CN101163922B - Air conditioner and installation method for the same - Google Patents

Abstract

An easily installable air conditioner and an installation method for the air conditioner. The air conditioner (100) comprises a blowout chamber (3), a clearance closing sheet (5), a radiating panel (1), and a support frame (6). The blowout chamber (3) comprises a blowout port (31) from which a temperature-controlled air is blown out, and is disposed so that the blowout port (31) can face an indoor(RS) side through an opening (32) for blowout chamber formed in a ceiling surface (CL). The clearance closing sheet (5) is fixed to the ceiling surface (CL) and closes a clearance between the blowoutport (31) and the opening (32) for blowout chamber formed in the ceiling surface (CL). The radiating panel (1) is disposed to cover the blowout port (31) from the indoor (RS) side, and forms a space(IS) into which air blown out from the blowout port (31) is taken. Also, the radiating panel (1) is formed of a fiber-based material having a prescribed emissivity and allowing air to permeate therethrough. The support frame (6) is formed separately from the clearance closing sheet (5), fixed to the ceiling surface (CL), and supports the radiating 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 on 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.When the installation free degree limited when the installation site of bearing support, bearing support was low, it is difficult that the setting of radiant panel just 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 first mode of the present invention possesses the thermostat unit that is used to regulate air themperature, blows out portion, gap closure members, 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.Gap closure members is fixed on the ceiling face, sealing blow-off outlet and be located at gap between the opening of ceiling face.Radiant panel disposes in the mode that covers blow-off outlet from the indoor, and its formation is taken into the space of 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.Bearing support be the gap closure members split, this bearing support is fixed on the ceiling face, and the supporting radiant panel.

In this air conditioner, the blow-off outlet that blows out portion is to dispose by the mode of opening surface to the indoor of being located at the ceiling face, and radiant panel disposes in the mode that covers blow-off outlet from the indoor, and thus, the air that blows out from blow-off outlet is taken in the radiant panel.The air that radiant panel passes through to be taken into is carried out adjustment, thereby carries out indoor adjustment by its radiation.Meanwhile, the air that is taken in the space that radiant panel constitutes blows out to indoor from the fibre gap of radiant panel, carries out indoor adjustment thus.

In addition, owing to be located at the opening of ceiling face and the gap between the blow-off outlet is sealed by gap closure members, so can suppress air from clearance leakage.

And, because the bearing support and the gap closure members split of supporting radiant panel, so when the mounting support frame, can separate with gap closure members and install.Therefore, in this air conditioner, the free degree height of the installation site of frame can easily be provided with.

The air conditioner of second mode of the present invention is on the basis of the air conditioner of first mode, and bearing support is fixed on the substrate parts, and this substrate parts constitutes the ceiling of ceiling face in the inboard supporting of ceiling.

The ceiling formation that the ceiling face is in most cases served as reasons relatively thinner when bearing support only is fixed on the ceiling face that is made of such ceiling, is difficult to fix securely.Therefore, consider bearing support is fixed on the substrate parts of the inboard supporting of ceiling ceiling.If fixed supporting frame then can carry out firm fixing, but substrate parts only is configured in the position of the qualification of ceiling face, may be difficult to bearing support is carried out the position adjustment like this.

But, in this air conditioner owing to bearing support can be separated with gap closure members and install, therefore easy with bearing support be configured in the substrate parts position overlapped on mode carry out the position adjustment.Therefore, in this air conditioner, be provided with easily and mounting support frame securely.

The air conditioner of Third Way of the present invention is on the basis of the air conditioner of first mode or second mode, and bearing support is arranged on apart from the position of opening preset distance around the opening of being located at the ceiling face.

In this air conditioner, bearing support is arranged on apart from the position of opening preset distance around the opening of being located at the ceiling face.That is, aperture efficiency is little by the scope that bearing support is surrounded.Therefore, when being provided with at the ceiling face under the situation of opening, only passing the area opening littler than bearing support and get final product, it is easy that engineering is set.

The air conditioner of the cubic formula of the present invention is on the basis of the air conditioner of Third Way, and gap closure members is arranged in the scope from the opening to the bearing support.

In this air conditioner,, protect so can in the scope from the opening to the bearing support, cover the ceiling face because gap closure members is arranged in the scope from the opening to the bearing support.

The air conditioner of the 5th mode is on the basis of the air conditioner of cubic formula, and gap closure members is to paste the lamellar parts of paying on the ceiling face.

In this air conditioner, because gap closure members is to paste the lamellar parts of paying on the ceiling face, so weight is low weight.Therefore, gap closure members can be fixed on the ceiling face simply.

The air conditioner of the 6th mode also has thermostat unit from the basis of the air conditioner of first mode to the, five modes, and this thermostat unit carries out adjustment and it is delivered to the portion of blowing out air.

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

The air conditioner of the 7th mode is on the basis of the air conditioner of the 6th 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.Therefore, 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 first mode to the, seven modes of all directions formula, also has outrigger on every side from the outer side covers bearing support.

In this air conditioner, outrigger covers the outside of bearing support, can hide the supporting part of radiant panel and bearing support thus.Can improve aesthetic measure thus.

The method to set up of the air conditioner of the 9th mode is the method to set up of carrying out indoor thermoregulator air conditioner by the radiant panel of being located at the ceiling face, and the method to set up of this air conditioner has the portion of blowing out and step, bearing support fixing step, gap closure members fixing step and radiant panel is set 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 bearing support fixing step, the bearing support that supports radiant panel is fixed on the ceiling face.In the gap closure members fixing step, will and the bearing support split, sealing blow-off outlet and be located at the gap closure members in the gap between the opening of ceiling face, be fixed on the ceiling face.And, 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, and 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, because the bearing support and the gap closure members of supporting radiant panel are splits, so when the mounting support frame, can install dividually with gap closure members.Therefore, in the method to set up of this air conditioner, the free degree height of the installation site of frame can easily be provided with.

In the air conditioner of first mode, owing to bearing support and gap closure members can be installed dividually, so can easily be provided with.

In the air conditioner of second mode and since with bearing support be configured in the mode of substrate parts position overlapped carry out the position adjust more or less freely, so be provided with more or less freely and mounting support frame securely.

In the air conditioner of Third Way, when being provided with at the ceiling face under the situation of opening, only passing the area opening littler and get final product than bearing support, engineering is set is easier to.

In the air conditioner of cubic formula,, protect so can in the scope from the opening to the bearing support, cover the ceiling face because gap closure members is arranged in the scope from the opening to the bearing support.

In the air conditioner of the 5th mode,,, therefore can easily gap closure members be fixed on the ceiling face so weight is low weight because gap closure members is to paste the lamellar parts of paying on the ceiling face.

In the air conditioner of the 6th mode, carried out the air after the adjustment by thermostat unit and be sent in the space that radiant panel constitutes by the blow-off outlet that blows out portion.

In the air conditioner of the 7th mode, can prevent from that thermostat unit from being waited by indoor occupant to see, thereby can improve aesthetic measure.

In the air conditioner of all directions 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 9th mode, owing to bearing support and gap closure members can be installed dividually, so can easily be provided with.

Description of drawings

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

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

Fig. 3 is the flow chart of the method to set up of expression air conditioner.

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

Label declaration

1: radiant panel; 2: thermostat unit; 3: blow out chamber (blowing out portion); 5: gap enclosed web (gap closure members); 6: bearing support; 7: outrigger; 31: blow-off outlet; 32: the chamber of blowing out opening (opening); 82: substrate parts; 100: air conditioner; CL: ceiling face.

The specific embodiment

＜structure 〉

Fig. 1 and Fig. 2 represent the air conditioner 100 of an embodiment of the 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 is the stereogram from the observed air conditioner 100 of indoor R side, and Fig. 2 represents the structure of ceiling face CL and the structure of air conditioner 100.Air conditioner 100 has thermostat unit 2, blows out chamber 3, suction chamber 4 (with reference to Fig. 4 (b)), gap enclosed web 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 41 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 41.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.

＜blow 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. 4 (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. 4 (a))) faced chamber.Suction chamber 4 is connected with suction line 41, and it will deliver to thermostat unit 2 from the air that indoor RS is taken into through suction line 41, and above-mentioned suction line 41 is connected with thermostat unit 2.

＜bearing support 〉

Bearing support 6 is formed by sheet metal, is the parts that are fixed in ceiling face CL and support radiant panel 1.Shown in Fig. 4 (c), bearing support 6 is the frameworks with rectangular configuration, and this bearing support 6 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 be provided with the mode on every side of opening 32.Bearing support 6 is combined to form by a plurality of linearity parts, and each linearity parts is the rail-like shape.The thickness of bearing support 6 (size of vertical direction) is littler than the size of horizontal direction, and bearing support 6 is in the thin shape of vertical direction on the whole.On bearing support 6, be provided with a plurality of screwed hole (not shown), so that screw thread is fixed on the ceiling 81 that constitutes ceiling face CL and on the substrate parts 82 of CS side bearing ceiling 81 in the ceiling by screw.The quantity of this screwed hole is set for more than the quantity that is used for fixing bearing support 6.In addition, in Fig. 2, only a substrate parts 82 has been added label, other have then been omitted.Bearing support 6 is and the parts that blow out chamber 3, radiant panel 1 and 5 splits of gap enclosed web, bearing support 6 can with blow out chamber 3, radiant panel 1 and gap enclosed web 5 and separate and be installed in independently on the ceiling face CL.

＜gap enclosed web 〉

Gap enclosed web 5 (gap closure members) is arranged on from the chamber of blowing out with the lamellar parts 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 enclosed web 5 is being fixed on the ceiling face CL on the ceiling face CL by paste paying, but also can fix by screw etc.Gap enclosed web 5 closing gaps, and as protecting the not contaminated antifouling thin plate of ceiling face CL to play a role.In addition, also can heat insulating member be set overlappingly with gap enclosed web 5.Perhaps, also can make gap enclosed web 5 have thermal insulation.Gap enclosed web 5 is than the thin thickness of bearing support 6, and has the rectangular configuration identical with bearing support 6.

＜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 enclosed web 5, bearing support 6 and radiant panel 1, and by 5 sealings of gap enclosed web, 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 shown in Figure 1, 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 Fig. 3 and Fig. 4 method to set up when in the house, this air conditioner 100 being set.

At first, in first step S1, make the chamber of blowing out opening 32.Here, shown in Fig. 4 (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. 4 (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. 4 (b), thermostat unit 2 is moved in the ceiling among the CS, 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. 4 (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. 4 (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 41.Here, shown in Fig. 4 (b), connect suction chamber 4 and thermostat unit 2 by suction line 41.In addition, suction line 41 is equipped on CS in the ceiling.

In the 7th step S7 (bearing support fixing step), carry out the fixing of bearing support 6.Here, shown in Fig. 4 (c), the bearing support 6 of fixed bearing radiant panel 1 on ceiling face CL.At this moment, as shown in Figure 2, bearing support 6 is observed to position with the overlapping mode of substrate parts 82 from vertical direction.And through screwed hole drivescrew in ceiling 81 and substrate parts 82 of bearing support 6, thereby bearing support 6 and ceiling 81 and substrate parts 82 are in the same place by screw threads for fastening.In addition, when bearing support 6 is made of the parts of a plurality of splits, can after each parts of assembling, bearing support 6 be fixed on the ceiling face CL, also can before assembling each parts, individually they be fixed on the ceiling face CL.

In the 8th step S8 (gap closure members fixing step), carry out the fixing of gap enclosed web 5.Here, shown in Fig. 4 (d), fixed interval (FI) enclosed web 5 on 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.Blow out the chamber with opening 32 for the size of blow-off outlet 31 same degree, but blow out chamber 3 in order to be provided with, blow out the chamber and form more bigger with opening 32 than blow-off outlet 31.Gap enclosed web 5 is provided with in order to seal this gap.Gap enclosed web 5 is pasted with the edge that is embedded in blow-off outlet 31 and the mode between the bearing support 6 and is paid on ceiling face CL.

In the 9th step S9 (radiant panel is provided with step), radiant panel 1 is set.Here, as Fig. 4 (e) and shown in Figure 2, 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 tenth step S10, carry out the installation of outrigger 7.Here, shown in Fig. 4 (f), 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 ten step S10.

＜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, because bearing support 6 is splits with gap enclosed web 5, so less to the configuration affects of gap enclosed web 5 when mounting support frame 6.Location when therefore, carrying out that easily bearing support 6 is installed to ceiling face CL.And also be fixed to easily thus, on the substrate parts 82 of the qualification position that is disposed at ceiling face CL.And,, can realize firm fixing by being fixed on the substrate parts 82.

(4)

In this air conditioner 100, because the chamber of blowing out is littler than bearing support 6 with opening 32, and bearing support 6 is splits with blowing out chamber 3, so when on ceiling face CL, bearing support 6 being set, the free degree height that the position is set of bearing support 6.That is, be positioned at the scope of the inboard of bearing support 6 with opening 32 blowing out the chamber, can freely set the position and the direction of bearing support 6.

(5)

In this air conditioner 100, since less as blowing out the chamber with the aperture efficiency that opening 32 is provided with on ceiling face CL, so construction work is simple.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 to must on ceiling face CL, wear bigger opening, so that construction work becomes is difficult.In addition, when on ceiling face CL, being provided with the opening of radiant panel 1 identical size, then bearing support 6 must be set with position according to this opening promptly with the big or small identical opening of the profile of bearing support 6.Therefore, the free degree step-down of the installation site of bearing support 6 is installed difficulty.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, and the installation of bearing support 6 is also easy.

＜other embodiments 〉

(1)

In the above-described embodiment, bearing support 6 is the parts of sheet metal system, but also can be resinous parts.Can realize the weight saving of bearing support 6 thus.

(2)

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

(3)

Tabular gap closure panel also can be set replace gap enclosed web 5.At this moment,, also can improve the installation free degree of bearing support 6, install easily thereby make by making gap closure panel and bearing support 6 for dividing body structure.

(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, blow out chamber 3 and thermostat unit 2 by managing to connect.Thus, the air after the adjustment that blows out from thermostat unit 2 is delivered to by pipe and is blown out chamber 3, and blows out from blow-off outlet 31.

(5)

In the above-described embodiment, bearing support 6 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 (8)

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);

Gap closure members (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), itself and described gap closure members (5) they are splits, this bearing support (6) is fixed on the described ceiling face (CL), and supports described radiant panel (1).

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

Described bearing support (6) is fixed on the substrate parts (82), and this substrate parts (82) constitutes the ceiling (81) of described ceiling face (CL) in the inboard supporting of ceiling.

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

Described bearing support (6) is arranged on apart from the position of described opening (32) preset distance around the described opening (32) of being located at described ceiling face (CL).

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

Described gap closure members (5) is arranged on from described opening (32) in the scope of described bearing support (6).

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

Described gap closure members (5) is the lamellar parts that are attached on the described ceiling face (CL).

6. air conditioner according to claim 1 (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).

7. according to each the described air conditioner (100) in the claim 1 to 6, it 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).

8. 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), 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;

Bearing support fixing step (S7), the bearing support (6) that will support described radiant panel (1) is fixed on the described ceiling face (CL);

Gap closure members fixing step (S8), will and described bearing support (6) split, seal described blow-off outlet (31) and be located at the gap closure members (5) in the gap between the described opening (32) of described ceiling face (CL), be fixed on the described ceiling face (CL); With

Radiant panel is provided with step (S9), described 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.

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