CN101163924B

CN101163924B - Air conditioner and method of installing the same

Info

Publication number: CN101163924B
Application number: CN2006800132748A
Authority: CN
Inventors: 木泽敏浩
Original assignee: Daikin Industries Ltd
Current assignee: Daikin Industries Ltd
Priority date: 2005-04-21
Filing date: 2006-04-12
Publication date: 2010-05-19
Anticipated expiration: 2026-04-12
Also published as: AU2006240919B2; AU2006240919B8; JP2006300427A; CN101163924A; WO2006115050A1; AU2006240919A1; JP3815500B1; EP1878978A1

Abstract

An easily installable air conditioner and a method of installing the air conditioner. The air conditioner (100) comprises a blowing chamber (3), a clearance closing panel (5), a radiation panel (1), and a support frame (6). The blowing chamber (3) comprises a blowout port (31) from which temperature-controlled air blows out, and is disposed so that the blowout port (31) can face an indoor (RS) side through an opening (32) for blowing chamber formed in a ceiling surface (CL). The clearance closing panel (5) is a plate-like member fixed to the ceiling surface (CL) and closing a clearance betweenthe blowout port (31) and the opening (32) for blowing chamber formed in the ceiling surface (CL). The radiation panel (1) is disposed to cover the blowout port (31) from the indoor (RS) side, and forms a space (IS) into which air blown from the blowout port (31) is supplied. Also, the radiation panel (1) is formed of a fiber-based material having a prescribed emissivity and allowing air to permeate therethrough. Then, the support frame (6) is supportedly installed on the clearance closing panel (5) to support the radiation panel (1).

Description

The method to set up of air conditioner and air conditioner

Technical field

The present invention relates to the method to set up of air conditioner and air conditioner.

Background technology

Disclose such air conditioner at present: to by have predetermined radiance spin radiant panel that cloth etc. forms to send adjustment after air, be used to the radiation of autoradiolysis panel and carry out indoor adjustment (with reference to patent documentation 1) from the producing by boasting of air that radiant panel blows out.

Patent documentation 1: TOHKEMY 2004-271057

When on the ceiling face, above-mentioned radiant panel being set, need be near the ceiling face bearing support of mounting support radiant panel.But this bearing support is not where can both install sometimes, and its installation site is subjected to the structural limitations of ceiling face.In this case, bearing support is installed near the difficulty that just becomes the ceiling face, difficulty thereby the setting of radiant panel becomes.

Summary of the invention

Problem of the present invention provides a kind of method to set up of air conditioner and air conditioner of easy setting.

The air conditioner of the present invention's first mode possesses thermostat unit, blows out portion, gap closure panel, radiant panel and bearing support.The portion of blowing out has the blow-off outlet that blows out the air after the thermostat unit adjustment, and this blows out portion and disposes by the mode of opening surface to the indoor of being located at the ceiling face with blow-off outlet.The gap closure panel is to be fixed on the ceiling face, sealing blow-off outlet and be located at the tabular parts in the gap between the opening of ceiling face.Radiant panel disposes in the mode that covers blow-off outlet from the indoor, and this radiant panel constitutes the space that is taken into the air that blows out from blow-off outlet.In addition, radiant panel is by having predetermined radiance and can forming through the fiber-like material of air.And bearing support is provided with in the mode that is bearing on the closure panel of gap, and the supporting radiant panel.

In this air conditioner, branching bolster supporting is on the closure panel of gap.Because the gap closure panel has plate-like shape, so be fixed to the free degree height on the ceiling face.For example, when the gap closure panel was fixed on the ceiling face by screw, the range of choice of part of passing screw was big, and the part that screw is passed be adapted at fixing on the ceiling face is very easy to.Therefore, it is also easy to be bearing in the setting of the bearing support on the closure panel of gap.Thus, in this air conditioner, can easily be provided with.

The air conditioner of the present invention's second mode is on the basis of the air conditioner of first mode, and at least a portion in the end of gap closure panel is provided with the fixed part that is used for fixing bearing support.And be fixed on the closure panel of gap by fixed part with the bearing support of gap closure panel split.

In this air conditioner, the bearing support of split is fixed on the closure panel of gap by fixed part, and branching bolster supporting is on the closure panel of gap thus.

The air conditioner of Third Way of the present invention is provided with the fit structure that cooperates with bearing support on fixed part on the basis of the air conditioner of second mode.

In this air conditioner, fixed part cooperates with bearing support.Thus can be simple and be fixed firmly on the closure panel of gap with bearing support.

The air conditioner of the cubic formula of the present invention is on first the basis of any air conditioner to the Third Way, and at least a portion of bearing support and gap closure panel form.

In this air conditioner, form by at least a portion and the gap closure panel that makes bearing support, bearing support is supported on the closure panel of gap.

On the basis of any air conditioner of air conditioner in first to fourth mode of the present invention's the 5th mode, the gap closure panel is formed from a resin.

In this air conditioner, be formed from a resin by making the gap closure panel, can make gap closure panel weight saving.

On the basis of any air conditioner of the air conditioner of the present invention's the 6th mode in first to the 5th mode, bearing support is formed from a resin.

In this air conditioner, be formed from a resin by making bearing support, can make bearing support weight saving.

On the basis of any air conditioner of the air conditioner of the present invention's the 7th mode in first to the 6th mode, the gap closure panel has first panel component.First panel component be located at opening around, and have and first end that at least a portion of the bearing support of additional panel component and split can both be coincide.

In this air conditioner, the first end of first panel component can both coincide with the panel component that adds and at least a portion of bearing support.Therefore, when the big gap closure panel of needs, by tackling at the additional panel component of the first end of first panel component.In addition, when the panel component that do not need to add, can seal first end by bearing support.Thus, in this air conditioner, can easily tackle the big minor change of gap closure panel.

The air conditioner of the present invention all directions formula is on the basis of the air conditioner of the 7th mode, and the gap closure panel also has second panel component.This second panel component and the combination of first panel component, and have the end that coincide with first end.

In this air conditioner, additional second panel component on first panel component.Therefore, can be provided with first panel component and second panel component bigger gap closure panel altogether.

The air conditioner of the present invention's the 9th mode is on the basis of the air conditioner of the 7th mode, and bearing support has first parts.These first parts and the combination of first panel component, and have the shape of coincideing with first end.

In this air conditioner, first parts of the first end of first panel component and bearing support combine.Therefore, the first end of first panel component is sealed by first parts.Thus, smaller gap closure panel can be set.

On the basis of any air conditioner of the air conditioner of the present invention's the tenth mode in first to the 9th mode, on the closure panel of gap, be provided with a plurality of screwed holes.

In this air conditioner, on the closure panel of gap, be provided with a plurality of screwed holes.Therefore, carry out screw threads for fastening in order to be fixed on the ceiling face, can to utilize the screwed hole that is positioned at the appropriate location.Thus, the gap closure panel can be easily fixed on the ceiling face.

On the basis of any air conditioner of the air conditioner of the present invention's the 11 mode in first to the tenth mode, on the closure panel of gap, heat insulating member is installed.

In this air conditioner, produce dewfall by heat insulating member being installed, can being improved the thermal efficiency and be suppressed on the ceiling face.In addition, because heat insulating member is installed on the closure panel of gap, therefore heat insulating member is installed easily.

On the basis of any air conditioner of air conditioner in the first to the 11 mode of the present invention's the 12 mode, air conditioner also has thermostat unit, and this thermostat unit carries out adjustment to air, and it is delivered to the portion of blowing out.

In this air conditioner, carried out the air after the adjustment by thermostat unit and be transported in the space that radiant panel constitutes by the blow-off outlet that blows out portion.

The air conditioner of the present invention's the 13 mode is on the basis of the air conditioner of the 12 mode, and thermostat unit is configured in the ceiling, and is positioned at the top of opening.

In this air conditioner, thermostat unit is configured in the ceiling.Thus, can prevent from that thermostat unit from being waited by indoor occupant to see, thereby can improve aesthetic measure.

On the basis of any air conditioner of air conditioner in the first to the 13 mode of the present invention's the tenth cubic formula, air conditioner also has outrigger, and this outrigger is around the outer side covers bearing support.

In this air conditioner,, can hide the supporting part of radiant panel and bearing support by cover the outside of bearing support by outrigger.Thus, can improve aesthetic measure.

The method to set up of the air conditioner of the present invention's the 15 mode, be the method to set up of carrying out indoor thermoregulator air conditioner by the radiant panel of being located at the ceiling face, it may further comprise the steps: the portion of blowing out is provided with step, gap closure panel fixing step, bearing support fixing step and radiant panel step is set.Be provided with in the step in the portion of blowing out, will have the portion that blows out of the blow-off outlet that blows out the air after the thermostat unit adjustment, be configured by the mode of opening surface of being located at the ceiling face to the indoor with blow-off outlet.In the closure panel fixing step of gap, with the sealing blow-off outlet and be located at the tabular gap closure panel in the gap between the opening of ceiling face, be fixed on the ceiling face.In the bearing support fixing step, with the supporting radiant panel, with at least a portion of the bearing support of gap closure panel split, be fixed on the closure panel of gap.Be provided with in the step at radiant panel, radiant panel is fixed on the bearing support in the mode that covers blow-off outlet from the indoor, this radiant panel constitutes the space that is taken into the air that blows out from blow-off outlet, and is formed by the fiber-like material that has predetermined radiance and can see through air.

In the method to set up of this air conditioner, the gap closure panel is fixed on the ceiling face, and bearing support is fixed on the closure panel of gap.Because the gap closure panel has tabular shape, so be fixed to the free degree height of ceiling face.For example, when the gap closure panel was fixed on the ceiling face by screw, the range of choice of part of passing screw was big, and the part that screw is passed be adapted at fixing on the ceiling face is very easy to.Therefore, it is also easy to be fixed on the setting of the bearing support on the closure panel of gap.Thus, the method to set up by this air conditioner can easily be provided with.

The method to set up of the air conditioner of the present invention's the 16 mode, be the method to set up of carrying out indoor thermoregulator air conditioner by the radiant panel of being located at the ceiling face, it may further comprise the steps: the portion of blowing out is provided with step, gap closure panel fixing step and radiant panel step is set.Be provided with in the step in the portion of blowing out, will have the portion that blows out of the blow-off outlet that blows out the air after the thermostat unit adjustment, be configured by the mode of opening surface of being located at the ceiling face to the indoor with blow-off outlet.In the closure panel fixing step of gap, tabular gap closure panel is fixed on the ceiling face, the gap closure panel is provided with integratedly with at least a portion of bearing support of supporting radiant panel, and sealing blow-off outlet and be located at gap between the opening of ceiling face.Be provided with in the step at radiant panel, radiant panel is fixed on the bearing support in the mode that covers blow-off outlet from the indoor, radiant panel constitutes the space be taken into the air that blows out from blow-off outlet, and is formed by the fiber-like material that has predetermined radiance and can see through air.

In the method to set up of this air conditioner, bearing support and gap closure panel are one, and the gap closure panel is fixed on the ceiling face.Because the gap closure panel has plate-like shape, so be fixed to the free degree height of ceiling face.For example, when the gap closure panel was fixed on the ceiling face by screw, the range of choice of part of passing screw was big, and the part that screw is passed be adapted at fixing on the ceiling face is very easy to.Therefore, it is also easy to be arranged on the setting of the bearing support on the closure panel of gap integratedly.Thus, the method to set up by this air conditioner can easily be provided with.

In the air conditioner of the present invention's first mode, because the gap closure panel has plate-like shape, so be fixed to the free degree height of ceiling face.Therefore, it is also easy to be bearing in the setting of the bearing support on the closure panel of gap.Thus, in this air conditioner, can easily be provided with.

In the air conditioner of the present invention's second mode, the bearing support of split is fixed on the closure panel of gap by fixed part, and thus, branching bolster supporting is on the closure panel of gap.

In the air conditioner of Third Way of the present invention, fixed part cooperates with bearing support, and is thus can be with bearing support simple and be fixed firmly on the closure panel of gap.

In the air conditioner of the cubic formula of the present invention, form by at least a portion and the gap closure panel that makes bearing support, bearing support is supported on the closure panel of gap.

In the air conditioner of the present invention's the 5th mode, be formed from a resin by making the gap closure panel, can make gap closure panel weight reduction.

In the air conditioner of the present invention's the 6th mode, be formed from a resin by making bearing support, can make the bearing support weight reduction.

In the air conditioner of the present invention's the 7th mode, can easily tackle the big minor change of gap closure panel.

In the air conditioner of the present invention all directions formula, can be provided with first panel component and second panel component bigger gap closure panel altogether.

In the air conditioner of the present invention's the 9th mode, seal by first parts by the first end that makes first panel component, the less clearance closure panel can be set.

In the air conditioner of the present invention's the tenth mode, can utilize the screwed hole that is positioned at the appropriate location to carry out screw threads for fastening on the ceiling face in order to be fixed to, the gap closure panel can be easily fixed on the ceiling face.

In the air conditioner of the present invention's the 11 mode, can improve the thermal efficiency and be suppressed on the ceiling face and produce dewfall.In addition, the installation of heat insulating member is easy.

In the air conditioner of the present invention's the 12 mode, carried out the air after the adjustment by thermostat unit and be transported in the space that radiant panel constitutes by the blow-off outlet that blows out portion.

In the air conditioner of the present invention's the 13 mode, so can improve aesthetic measure owing to thermostat unit is configured in the ceiling.

In the air conditioner of the present invention's the tenth cubic formula, can hide the supporting part of radiant panel and bearing support by outrigger, thereby can improve aesthetic measure.

In the method to set up of the air conditioner of the present invention's the 15 mode, because the gap closure panel has tabular shape, so be fixed to the free degree height on the ceiling face.Therefore, it is also easy to be fixed on the setting of the bearing support on the closure panel of gap.Thus, the method to set up by this air conditioner can easily be provided with.

In the method to set up of the air conditioner of the present invention's the 16 mode, because the gap closure panel has plate-like shape, so be fixed to the free degree height on the ceiling face.Therefore, it is also easy to be arranged on the setting of the bearing support on the closure panel of gap integratedly.Thus, the method to set up by this air conditioner can easily be provided with.

Description of drawings

Fig. 1 is air conditioner is observed in expression from the indoor a stereogram.

Fig. 2 is the side cutaway view of the structure of expression air conditioner.

Fig. 3 is the schematic diagram of the method to set up 1 of expression air conditioner.

Fig. 4 is the schematic diagram of the method to set up 1 of expression air conditioner.

Fig. 5 is the flow chart of the method to set up 1 of expression air conditioner.

Fig. 6 is the flow chart of the method to set up 1 of expression air conditioner.

Fig. 7 is the flow chart of the method to set up 2 of expression air conditioner.

Fig. 8 is the schematic diagram of the method to set up 2 of expression air conditioner.

Fig. 9 is the schematic diagram of other method to set up of expression air conditioner.

Label declaration

1: radiant panel; 2: thermostat unit; 3: blow out chamber (blowing out portion); 5: the gap closure panel; 6: bearing support; 7: outrigger; 31: blow-off outlet; 32: the chamber of blowing out opening (opening); 51: heat insulating member; 52: the first panel components; 53: the second panel components; 55: first end; 59: the first fixed parts (fixed part); 65: the five frame sections (first parts); 100: air conditioner; CL: ceiling face; RS: indoor.

The specific embodiment

(first embodiment)

(structure)

Fig. 1 and Fig. 2 represent the air conditioner 100 of first embodiment of the present invention.This air conditioner 100 is the thermoregulator air conditioners 100 that carry out indoor RS by the radiant panel 1 that is arranged at ceiling face CL, and air conditioner 100 can be in harmonious proportion by the air that producing by boasting of the air after radiation and the adjustment carried out indoor RS such as cooling and warming.In addition, Fig. 1 represents from the observed air conditioner 100 of indoor R side, and Fig. 2 is the side cutaway view of the structure of the structure of expression ceiling face CL and air conditioner 100.Air conditioner 100 has thermostat unit 2, blows out chamber 3, suction chamber 4 (with reference to Fig. 3 (b)), gap closure panel 5, radiant panel 1, bearing support 6 and outrigger 7.

(thermostat unit)

Thermostat unit 2 is built-in (built-in) type indoor sets, and it is that the air that is taken into from suction chamber 4 is carried out adjustment, and through blowing out the device that chamber 3 is sent to air the inner space IS that radiant panel 1 constituted.

Thermostat unit 2 is disposed at CS in the ceiling, and it is fixed on the beam of CS in the ceiling by hanging bolt 21 grades.Thermostat unit is positioned at the top of the chamber of blowing out described later with opening 32.Thermostat unit 2 and not shown off-premises station between constitute the refrigerant loop, and between refrigerant and air, carry out heat exchange.Be connected with the suction line 40 that is connected with suction chamber 4 on thermostat unit 2, the air of the indoor RS that sucks from suction chamber 4 is taken into the inside of thermostat unit 2 by suction line 40.Thermostat unit 2 has not shown pressure fan and heat exchanger in inside, with the air that is taken into lead to heat exchanger, blow out and refrigerant between carried out the air of heat exchange and it delivered to blowing out chamber 3.

(blowing out the chamber)

Blow out the lower surface that chamber 3 (blowing out portion) is installed in thermostat unit 2, blowing out chamber 3 is case shape parts of the blow-off outlet 31 of the air after lower surface has the adjustment of blowing out.Blow-off outlet 31 is the openings that air passed through that blow out and blow to by the inside that blows out chamber 3 indoor RS from thermostat unit 2.Blow out chamber 3 its major parts and be positioned at CS side in the ceiling, and dispose in the mode of RS side in the opening of blow-off outlet 31 by being located at ceiling face CL (hereinafter being called " blow out chamber with the opening 32 ") faced chamber.

In addition, blow out the chamber and pass the ceiling 81 that constitutes ceiling face CL with opening 32 (opening) and be provided with, this blows out the chamber and connects CS to the ceiling with opening 32 from indoor RS.It is roughly consistent with blow-off outlet 31 with the shape of opening 32 to blow out the chamber, and forms more bigger than blow-off outlet 31.Blow-off outlet 31 has square shape, and the chamber of blowing out also is a square shape with opening 32.In addition, blowing out the chamber is positioned at from beneath near the central authorities of radiant panel 1 with opening 32.

(suction chamber)

Suction chamber 4 is to be taken into the air of indoor RS and it is delivered to the part of thermostat unit 2, and shown in Fig. 3 (b), it has suction inlet 41.Suction inlet 41 is located at the lower surface of suction chamber 4, suction chamber 4 its major parts are positioned at CS side in the ceiling, and dispose in the mode of RS side in the opening of suction inlet 41 by being located at ceiling face CL (hereinafter being called " suction chamber with opening 42 " (with reference to Fig. 3 (a))) faced chamber.Suction chamber 4 is connected with suction line 40, and it will deliver to thermostat unit 2 from the air that indoor RS is taken into through suction line 40, and above-mentioned suction line 40 is connected with thermostat unit 2.

(gap closure panel)

Gap closure panel 5 is arranged on from the chamber of blowing out with the plate-shaped member of opening 32 in the scope of bearing support 6, and its sealing blows out the gap between edge and the chamber of the blowing out usefulness opening 32 of being located at ceiling face CL of blow-off outlet 31 of chamber 3.Gap closure panel 5 is resin parts, and is provided with a plurality of screwed holes.The quantity of this screwed hole is set for more than the quantity that is used for fixing gap closure panel 5, and screw leads in the substrate parts 82 by screwed hole, thus gap closure panel 5 is fixed on the ceiling face CL.In addition, in Fig. 2, only a substrate parts 82 has been added label, and other have been omitted.Gap closure panel 5 is than the thin thickness of bearing support 6, and it has the rectangular configuration identical with bearing support 6.Shown in Fig. 4 (c), heat insulating member 51 is installed at the lower surface of gap closure panel 5.Shown in Fig. 4 (b), gap closure panel 5 has made up a plurality of panel component 52-54, is rectangular shape on the whole, and gap closure panel 5 has first panel component 52, second panel component 53 and the 3rd panel component 54.

(first panel component)

First panel component 52 is located at the chamber of blowing out with around the opening 32, is provided with the opening that is used to make RS side in blow-off outlet 31 faced chamber that blow out chamber 3 at the middle body of first panel component 52.The opening of this first panel component 52 with blow out the chamber and be provided with the consistent mode of opening 32.First panel component 52 has foursquare profile, and shown in Fig. 4 (a), it has first end 55, the second end 56, the 3rd end 57 and the 4th end 58.Each end 55-58 constitutes foursquare four edges respectively, and first end 55 is parallel with the second end 56, and the 3rd end 57 is parallel with the 4th end 58.

On first end 55, be provided with first fixed part 59 (fixed part), on the second end 56, be provided with second fixed part 50 (fixed part).First fixed part 59 and second fixed part 50 are the parts that are used for fixing bearing support, and can fix additional panel component.That is, when additional panel component is set, fixing additional panel component on first end 55 and the second end 56; When additional panel component is not set, fixed supporting frame on first end 55 and the second end 56.On first fixed part 59 and second fixed part 50, be respectively equipped with the fit structure that cooperates with bearing support portion or additional panel component.

Also be provided with the fixed part identical with second fixed part 50 with first fixed part 59 on the 3rd end 57 and the 4th end 58, first frame section 61 described later and second frame section 62 are fixed integratedly.

(second panel component and the 3rd panel component)

Second panel component 53 and the 3rd panel component 54 are additional panels parts additional on first panel component 52.

Second panel component 53 has rectangular profile, and has four ends that constitute rectangular four edges respectively.As the second panel side engagement portion 91 of one of these four ends, have the length identical, and have the shape of coincideing with first end 55 with the first end 55 of first panel component 52.On the second panel side engagement portion 91, be provided with the structure that is engaged that matches with the fit structure of first fixed part 59, cooperating of first fixed part 59 by the second panel side engagement portion 91 and first end 55, the second panel side engagement portion 91 and first end 55 are fixed together, thereby first panel component 52 and second panel component 53 are combined.On other three ends of second panel component 53, be fixed with the 3rd frame section 63 described later.

The 3rd panel component 54 has the shape identical with second panel component 53.Have the length identical as the 3rd panel side engagement portion 92 one of in 54 4 ends of the 3rd panel component, and have the shape that matches with the second end 56 with the second end 56 of first panel component 52.On the 3rd panel side engagement portion 92, be provided with the structure that is engaged that matches with the fit structure of second fixed part 50, cooperating of second fixed part 50 by the 3rd panel side engagement portion 92 and the second end 56, the 3rd panel side engagement portion 92 and the second end 56 are fixed together, thereby first panel component 52 and the 3rd panel component 54 are combined.On other three ends of the 3rd panel component 54, be fixed with the 4th frame section 64 described later.

(bearing support)

Bearing support 6 is formed by resin, and it is the parts that are fixed in ceiling face CL and support radiant panel 1.Shown in Fig. 4 (b), bearing support 6 is the frameworks with rectangular configuration, and it is located at apart from the chamber of blowing out with the position of opening 32 preset distances, and blows out the chamber with encirclement and dispose with the mode on every side of opening 32.The thickness of bearing support 6 (size of vertical direction) is littler than the size of horizontal direction, and bearing support 6 is whole shape thin on vertical direction.Bearing support 6 cooperates with the end of gap closure panel 5, and is fixed on the gap closure panel 5 by screw threads for fastening.Bearing support 6 is made of a plurality of parts 61-64, and it has first frame section 61, second frame section 62, the 3rd frame section 63 and the 4th frame section 64.First frame section 61, second frame section 62, the 3rd frame section 63 and the 4th frame section 64 are provided with along the end of gap closure panel 5, form as one by first frame section 61, second frame section 62, the 3rd frame section 63 and the 4th frame section 64 are combined, constituted the shape of rectangular frame shape.

First frame section 61 and second frame section 62 have and the 3rd end 57 of first panel component 52 and the rectilinear form of the 4th end 58 equal length, and have railway line shape.First frame section 61 has the shape that the 3rd end 57 with first panel component 52 matches, and second frame section 62 has the shape that matches with the 4th end 58.First frame section 61 is fixed on the 3rd end 57, and second frame fixation is on the 4th end 58, and respectively by the supporting of first panel component 52.First frame section 61 and second frame section 62 are fixed on first panel component 52 by first frame section 61 and second frame section 62 of fixing means such as screw threads for fastening with split.

The

3rd frame section

63 and 53 combinations of second panel component, the 3rd frame section 63 is provided with along three ends except that the second panel side engagement portion 91 of second panel component 53.The 3rd frame section 63 is fixed on by screw threads for fastening on three ends except that the second panel side engagement portion 91 of second panel component 53, by 53 supportings of second panel component.

The

4th frame section

64 and 54 combinations of the 3rd panel component, the 4th frame section 64 is provided with along three ends except that the 3rd panel side engagement portion 92 of the 3rd panel component 54.The 4th frame section 64 is fixed on by screw threads for fastening on three ends except that the 3rd panel side engagement portion 92 of the 3rd panel component 54, by 54 supportings of the 3rd panel component.

(radiant panel)

Radiant panel 1 is installed on the bearing support 6 from the below in the mode of the whole lower surface of covering bearing support 6, and by bearing support 6 supportings.Radiant panel 1 disposes in the mode that covers blow-off outlet 31 from indoor RS side, and radiant panel 1 disposes with ceiling face CL almost parallel ground with the distance that ceiling face CL separates the thickness that is equivalent to bearing support 6.Thus, radiant panel 1 constitutes the inner space IS that is taken into the air that blows out from blow-off outlet 31.That is, this inner space IS is made of gap closure panel 5, bearing support 6 and radiant panel 1, and by 5 sealings of gap closure panel, the side is by bearing support 6 sealings except opening 32 is used in the chamber of blowing out in the top of this inner space IS, and the below is by radiant panel 1 sealing.Radiant panel 1 is formed by the fiber-like materials such as cloth that can see through air.As fiber-like material, preferably spin cloth, but also can be nonwoven or other fiber-like material.In addition, as depicted in figs. 1 and 2, radiant panel 1 has the less smooth shape of thickness.In the inner space IS that utilizes radiant panel 1 to constitute, send into air after the adjustment from blow-off outlet 31, produce the pressure bigger thus than atmospheric pressure.In addition, form radiant panel 1 the fiber-like material softness, can see through air and have about 0.9 radiance.Therefore, the air of delivering in the IS of inner space blows to indoor RS reposefully from the gap of the fiber eye of radiant panel 1.In addition, deliver to the temperature that the air among the IS of inner space is regulated radiant panel 1, produce radiation from radiant panel 1 by utilization.Thus, can be by the adjustment of carrying out indoor RS with radiation that blows out of air stably.In addition, fiber-like material has retractility.Radiant panel 1 is smooth slim tabular profile, and its indoor RS with respect to the below has rectangular projection of shape.But radiant panel 1 for example has the size that plane earth covers the degree of the bedding that is disposed at indoor RS.

(outrigger)

Outrigger 7 is frame shape parts on every side that the bearing support 6 of radiant panel 1 has been installed from outer side covers.Outrigger 7 has the rectangular configuration than the big circle of bearing support 6, and has the thickness roughly the same with bearing support 6.Outrigger 7 is fixed on the bearing support 6, perhaps is fixed on the ceiling face CL.Outrigger 7 is formed by resin or timber, for example by being formed by timber, can present the beautiful grain of wood in outward appearance, and then improve aesthetic measure.

(method to set up)

Describe according to the method to set up of Fig. 3 to Fig. 6 when in the house, this air conditioner 100 being set.

(method to set up 1)

In this air conditioner 100, the radiant panel 1 that varies in size can freely be set, the method to set up when being provided with than relatively large radiant panel 1 describes here.

At first, in first step S1 shown in Figure 5, make the chamber of blowing out opening 32.Here, shown in Fig. 3 (a), perforate on the ceiling 81 that constitutes ceiling face CL is provided with the chamber of blowing out opening 32 on ceiling face CL.This blows out the chamber with opening 32 size for the profile degree of the blow-off outlet 31 that blows out chamber 3, can be littler than radiant panel 1 and bearing support 6.In addition, blowing out the chamber is provided with according to layout of indoor RS etc. with opening 32 place such as above the bed that is disposed at indoor RS.

In the second step S2, make suction chamber opening 42.Here, shown in Fig. 3 (a), perforate on ceiling 81 is provided with suction chamber opening 42 on ceiling face CL.In addition, suction chamber is arranged on the more unobtrusive positions such as corner of ceiling face CL with opening 42.

In addition, when as new building etc., on ceiling face CL, being provided with opening from the beginning, can omit the first step S1 and the second step S2.

Next, thermostat unit 2 is set in third step S3.Here, shown in Fig. 3 (b), thermostat unit 2 is moved into CS in the ceiling, and be fixed in the Liang Dengshang that is equipped on CS in the ceiling.Thermostat unit 2 by hanging bolt 21 (with reference to Fig. 2) etc. from the beam suspention fix.

In the 4th step S4 (portion of blowing out is provided with step), be provided with and blow out chamber 3.Here, shown in Fig. 3 (b), be configured with the mode of RS side in opening 32 faced chamber by the chamber that blows out of being located at ceiling face CL with blow-off outlet 31 blowing out chamber 3.Blow out chamber 3 and moved into CS in the ceiling, blow out chamber 3 and be inserted into the blow-off outlet 31 CS side in ceiling that blows out chamber 3 and blow out the chamber and be provided with the mode the opening 32.Under this state, blow-off outlet 31 exposes to indoor RS side with opening 32 from blowing out the chamber.

In addition, when thermostat unit 2 with when blowing out chamber 3 and being made as one, also can carry out third step S3 and the 4th step S4 simultaneously.

In the 5th step S5, suction chamber 4 is set.Here, shown in Fig. 3 (b), suction chamber 4 is configured by the mode of suction chamber with RS side in opening 42 faced chamber with suction inlet 41.Suction chamber 4 is moved into CS in the ceiling, and suction chamber 4 is inserted into suction chamber with suction inlet 41 CS side in ceiling of suction chamber 4 and is provided with the mode the opening 42.

In the 6th step S6, carry out the connection of suction line 40.Here, shown in Fig. 3 (b), connect suction chamber 4 and thermostat unit 2 by suction line 40.In addition, suction line 40 is equipped on CS in the ceiling.

Next, in the 7th step S7 (bearing support fixing step) shown in Figure 6, carry out the fixing of first frame section 61 and second frame section 62.Here, shown in Fig. 4 (a), first frame section 61 is fixed on the 3rd end 57 of first panel component 52, second frame section 62 is fixed on the 4th end 58 of first panel component 52.

In the 8th step S8 (gap closure panel fixing step), carry out the fixing of first panel component 52.Here, shown in Fig. 4 (a), first panel component 52 is fixed on the ceiling face CL, sealing blows out the blow-off outlet 31 of chamber 3 and the gap between the usefulness opening 32 of the chamber of blowing out.Blowing out the chamber is sizes with blow-off outlet 31 same degree with opening 32, but blows out chamber 3 in order to be provided with, and blows out the chamber and forms more bigger than blow-off outlet 31 with opening 32.First panel component 52 is provided with in order to seal this gap.With screw through in the screwed hole of being located on first panel component 52, with the screwed hole of the position consistency of substrate parts in, so that first panel component 52 is fixed on the substrate parts.

In addition, can be after being installed to first frame section 61 and second frame section 62 on first panel component 52, first panel component 52 is fixed on the ceiling face CL, also can after being fixed on first panel component 52 on the ceiling face CL, first frame section 61 and second frame section 62 be installed on first panel component 52.In addition, can also be shown in Fig. 3 (c), before being fixed to first panel component 52 on the ceiling face CL, drawing on ceiling face CL is used for the setting-out of assemblage gap closure panel 5.

In the 9th step S9 (bearing support fixing step), carry out the fixing of the 3rd frame section 63.Here, shown in Fig. 4 (b), on second panel component 53, fix the 3rd frame section 63.

In the tenth step S10 (gap closure panel fixing step), fix second panel component 53.Here, shown in Fig. 4 (b), on ceiling face CL, fix second panel component 53.At this moment, the mode and 52 combinations of first panel component that match with the first end 55 of the second panel side engagement portion 91 and first panel component 52 of second panel component 53.In addition, second panel component 53 by screw threads for fastening on ceiling 81 and substrate parts 82.

In the 11 step S11 (bearing support fixing step), carry out the fixing of the 4th frame section 64.Here, shown in Fig. 4 (b), on the 3rd panel component 54, fix the 4th frame section 64.

In the 12 step S12 (gap closure panel fixing step), fix the 3rd panel component 54.Here, shown in Fig. 4 (b), on ceiling face CL, fix the 3rd panel component 54.At this moment, the mode and 52 combinations of first panel component that match with the second end 56 of the 3rd panel side engagement portion 92 and first panel component 52 of the 3rd panel component 54.In addition, the 3rd panel component 54 by screw threads for fastening on ceiling 81 and substrate parts 82.

In addition, also can be after being installed to the 3rd frame section 63 on second panel component 53, second panel component 53 is fixed on the ceiling face CL, can also after being fixed on second panel component 53 on the ceiling face CL, the 3rd frame section 63 be installed on second panel component 53.Also is the same about the 4th frame section 64 with the 3rd panel component 54.

Heat insulating member 51 is installed in the 13 step S13.Here, shown in Fig. 4 (c), at the fixing heat insulating member 51 of the lower surface of gap closure panel 5.Heat insulating member 51 is installed in the roughly whole lower surface except the opening that is used to make RS in blow-off outlet 31 faced chamber of gap closure panel 5.

In the 14 step S14 (radiant panel is provided with step), radiant panel 1 is set.Here, shown in Fig. 2 and Fig. 4 (d), radiant panel 1 is fixed on the bearing support 6 in the mode that covers blow-off outlet 31 from indoor RS side.Radiant panel 1 is fixed so that do not produce lax with the state of tensioning.

In the 15 step S15, carry out the installation of outrigger 7.Here, shown in Fig. 4 (e), outrigger 7 is installed in the periphery of bearing support 6 and radiant panel 1.

In addition, if possible, also can be as required with order exchange from the operation of above-mentioned first step S1 to the 15 step S15.

(method to set up 2)

Next, the method to set up when more small-sized radiant panel 1 is set describes.Identical from the operation of first step S1 to the six step S6 with above-mentioned method to set up 1.In this second method to set up,, enter into the 16 step S16 shown in Figure 7 the 6th step S6 next step.Below, describe according to Fig. 7 and Fig. 8.

In the 16 step S16, carry out the fixing of first frame section 61.Here, shown in Fig. 8 (a), on the 3rd end 57 of first panel component 52, fix first frame section 61.

In the 17 step S17, carry out the fixing of second frame section 62.Here, shown in Fig. 8 (a), on the 4th end 58 of first panel component 52, fix second frame section 62.

In the 18 step S18, carry out the fixing of the 5th frame section 65 (first parts).Here, shown in Fig. 8 (a), on the first end 55 of first panel component 52, fix the 5th frame section 65.The 5th frame section 65 has the linearity shape identical with second frame section 62 with first frame section 61, and has the shape that the 3rd end 57 with first panel component 52 matches.The 5th frame section 65 has the structure that is engaged that cooperates with the fit structure of first fixed part 59, the fit structure that is engaged the structure and first fixed part 59 of the 5th frame section 65 under the state that cooperates by screw threads for fastening, thereby first panel component 52 and the 5th frame section 65 are fixed together.

In the 19 step S19, carry out the fixing of the 6th frame section 66.Here, shown in Fig. 8 (a), on the second end 56 of first panel component 52, fix the 6th frame section 66.The 6th frame section 66 has the linearity shape identical with second frame section 62 with first frame section 61, and has the shape that the second end 56 with first panel component 52 matches.The 6th frame section 66 has the structure that is engaged that cooperates with the fit structure of second fixed part 50, the fit structure that is engaged the structure and second fixed part 50 of the 6th frame section 66 under the state that cooperates by screw threads for fastening, thereby first panel component 52 and the 6th frame section 66 are fixed together.

By above the 16 step S16 to the 19 step S19 (bearing support fixing step), the four directions of first panel component 52 is by bearing support 6 sealings.In addition, under this situation, bearing support 6 becomes the square profile identical with first panel component 52.

Next, in the 20 step S20 (gap closure panel fixing step), carry out the fixing of first panel component 52.Here, the same with the 8th step S8 of method to set up 1, fixing first panel component 52 on ceiling face CL is gap closure panel 5.

In addition, also can be after being installed to first frame section, 61 to the 4th frame sections 64 on first panel component 52, first panel component 52 is fixed on the ceiling face CL, can also after being fixed on first panel component 52 on the ceiling face CL, first frame section, 61 to the 4th frame sections 64 be installed on first panel component 52.In addition, the part in each

frame section

61,62,65,66 can also only be installed on first panel component 52, after being fixed to first panel component 52 on the ceiling face CL, remaining frame parts be installed on first panel component 52.

Then, in the 21 step S21, carry out the installation of heat insulating member 51, in the 22 step S22 (radiant panel is provided with step), carry out the setting of radiant panel 1, in the 23 step S23, carry out the installation (with reference to Fig. 8 (b)-(d)) of outrigger 7.These the 13 step S13 to the 15 step S15 with method to set up 1 are the same.

(feature)

(1)

In this air conditioner 100, from the air of blow-off outlet 31 after the inner space of radiant panel 1 IS sends adjustment.Because radiant panel 1 forms by the raw material with predetermined radiance, the therefore temperature of regulating radiant panel 1 by the air that utilizes after the adjustment is from the surface generation radiation of radiant panel 1.In addition, be fiber-like material owing to form the raw material of radiant panel 1, thus become pressure than indoor RS when big when the pressure of inner space IS, can be from the air of gap after indoor RS blows out adjustment of the fiber of radiant panel 1.Thus, can be by radiation and the adjustment that blows out and be used for carrying out indoor RS, and only carry out thermoregulator situation and compare by producing by boasting, can utilize the adjustment of carrying out indoor RS that blows out of air stably.In addition, the air that blows out from radiant panel 1 is owing to blow out from the gap of fiber, and institute thinks air stream stably.Therefore, the adjustment of indoor RS can be imperceptible air-flow ground carried out, adjustment very comfortable concerning the occupant of indoor RS can be carried out.

(2)

In aforesaid air conditioner 100, for the adjustment of indoor RS is carried out in the air-flow sense less, preferred radiant panel 1 has bigger area.When radiant panel 1 is big in the plane, be difficult to be full of its inside fully with air.For example, when an end at radiant panel 1 is equipped with blow-off outlet, air from an end of radiant panel 1 after inner delivery temperature is regulated, be difficult to make air to arrive the other end fully.In addition, when increasing the flow velocity of air, might near blow-off outlet 31, produce negative pressure, and cause the air of indoor RS to be inhaled into the inside of radiant panel 1 conversely in order to make air arrive the other end fully.

But in this air conditioner 100, as mentioned above, because blow-off outlet 31 is set near the central authorities of radiant panel 1, so from the air of middle body after the delivered inside adjustment of radiant panel 1 of radiant panel 1.Thus, the air after the adjustment can easily arrive the end of radiant panel 1.

(3)

In this air conditioner 100, bearing support 6 is fixed on the gap closure panel 5, and gap closure panel 5 is fixed on the ceiling face CL.Gap closure panel 5 has plate-like shape, and is provided with a plurality of screwed holes, so gap closure panel 5 can be easily fixed on the ceiling face CL.That is, under the state that gap closure panel 5 and ceiling face CL lump together, make screw pass screwed hole with the position consistency of substrate parts 82, thereby gap closure panel 5 and ceiling face CL are fixed together.Thus, gap closure panel 5 can be easily fixed on the substrate parts 82.Like this, in this air conditioner 100, being provided with of gap closure panel 5 and bearing support 6 is easy.In addition, owing to gap closure panel 5 is fixed on the substrate parts 82, so can realize firm fixing.

(4)

In this air conditioner 100, the size of coming selective radiation panel 1 according to room-size and required adjustment ability, and determine whether the

additional panel component

52,53 that constitutes gap closure panel 5 according to the size of selected radiant panel 1.In addition, can also select the frame section 63-66 of the end of

closure panel parts

52,53 according to selected panel component 52,53.Thus, the radiant panel 1 that varies in size can easily be set.

(5)

In this air conditioner 100, direction that can free selective radiation panel 1.That is, as shown in Figure 9, when first panel component 52 is installed, first panel component 52 is mounted to the different direction with Fig. 4 (a).For example, in Fig. 9 (a), first panel component 52 is mounted to the direction that differs 90 degree with first panel component 52 of Fig. 4 (a).And, shown in Fig. 9 (b), by additional second panel component 53 and the 3rd panel component 54 and be combined on first panel component 52, gap closure panel 5 is mounted to the direction different with method to set up 1.Thus, radiant panel 1 can be arranged to the direction different with method to set up 1.Identical about other operation shown in Fig. 9 (c)-Fig. 9 (e) with each operation shown in Fig. 4 (c)-Fig. 4 (e).

In addition, because first panel component 52 is a square, thus the installation direction of first panel component 52 do not changed, and by changing the installation site of first frame section 61 and second frame section 62, also can be with above-mentioned the same, gap closure panel 5 is mounted to the direction different with method to set up 1.

(6)

In this air conditioner 100, owing to less, so construction work is simple as blowing out the aperture efficiency of being located on the ceiling face CL with opening 32 chamber.That is, when the opening that is provided with on ceiling face CL for radiant panel 1 being installed to ceiling face CL goes up with radiant panel 1 identical size, owing on ceiling face CL, need to wear big opening, so that construction work becomes is difficult.But, in this air conditioner 100, because the chamber of blowing out is smaller with opening 32, so the chamber of blowing out is easy with the construction work of opening.

(second embodiment)

In the above-described first embodiment, bearing support 6 is splits with gap closure panel 5, and when being provided with of air conditioner 100, bearing support 6 is fixed on the gap closure members 5, but also can be that at least a portion and the gap closure panel 5 of bearing support 6 forms.

For example, on first panel component 52, form first frame section 61 and second frame section 62 in advance.At this moment, first frame section 61, second frame section 62 and first panel component 52 integratedly can be shaped, in addition, also can in advance first frame section 61 and second frame section 62 be fixed on first panel component 52 integratedly by screw threads for fastening or bonding, welding etc.

In addition, second panel component 53 also is the same with the 3rd frame section 63, the 3rd panel component 54 with the 4th frame section 64.

At this moment, in above-mentioned method to set up 1 or method to set up 2, can omit first frame section 61 fixing, second frame section 62 fixing, the 3rd frame section 63 fixing, the 4th frame section 64 fix each operation, thereby can simplify operation is set.

(other embodiments)

(1)

In the above-described embodiment, bearing support 6 is a resin parts, but also can be the sheet metal member made.But, from the viewpoint preferred resin member made of weight reduction.

(2)

In the above-described embodiment, the radiance that forms the fiber-like material of radiant panel 1 is 0.9, but so long as the radiance more than 0.6 get final product.But the thermoregulator viewpoint of utilizing radiation to carry out from raising is preferably more than 0.9.

(3)

Except additional second panel component 53 and the 3rd panel component 54, can also add other panel components.

(4)

In the above-described embodiment, be equipped with at the lower surface of thermostat unit 2 and blow out chamber 3, but also can thermostat unit 2 be set leaving the position that blows out chamber 3, connect by pipe and blow out chamber 3 and thermostat unit 2.Thus, the air after the adjustment that blows out from thermostat unit 2 passes out to by pipe and blows out chamber 3, and blows out from blow-off outlet 31.

(5)

In the above-described embodiment, gap closure panel 5 is fixed on the ceiling face CL by screw, but also can fix by other fixed parts such as nail or bolt and nuts.

(6)

In the above-described embodiment, the chamber of blowing out is square with opening 32, but also can be that rectangle or circle wait other shapes.

According to the present invention air conditioner can be set easily, have practicality as the method to set up of air conditioner and air conditioner.

Claims

1. an air conditioner (100), it possesses:

Be used to regulate the thermostat unit (2) of air themperature; Blow out portion (3), it has the blow-off outlet (31) that blows out the air after described thermostat unit (2) adjustment, and this blows out portion (3) and disposes in the mode of described blow-off outlet (31) by (RS) side in opening (32) faced chamber that is located at ceiling face (CL);

Tabular gap closure panel (5), it is fixed on the described ceiling face (CL), seals described blow-off outlet (31) and is located at gap between the described opening (32) of described ceiling face (CL);

Radiant panel (1), it disposes in the mode that covers described blow-off outlet (31) from described indoor (RS) side, this radiant panel (1) constitutes the space (IS) be taken into the air that blows out from described blow-off outlet (31), and is formed by the fiber-like material that has predetermined radiance and can see through described air; With

Bearing support (6), it is provided with in the mode that is bearing on the described gap closure panel (5), and supports described radiant panel (1).

2. air conditioner according to claim 1 (100) is characterized in that,

At least a portion in the end of described gap closure panel (5) is provided with the fixed part (59,50) that is used for fixing described bearing support (6),

Be fixed on the described gap closure panel (5) by described fixed part (59,50) with the described bearing support (6) of described gap closure panel (5) split.

3. air conditioner according to claim 2 (100) is characterized in that,

On described fixed part (59,50), be provided with the fit structure that cooperates with described bearing support (6).

4. air conditioner according to claim 1 (100) is characterized in that,

At least a portion of described bearing support (6) and described gap closure panel (5) form.

5. air conditioner according to claim 1 (100) is characterized in that,

Described gap closure panel (5) is formed from a resin.

6. air conditioner according to claim 1 (100) is characterized in that,

Described bearing support (6) is formed from a resin.

7. air conditioner according to claim 1 (100) is characterized in that,

Described gap closure panel (5) has first panel component (52), this first panel component (52) be located at described opening (32) around, and have and first end (55) that at least a portion of the described bearing support (6) of additional panel component (53) and split can both be coincide.

8. air conditioner according to claim 7 (100) is characterized in that,

Described gap closure panel (5) also has second panel component (53), this second panel component (53) and described first panel component (52) combination, and have the end that coincide with described first end (55).

9. air conditioner according to claim 7 (100) is characterized in that,

Described bearing support (6) has first parts (65), these first parts (65) and described first panel component (52) combination, and have the shape of coincideing with described first end (55).

10. air conditioner according to claim 1 (100) is characterized in that,

On described gap closure panel (5), be provided with a plurality of screwed holes.

11. air conditioner according to claim 1 (100) is characterized in that,

Heat insulating member (51) is installed on described gap closure panel (5).

12. air conditioner according to claim 1 (100) is characterized in that,

Described air conditioner (100) also has thermostat unit (2), and this thermostat unit (2) carries out adjustment to described air, and it is delivered to the described portion (3) that blows out.

13. air conditioner according to claim 12 (100) is characterized in that,

Described thermostat unit (2) is configured in (CS) in the ceiling, and is positioned at the top of described opening (32).

14. air conditioner according to claim 1 (100) is characterized in that,

Described air conditioner (100) also has outrigger (7), and this outrigger (7) is around the described bearing support of outer side covers (6).

15. the method to set up of an air conditioner (100), it is the method to set up of carrying out the thermoregulator air conditioner (100) of indoor (RS) by the radiant panel of being located at ceiling face (CL) (1), and it may further comprise the steps:

The portion of blowing out is provided with step (S4), the portion that blows out (3) that will have the blow-off outlet (31) that blows out the air after thermostat unit (2) adjustment is configured in the mode of the opening (32) of described blow-off outlet (31) by being located at described ceiling face (CL) towards described indoor (RS) side;

Gap closure panel fixing step (S8, S10, S12, S20) will be sealed described blow-off outlet (31) and will be located at the tabular gap closure panel (5) in the gap between the described opening (32) of described ceiling face (CL), be fixed on the described ceiling face (CL);

Bearing support fixing step (S7, S9, S11, S16-S19), will support described radiant panel (1), with at least a portion of the bearing support (6) of described gap closure panel (5) split, be fixed on the described gap closure panel (5); With

Radiant panel is provided with step (S14, S22), radiant panel (1) is fixed on the described bearing support (6) in the mode that covers described blow-off outlet (31) from described indoor (RS) side, this radiant panel (1) constitutes the space (IS) be taken into the air that blows out from described blow-off outlet (31), and is formed by the fiber-like material that has predetermined radiance and can see through described air.

16. the method to set up of an air conditioner (100), it is the method to set up of carrying out the thermoregulator air conditioner (100) of indoor (RS) by the radiant panel of being located at ceiling face (CL) (1), and it may further comprise the steps:

Gap closure panel fixing step (S8, S10, S12, S20), tabular gap closure panel (5) is fixed on the described ceiling face (CL), described gap closure panel (5) is provided with integratedly with at least a portion of bearing support (6) of the described radiant panel of supporting (1), and seals described blow-off outlet (31) and be located at gap between the described opening (32) of described ceiling face (CL); With

Radiant panel is provided with step (S14, S22), radiant panel (1) is fixed on the described bearing support (6) in the mode that covers described blow-off outlet (31) from described indoor (RS) side, this radiant panel (1) constitutes the space be taken into the air that blows out from described blow-off outlet (31), and is formed by the fiber-like material that has predetermined radiance and can see through described air.