply module to described discharge opening；And

Door portion, is rotatably mounted in described guide panel, discharge opening and described pilot hole described in opening and closing.

2. air conditioner according to claim 1, it is characterised in that described door portion includes:

Door face board, moves between described guide panel and described body front panel, discharge opening and described pilot hole described in opening and closing.

3. air conditioner according to claim 2, it is characterised in that

Described discharge opening is provided with multiple with the centrage of described body front panel for benchmark symmetrically,

Described door portion and the plurality of discharge opening are provided with multiple accordingly,

The plurality of door face board is configured to, and mutually converges to the centrage of described body front panel when open the plurality of discharge opening.

4. air conditioner according to claim 2, it is characterised in that described door portion also includes:

Door muscle, prominent to the front of described door face board；

Described body front panel is formed with the door muscle guide of arc shape later, and described door muscle touches described door muscle guide.

5. air conditioner according to claim 1, it is characterised in that described door portion includes:

The door of the cantilever beam form rearward extended drives arm, and

For rotating the door drive division that described door drives the rear end of arm；

Described door face board includes a driving arm support portion, and described door drives arm to be inserted rotatably into and drives arm support portion in described door.

6. air conditioner according to claim 5, it is characterised in that

Described door drives arm support portion to be fan shape.

7. air conditioner according to claim 5, it is characterised in that

Described air-supply module includes multiple pressure fan, the plurality of pressure fan to carry out up and down configuring and make air to flow,

Described guide panel also includes the configuration of multiple blower cover, described blower cover and described pressure fan and covers described pressure fan accordingly,

Described door drives arm support portion to be configured on the upside of the plurality of blower cover or downside.

8. air conditioner according to claim 5, it is characterised in that

Described door drives arm to be provided with multiple,

Described door portion also includes a turn arm, and described door turn arm is cantilever beam form, and rearward extends between the plurality of door driving arm,

Described door face board includes a turn arm support portion, and described door turn arm is inserted rotatably in described door turn arm support portion, and the rear end of described door turn arm is rotatably engaged in described door turn arm support portion.

9. air conditioner according to claim 8, it is characterised in that

Described air-supply module includes multiple pressure fan, the plurality of pressure fan to carry out up and down configuring and make air to flow,

Described guide panel also includes the configuration of multiple blower cover, described blower cover and described pressure fan and covers described pressure fan accordingly,

Described door turn arm support portion is configured between the plurality of blower cover.

10. air conditioner according to claim 9, it is characterised in that

Described door drives arm support portion and described door to drive arm to be provided with multiple accordingly in the upper side and lower side,

The plurality of door drives arm support portion to be respectively arranged at upside and the downside of the plurality of blower cover.

11. air conditioner according to claim 1, it is characterised in that

Described door portion includes the door pilot pin that downward side is prominent,

Described guide panel includes the door guide rail of arc shape, and described door pilot pin is inserted in described door guide rail and goes forward side by side line slip.

12. air conditioner according to claim 11, it is characterised in that

Described air-supply module includes multiple pressure fan, the plurality of pressure fan to carry out up and down configuring and make air to flow,

Described guide panel also includes the configuration of multiple blower cover, described blower cover and described pressure fan and covers described pressure fan accordingly,

Described door guide rail is configured in the plurality of blower cover before at least one.

13. air conditioner according to claim 1, it is characterised in that

Described pilot hole has been asymmetrically formed two for benchmark at left and right sides with the centrage of above-below direction,

Said two pilot hole respectively with above-below direction longer formed, its top and bottom are formed towards described camber.

14. air conditioner according to claim 13, it is characterised in that

Described guide panel includes the guide grid being formed at described pilot hole,

Described guide grid is formed as the form that the centre in its cross section is thicker and thinning to front-rear direction.

15. air conditioner according to claim 14, it is characterised in that the extended line of described guide grid is formed as concentric oval form with the center of described air-supply module for benchmark.