CN104214829A - Air conditioning device - Google Patents

Abstract

The invention provides an air conditioning device characterized by comprising a cabinet containing a plurality of influx hole parts and a plurality of discharging hole parts, a separation part dividing the inner space of the cabinet into a plurality of space parts, a heat exchange part movably installed on the separation part and exposing out of the plurality of spacing parts, an air supplying part enabling air flowing into the space parts to pass through the heat exchange part and enabling heat of the air to be absorbed by a heat exchanger and to be discharged out of the cabinet and a driving part driving the exposed part of the heat exchange part to move toward other space for heat transmission.

Description

Aircondition

Technical field

The present invention relates to aircondition, more specifically, relate to a kind of can by the room air of discharging indoor absorb heat and moisture, to flowing into indoor extraneous air supply heat and moisture, the foreign matter comprised in filtering external air, can carry out the aircondition of preheating to the extraneous air flowing into interior of equipment cabinet.

Background technology

If examine or check common heating form, the various ways such as central-heating formula, indivedual heating types can be divided into.

In most family, lay boiler tube on floor or flooring or install hot line additional, heat, different with it, in the office etc. of building, often use central-heating formula boiler, in the office of aedicula or businessman etc., often use electrically, combustion gas, oil radiator, particularly when electric radiator, there is many disadvantages due to power consumption at economic aspect, thus often use oil or gas heating stove.

But, if use oil or gas heating stove, then produce nitrogen oxide (NOx) and oxysulfide (SOx), carbon monoxide (CO) etc., there is the problem that indoor environment is worsened.

In addition, with regard to using the radiator of oil, there is user and need supply the trouble of oil and the difficulty of reply security incident constantly.

In addition, with regard to original electric radiator, because power consumption is many, there is maintenance expense than oil or the problem that gas heating stove is many, the thermal efficiency is low.

Therefore, propose in a large number recently and utilize electric drying machine to hold concurrently warm-air drier or electric radiator, wherein, domestic No. 20-0364832, mandate utility model publication mandate numbering " drying machine hold concurrently warm-air drier " comprising: urceolus, and it is formed with suction inlet, is formed with outlet; Filter, the suction inlet of itself and urceolus is installed communicatively, and the air for the pollution to indoor purifies; 1st inner core, it is installed on urceolus, forms the 1st path; 2nd inner core, it is installed on the 1st inner core; Heat-exchange tube, it has the 1st plate and the 2nd plate with multiple hole in the 2nd inner tube installation, be installed on hole; Heater, itself and heat-exchange tube, close to installing, generate heat by means of power suppling part and control part; Low-voltage transformer, it is for being supplied to the voltage of heater to boost; Pressure fan, it is for attracting outer gas, and the air heated by heater to be spued to outside by heat-exchange tube.

Background technology of the present invention is disclosed in No. 10-0655403rd, Republic of Korea's granted patent publication (on December 13rd, 2006 is announced, denomination of invention: the electrically warm braw hot gas heat collector of forced-air heating device).

Summary of the invention

Common aircondition Problems existing carries out warming operation, and while the room air of heating is discharged to the outside, the heat comprised in room air is also discharged, and is thus difficult to the thermal efficiency improving aircondition.

In addition, common aircondition need install other dust collect plant in order to the foreign matter comprised in filtering external air, thus there is the problem being difficult to reduce aircondition size.

In addition, common aircondition Problems existing is, when indoor and outdoor temperature contrast is serious, the outdoor air of low temperature flows into interior of equipment cabinet, simultaneously at interior of equipment cabinet generation noise, or there is mistake running and the breakage of aircondition in Cryogenic air while contacting with aircondition.

Therefore, need to improve this.

The object of the present invention is to provide a kind of can by the room air of discharging indoor absorb heat and moisture, to flowing into indoor extraneous air supply heat and moisture, the foreign matter comprised in filtering external air, can carry out the aircondition of preheating to the extraneous air flowing into interior of equipment cabinet.

The invention is characterized in, comprising: rack, it possesses multiple ostium portion and multiple tap portion; Separating part, the inner space of its described rack is separated into multiple spatial portion; Heat exchange department, it is displaceably installed on described separating part, installs a part ofly be exposed to multiple described spatial portion respectively; Air supplying part, it makes the air of the described spatial portion of inflow through described heat exchange department, and the heat comprised in air is adsorbed by described heat exchanger, is discharged to described rack outside; And drive division, it makes the extending part of described heat exchange department move to other space, carries out heat trnasfer.

In addition, it is characterized in that, described rack of the present invention comprises: main body, and it is formed with described ostium portion and described tap portion, has opening portion; Door, it is installed on described opening portion in the mode of energy opening and closing, possesses transparent panel, makes it possible to identify described body interior; And bracket, it forms the insertion groove portion inserted for heat-barrier material, is installed on described main body, to install described separating part.

In addition, it is characterized in that, described ostium portion of the present invention comprises: the 1st ostium portion, and it is provided to described body upper, and room air is guided to the 2nd spatial portion; And the 2nd ostium portion, it is provided to described body upper, and outdoor air is guided to the 1st spatial portion; Described tap portion comprises: the 1st tap portion, and it is provided to described body upper, and the room air passing described heat exchange department from described 1st spatial portion is guided to described body exterior; And the 2nd tap portion, it is provided to described body upper, guides to described body exterior from the outdoor air of described 2nd spatial portion through described heat exchange department.

In addition, it is characterized in that, described separating part of the present invention comprises: support, and it supports described heat exchange department in revolvable mode; Multiple separation panel, it is installed between described support and described bracket, separates a part for described spatial portion, installs for described air supplying part; And support panel, it is installed between multiple described separation panel, separates described spatial portion, be formed for described heat exchange department insert in revolvable mode install curved face part additional.

In addition, it is characterized in that, described support of the present invention comprises: the 1st support, and it is configured at the front of described heat exchange department, vertically stands on the central portion of described main body, installs for described drive division; And the 2nd support, it is configured at the rear of described heat exchange department, vertically stands on the central portion of described main body, installs for the stator being equipped with mounting ring.

In addition, it is characterized in that, described separation panel of the present invention comprises: the 1st separates panel, and it is installed between a sidepiece of described 1st spatial portion and a sidepiece of described 1st support; And the 2nd separates panel, it is installed between the other side of described 2nd spatial portion and the other side of described 2nd support; The described 1st separate panel and the described 2nd separate panel is formed install for described air supplying part wear via portion, to pass through the air of described heat exchange department.

In addition, it is characterized in that, described support panel of the present invention comprises: the 1st support panel, and it separates a sidepiece of described 1st spatial portion and described 2nd spatial portion; And the 2nd support panel, it separates the other side of described 1st spatial portion and described 2nd spatial portion; Install additional described in described 1st spatial portion and install curved face part additional described in curved face part and described 2nd spatial portion and configure opposite each other, form the hole portion of the circle inserted for described heat exchange department.

In addition, it is characterized in that, described in of the present invention, install curved face part additional, the guiding groove portion inserted for multiple containment member is installed, for making described containment member be adjacent to heat exchange department and be provided with elastic component between multiple described containment member, described elastic component is inserted in described mounting ring.

In addition, it is characterized in that, described air supplying part of the present invention comprises: the 1st blowing fan, and it is installed on described in described 1st separation panel and wears via portion, makes described 2nd spatial portion of inflow also be discharged to described rack outside through the air of described heat exchange department; And the 2nd blowing fan, it is installed on the described 2nd and separates described in panel and wear via portion, makes described 1st spatial portion of inflow and to be discharged to described rack through the air of described heat exchange department outside.

In addition, it is characterized in that, at the back side of described 1st support panel of the present invention, for filtering the foreign matter that comprises in the air of described 1st blowing fan side supply, the 1st filter being installed in the sliding tray portion of described 2nd support and described bracket; Before described 2nd support panel, in the sliding tray portion of described 1st support and described bracket, the 2nd filter is installed for filtering the foreign matter that comprises in the air of described 2nd blowing fan side supply.

In addition, it is characterized in that, described heat exchange department of the present invention comprises: install component additional, and it is installed on described support in revolvable mode, installs curved face part inside additional described in making to be configured at; And heat-absorbing member, its insert described in install component additional, from the absorption of air heat installing component described in passing additional.

In addition, it is characterized in that, install component described in of the present invention additional and comprise: rotating shaft, it is installed on described support in revolvable mode; Ring element, itself and described rotating shaft keep interval, are formed with circle, lay for described heat-absorbing member; Demarcation strip, it connects described rotating shaft and described ring element, and the space of described ring element inside is separated into multiple space; And arch rib, it is installed between described demarcation strip, prevent described heat-absorbing member from departing from from described ring element, and described ring element forms interval, forms the access hole portion inserted for described heat-absorbing member.

In addition, it is characterized in that, described heat-absorbing member of the present invention comprises porous material and forms, and comprises in polyester Nomex, Kevlar fabric, polyester, nylon, Fiber Materials, short fiber, fabric, wire or polyester fiber material at least a certain.

In addition, it is characterized in that, described wire of the present invention comprises aluminium alloy or stainless steel alloy is formed.

In addition, it is characterized in that, the present invention also comprises preheating part, and it is installed on the some described spatial portion in multiple described spatial portion, makes the air preheat of the described spatial portion of inflow.

In addition, it is characterized in that, described preheating part of the present invention comprises: branch pipe, and it, from described 1st ostium part discrimination, is connected to described 2nd ostium portion; And guide panel, it is installed on described 1st ostium portion, guides room air to described branch pipe side.

In addition, it is characterized in that, described preheating part of the present invention comprises: compressor, and it makes refrigerant compression become HTHP; Condenser, it makes the condensation of refrigerant of being supplied by described compressor; Expansion valve, it makes to discharge heat the cold-producing medium supplied from described condenser, converts the liquid condition of low-temp low-pressure to, cuts off heat to the extraneous air transmission flowed into by described 2nd ostium portion; And evaporimeter, it makes the cold-producing medium evaporation of supplying from described expansion valve, absorbs the heat by described 1st ostium portion leaked-in air.

In addition, it is characterized in that, described preheating part of the present invention comprises: hot line, and it is installed on described 1st spatial portion, is heated by described 1st ostium portion leaked-in air; And reflecting plate, it receives described hot line, makes the heat reflection provided from described hot line to described 1st side, ostium portion.

In addition, it is characterized in that, described preheating part of the present invention comprises: guiding tube, and it is inner that it is installed on described 2nd ostium portion, configure and described 2nd maintenance interval, ostium portion; And hot line, it is inner that it is installed on described guiding tube, is heated by the extraneous air that described 2nd ostium portion flows into.

In addition, it is characterized in that, described preheating part of the present invention comprises: supply pipe, and it is to described 2nd ostium portion supply fuel; Valve, it is installed on described supply pipe, carries out opening and closing to described supply pipe; Mixing tube, it is installed on described 2nd ostium portion, mixes the fuel and outdoor air supplied by described supply pipe; Spark plug, it is installed on described mixing tube, provides spark to the mist along described mixing tube movement; And flameholder, it is installed on described mixing tube, prevents spark from flowing into interior of equipment cabinet.

In addition, it is characterized in that, described preheating part of the present invention comprises circulation pipe, and it connects inflow part and the spitting unit of described air supplying part, makes by means of described air supplying part that leaked-in air is recycled to other spatial portion, makes from outside leaked-in air preheating.

In addition, it is characterized in that, described circulation pipe of the present invention comprises: pass-over offset, and it is from the 1st blowing fan difference being installed on the 1st spatial portion flowed into for outdoor air multiple described spatial portion; Heat-exchange tube, it extends from described pass-over offset, and make by means of described 1st blowing fan and a part for the room air of movement passes described 1st spatial portion, diameter is formed less than described pass-over offset, bends to coiled type and is installed on described 1st spatial portion; And guiding tube, it extends from described heat-exchange tube, extends to the 1st tap portion discharged for room air, and the room air transmitting heat to the outdoor air through described 1st spatial portion is discharged.

In addition, it is characterized in that, described heat-exchange tube of the present invention is provided with multiple heat trnasfer panel, described heat trnasfer panel comprises aluminium material or stainless steel is formed.

Aircondition of the present invention absorbs the heat comprised in the room air be discharged to the outside, pass to and flow into indoor extraneous air, thus other heating part is not required, the size of aircondition can be reduced, because the size of aircondition reduces, thus there is the advantage that can make the small-sized aircondition used in the family.

In addition, aircondition of the present invention absorbs the heat comprised in room air and also passes to extraneous air, thus has can prevent the hot type comprised in room air from going out, improve the advantage of the aircondition thermal efficiency.

In addition, the 1st ostium portion for room air discrepancy of aircondition of the present invention and the 1st tap portion, the 2nd ostium portion supplying outdoor air to come in and go out and the 2nd tap portion are all formed at the one side of rack, thus have the outer wall that can be installed on the building possessing window, the advantage of easily carrying out stringing.

In addition, aircondition of the present invention can trap 90% of heat and the moisture comprised in room air, passes to and flows into indoor extraneous air, heat and moisture thus can be prevented to be discharged to outdoor, have the advantage that effectively can improve the thermal efficiency.

In addition, aircondition of the present invention can carry out preheating to the extraneous air flowing into interior of equipment cabinet and supplies, thus can prevent because of the outdoor air of low temperature at interior of equipment cabinet generation noise, mistake running and the breakage of the aircondition occurred because of the outdoor air of low temperature can be prevented, there is the advantage that more effectively can improve the thermal efficiency of aircondition.

Accompanying drawing explanation

Fig. 1 is the stereogram of the aircondition of diagram the present invention the 1st embodiment.

Fig. 2 is the exploded perspective view of the aircondition of diagram the present invention the 1st embodiment.

Fig. 3 is the stereogram of the cabinet structure of the aircondition of diagram the present invention the 1st embodiment.

Fig. 4 is the exploded perspective view of the heat exchange department of the aircondition of diagram the present invention the 1st embodiment.

Fig. 5 is the stereogram installing the syndeton of component and heat-absorbing member additional of the aircondition of diagram the present invention the 1st embodiment.

Fig. 6 is the stereogram above of the aircondition of diagram the present invention the 1st embodiment.

Fig. 7 is the stereogram of the aircondition of diagram the present invention the 2nd embodiment.

Fig. 8 is the stereogram of the preheating part of the aircondition of diagram the present invention the 2nd embodiment.

Fig. 9 is the profile of the preheating part of the aircondition of diagram the present invention the 2nd embodiment.

Figure 10 is the top view of the aircondition of diagram the present invention the 3rd embodiment.

Figure 11 is the stereogram of the aircondition of diagram the present invention the 4th embodiment.

Figure 12 is the stereogram of the aircondition of diagram the present invention the 5th embodiment.

Figure 13 is the stereogram of the aircondition of diagram the present invention the 6th embodiment.

Figure 14 is the stereogram of the aircondition of diagram the present invention the 7th embodiment.

Figure 15 is the stereogram of the aircondition of diagram the present invention the 8th embodiment.

Symbol description

10: rack 10a: the 1 spatial portion

10b: the 2 spatial portion 12: main body

12a: opening portion 14: door

14a: transparent panel 16: bracket

17: heat-barrier material 18: insertion groove portion

22: ostium portion of ostium portion 22a: the 1

22b: the 2 ostium portion 24: tap portion

24a: the 1 tap portion of tap portion 24b: the 2

30: separating part 32: separate panel

32a: the 1 separates panel 32b: the 2 separates panel

32c: wear via portion 32d: staggered floor portion

32e: zigzag part 34: support panel

34a: the 1 support panel 34b: the 2 support panel

34c: install curved face part 34d additional: guiding groove portion

35: containment member 35a: elastic component

36: support 36a: the 1 support

36b: the 2 support 37: fixed part

38: sliding tray portion 39: stator

39a: mounting ring 50: heat exchange department

52: install component 52a additional: rotating shaft

52b: demarcation strip 52c: arch rib

52d: ring element 52e: access hole portion

54: heat-absorbing member 70: air supplying part

72: the 1 blowing fan 74: the 2 blowing fans

76: the 1 filter 78: the 2 filters

80: drive division 82: motor

84: bearing 86: bonding pad

Detailed description of the invention

With reference to the accompanying drawings, an embodiment of aircondition of the present invention is described.

In this process, the thickness of illustrated line or the size etc. of inscape in accompanying drawing, can illustrate turgidly for the clear property illustrated and facility.

In addition, term described later is the function considered in the present invention and the term defined, and this can be different because of the intention of user, fortune user or convention.

Therefore, should make based on this description in the whole text content the definition of this term.

Fig. 1 is the stereogram of the aircondition of diagram the present invention the 1st embodiment, Fig. 2 is the exploded perspective view of the aircondition of diagram the present invention the 1st embodiment, Fig. 3 is the stereogram of the cabinet structure of the aircondition of diagram the present invention the 1st embodiment, Fig. 4 is the exploded perspective view of the heat exchange department of the aircondition of diagram the present invention the 1st embodiment, Fig. 5 is the stereogram installing the syndeton of component and heat-absorbing member additional of the aircondition of diagram the present invention the 1st embodiment, and Fig. 6 is the stereogram above of the aircondition of diagram the present invention the 1st embodiment.

As shown in Figures 1 to 6, the aircondition of one embodiment of the invention comprises: rack 10, and it possesses multiple ostium portion 22 and multiple tap portion 24; Separating part 30, the inner space of its rack 10 is separated into multiple spatial portion 10a, 10b; Heat exchange department 50, it is displaceably installed on separating part 30, installs a part ofly be exposed to multiple spatial portion 10a, 10b respectively; Air supplying part 70, it makes the air of inflow space portion 10a, 10b through heat exchange department 50, and the heat comprised in air is adsorbed by heat exchanger, makes air be discharged to rack 10 outside; Drive division 80, it makes the extending part of heat exchange department 50 move to other space, carries out heat trnasfer.

Heat exchange department 50 is installed a part ofly be exposed to multiple spatial portion 10a, 10b respectively, thus the air of a certain spatial portion 10a, 10b is flowed into by ostium portion 22 after passing heat exchange department 50, while being discharged to rack 10 outside by tap portion 24, transmitting heat to heat exchange department 50 and move.

After heat is absorbed by a part for heat exchange department 50, the part absorbing the heat exchange department 50 of heat by means of the running of drive division 80 moves to another spatial portion 10a, 10b, the air of another spatial portion 10a, 10b is flowed in the simultaneously stability heat through heat exchange department 50 by means of the running of air supplying part 70, by tap portion 24, while being discharged to rack 10 outside, transmit heat.

As mentioned above, by means of the running of drive division 80, heat exchange department 50 transmits heat while commuting multiple spatial portion 10a, 10b, by means of the running of air supplying part 70, in multiple spatial portion 10a, 10b, different air passes, thus heat with moisture by the absorption of air from high temperature to heat exchange department 50, to through heat exchange department 50 low temperature transfer of air heat and moisture.

Therefore, the present embodiment absorbs heat from the high temperature air of discharging and to the transfer of air of low temperature, thus can reclaim used heat, carry out the heating of family or business sales field or industrial factory, shows the effect that heat supply efficiency improves.

In addition, the present embodiment just can the transfer of air warm of the indoor supply of subtend without the need to other heater, thus can reduce the accessory number of aircondition and the size of aircondition, can be used in home-use or small-sized sales field.

Rack 10 comprises: main body 12, and it is formed with ostium portion 22 and tap portion 24, has opening portion 12a; Door 14, it is installed on opening portion 12a in the mode of energy opening and closing, possesses transparent panel 14a, makes it possible to identify that main body 12 is inner; And bracket 16, it forms the insertion groove portion 18 inserted for heat-barrier material 17, is installed on main body 12, to install separating part 30.

Main body 12 is formed with hexahedron shape, before main body 12, be equipped with opening portion 12a, the door 14 opening portion 12a being carried out to opening and closing be installed, on the inwall of main body 12, be provided with and bend to “ Xi " a pair bracket 16 of shape, be mounted to the face of the opening of bracket 16 opposite each other.

A pair bracket 16, on the top view of main body 12, forwards configures with rear from central authorities with being spaced from each other, and at the back side of bracket 16 being configured at before the bracket 16 at rear and being configured at front, is provided with the support panel 34 inserted for heat exchange department 50.

The cross sectional shape of bracket 16 bends to “ Xi " shape, form the insertion groove portion 18 inserted for shaft-like heat-barrier material 17.

Therefore, in the inwall of main body 12, along above, two sides and bottom surface, heat-barrier material 17 is placed to " mouth " shape.

Heat-barrier material 17 is all installed on the inwall of spatial portion 10a, the 10b flowed into for extraneous air, and be installed on before support panel 34 and the back side, thus, in spatial portion 10a, 10b inwall, except the position of exposing for heat exchange department 50, all heat-barrier material 17 is installed.

Therefore, by means of heat-barrier material 17, can suppress to be discharged to rack 10 by the heat that heat exchange department 50 traps outside.

Door 14 is installed on the lower end of opening portion 12a in revolvable mode, the upper end of door 14 comprises: framework, and it is connected to main body 12 by means of open and close member in the mode that can dismantle; Transparent panel 14a, it is installed on framework.

Therefore, by transparent panel 14a, operator can confirm that the 1st spatial portion 10a is inner, when carrying out the reconditioning work of heat exchange department 50 and changing operation, open door 14, heat exchange department 50 and drive division 80 are separated, and can place under repair operation or replacing operation.

Ostium portion 22 comprises: the 1st ostium portion 22a, and it is provided to above main body 12, and room air is guided to the 2nd spatial portion 10b; 2nd ostium portion 22b, it is provided to above main body 12, and outdoor air is guided to the 1st spatial portion 10a; Tap portion 24 comprises: the 1st tap portion 24a, and it is provided to above main body 12, passes the room air of heat exchange department 50 to main body 12 exterior guiding from the 2nd spatial portion 10b; 2nd tap portion 24b, it is provided to above main body 12, passes the outdoor air of heat exchange department 50 to main body 12 exterior guiding from the 1st spatial portion 10a.

In the present embodiment, 1st ostium portion 22a, the 2nd ostium portion 22b, the 1st tap portion 24a and the 2nd tap portion 24b are all installed on above main body 12, thus at the airduct of discharging for room air and for the bottom of the airduct of outdoor air inflow, rack 10 is installed, branch pipe from each airduct difference is connected with the 1st ostium portion 22a, the 2nd ostium portion 22b, the 1st tap portion 24a and the 2nd tap portion 24b, and install an air-conditioner device.

As mentioned above, in the present embodiment, all airducts are connected to above rack 10, thus certain one side in the back side of rack 10 or two sides can be installed on wall body, thus easily can carry out the installation of rack 10.

Separating part 30 comprises: support 36, and it supports heat exchange department 50 in revolvable mode; Multiple separation panel 32, it is installed between support 36 and bracket 16, and a part of the compartment portion 10a, 10b, installs for air supplying part 70; Support panel 34, it is installed between multiple separation panel 32, the compartment portion 10a, 10b, be formed for heat exchange department 50 insert in revolvable mode install curved face part 34c additional.

Support 36 is vertically installed in long way at the central portion of main body 12, and heat exchange department 50 is installed on the central authorities of support 36 in revolvable mode.

Support panel 34 be equipped with form circular port portion install curved face part 34c additional so that heat exchange department 50 inserts central portion in revolvable mode, the interior separation of main body 12 is become front and rear, separate the 1st spatial portion 10a and the 2nd spatial portion 10b.

Separating panel 32 is installed between support panel 34 and bracket 16, the half of cover heating exchange part 50, thus flow into the side half of air through heat exchange department 50 of the 1st spatial portion 10a, flow into the opposite side half of air through heat exchange department 50 of the 2nd spatial portion 10b.

At side or the opposite side of heat exchange department 50, if from air capture to heat, so, by means of the running of drive division 80, heat exchange department rotates, and the side of heat exchange department 50 and opposite side are reversed, therefore, the heat trnasfer trapped by heat exchange department 50 gives the air through another space.

Absorb heat from the room air through the 2nd spatial portion 10b as above, pass to the extraneous air through the 1st spatial portion 10a, the extraneous air thus to indoor supply can to absorb the state supply of heat.

Support 36 comprises: the 1st support 36a, and it is configured at the front of heat exchange department 50, vertically stands on the central portion of main body 12, installs for drive division 80; 2nd support 36b, it is configured at the rear of heat exchange department 50, stands on the central portion of main body 12 along vertical mode, installs for the stator 39 possessing mounting ring 39a.

The top and bottom of the 1st support 36a and the 2nd support 36b bend in outward direction, form fixed part 37, therefore, fixed part 37 be incorporated into main body 12 above and bottom surface, install make the 1st support 36a and the 2nd support 36b along vertically side is upright.

1st support 36a and the 2nd support 36b installs keep interval, and the interval between the 1st support 36a and the 2nd support 36b, is provided with heat exchange department 50 in revolvable mode.

At the central portion of the 1st support 36a and the 2nd support 36b, be separately installed with bearing 84, the rotating shaft 52a both ends of heat exchange department 50 are incorporated into pair of bearings 84, install in revolvable mode.

On the 1st support 36a, be provided with and surround the bonding pad 86 of bearing 84, on stator 39, the motor 82 forming drive division 80 is installed, if thus access power supply to motor 82, then make heat exchange department 50 rotate.

In the upper end of the 2nd support 36b and lower end, stator 39 is installed, stator 39 is formed the mounting ring 39a inserted for elastic component 35a, thus prevent the elastic component 35a connecting containment member 35 to be separated from the 2nd support 36b.

Separate panel 32 to comprise: the 1st separates panel 32a, and it is installed between a sidepiece of the 1st spatial portion 10a and a sidepiece of the 1st support 36a; 2nd separates panel 32b, and it is installed between the other side of the 2nd spatial portion 10b and the other side of the 2nd support 36b; The 1st separate panel 32a and the 2nd separate panel 32b is formed install for air supplying part 70 wear via portion 32c, to pass through the air of heat exchange department 50.

Staggered floor portion 32d is formed in the 1st outboard end separating panel 32a and the 2nd separation panel 32b, to be incorporated into bracket 16, zigzag part 32e is formed with, to be incorporated into the 1st support 36a and the 2nd support 36b at the 1st medial end separating panel 32a and the 2nd separation panel 32b.

1st separates the side that panel 32a is installed on the 1st spatial portion 10a obliquely, thus the side of cover heating exchange part 50, make inflow the 1st spatial portion 10a also pass air the other side through heat exchange department 50 of heat exchange department 50.

2nd separates the opposite side that panel 32b is installed on the 2nd spatial portion 10b obliquely, thus the opposite side of cover heating exchange part 50, make inflow the 2nd spatial portion 10b also pass the sidepiece of air through heat exchange department 50 of heat exchange department 50.

Therefore, it is possible to prevent at the 1st spatial portion 10a and the 2nd spatial portion 10b inner, room air mixes mutually with extraneous air.

Support panel 34 comprises: the 1st support panel 34a, and it separates a sidepiece of the 1st spatial portion 10a and the 2nd spatial portion 10b; 2nd support panel 34b, it separates the other side of the 1st spatial portion 10a and the 2nd spatial portion 10b; The curved face part 34c that installs additional installing curved face part 34c and the 2nd spatial portion 10b additional of the 1st spatial portion 10a configures opposite each other, forms the hole portion of the circle inserted for heat exchange department 50.

At the 1st support panel 34a and the 2nd support panel 34b, what be formed with formation semicircle shape respectively installs curved face part 34c additional, 1st support panel 34a and the 2nd support panel 34b configures make each install curved face part 34c additional opposite each other, thus installs the hole portion that curved face part 34c connects and composes circle for a pair additional.

Be provided with the guiding groove portion 34d inserted for multiple containment member 35 installing curved face part 34c additional, between multiple containment member 35, be provided with elastic component 35a for making containment member 35 be adjacent to heat exchange department 50, elastic component 35a is inserted in mounting ring 39a.

Guiding groove portion 34d is installing additional before curved face part 34c and the back side is combined with the counter plate formed with shaped form, and be made up of the interval formed between a counter plate, guiding groove portion 34d is formed shorter than installing curved face part 34c additional.

Therefore, configuring opposite each other when installing curved face part 34c additional a pair, when circle is formed hole portion, between a pair guiding groove portion 34d, being formed with interval, therefore, form the space of placing for elastic component 35a.

Air supplying part 70 comprises: the 1st blowing fan 72, its be installed on the 1st separate panel 32a wear via portion 32c, make inflow the 2nd spatial portion 10b and to be discharged to rack 10 through the air of heat exchange department 50 outside; 2nd blowing fan 74, its be installed on the 2nd separate panel 32b wear via portion 32c, make inflow the 1st spatial portion 10a and to be discharged to rack 10 through the air of heat exchange department 50 outside.

1st blowing fan 72 and the 2nd blowing fan 74 are by axially sucking air, forming to the tube-axial fan of shell side discharge air.

1st blowing fan 72 be installed on the 1st separate panel 32a wear via portion 32c, make to be moved to outside rack 10 by the 1st tap portion 24a from the 2nd spatial portion 10b through the air of heat exchange department 50.

2nd blowing fan 74 be installed on the 2nd separate panel 32b wear via portion 32c, make to be moved to outside rack 10 by the 2nd tap portion 24b from the 1st spatial portion 10a through the air of heat exchange department 50.

At the back side of the 1st support panel 34a, the sliding tray portion 38 of the 2nd support 36b with bracket 16 are provided with the 1st filter 76, make to filter the foreign matter comprised in the air of the 1st blowing fan 72 side supply, before the 2nd support panel 34b, the sliding tray portion 38 and bracket 16 of the 1st support 36a are provided with the 2nd filter 78, make to filter the foreign matter comprised in the air of the 2nd blowing fan 74 side supply.

Therefore, in the air to the 1st blowing fan 72 and the supply of the 2nd blowing fan 74 foreign matter that comprises by the 1st filter 76 and the 2nd filter 78 filter, therefore, the present embodiment plays the effect the heat exchanger of heat trnasfer to extraneous air and to indoor supply of absorption of air indoor, meanwhile, the effect of the air purifier filtering the foreign matter comprised in indoor leaked-in air is played.

Heat exchange department 50 comprises: install component 52 additional, and it is installed on support 36 in revolvable mode, makes to be configured to install curved face part 34c inside additional; Heat-absorbing member 54, it is inserted in and installs component 52 additional, from hot through the absorption of air installing component 52 additional.

Install component 52 additional to be formed with the plectane frame-like being separated into multiple space, so that the heat-absorbing member 54 be made up of polylith can insert, thus multiple heat-absorbing member 54 is inserted in and installs component 52 additional.

Install component 52 additional to comprise: rotating shaft 52a, it is installed on support 36 in revolvable mode; Ring element 52d, itself and rotating shaft 52a keep interval, formed, lay for heat-absorbing member 54 with circle; Demarcation strip 52b, it connects rotating shaft 52a and ring element 52d, and the space of ring element 52d inside is separated into multiple space; Arch rib 52c, it is installed between demarcation strip 52b, prevent heat-absorbing member 54 from departing from from ring element 52d, and ring element 52d forms interval, forms the access hole portion 52e inserted for heat-absorbing member 54.

Ring element 52d is the curved surface panel formed with ring-type, and because demarcation strip 52b becomes multiple space ring element 52d interior separation, the space thus between demarcation strip 52b is inserted with heat-absorbing member 54 respectively.

Between demarcation strip 52b, be formed with the arch rib 52c of trellis, thus prevent the heat-absorbing member 54 inserted between demarcation strip 52b from externally departing from, between the outboard end and ring element 52d of arch rib 52c, be formed with interval, form the access hole portion 52e inserted for heat-absorbing member 54.

Wherein, heat-absorbing member 54 comprises porous material and forms, and comprises at least a certain formation in polyester Nomex (polyester needle-punched felt), Kevlar fabric (kevlar), polyester, nylon, Fiber Materials, short fiber (staples), fabric, wire (wire) or polyester fiber (polyester fiber) material.

When comprising polyester Nomex material and forming, the porous material comprising 90 ~ 94% is formed, and can be made up of the polyester Nomex of 60 daniers (denier) with 6 ~ 6.5lb/ft3 density.

In addition, when heat-absorbing member 54 comprises wire formation, wire comprises aluminium alloy or stainless steel alloy, and with thread formation, many silks groups are agglomerating, form block heat-absorbing member 54.

The running of the aircondition of the one embodiment of the invention that examination is below formed as mentioned above.

First, the exhaust airduct extended indoor is connected to the 1st ostium portion 22a, the suction airduct extended externally to indoor is connected to the 2nd ostium portion 22b, at outer wall or the inwall installation rack 10 of building.

If to aircondition access power supply, then plant-grid connection the 1st blowing fan 72, the 2nd blowing fan 74 and motor 82, by the 1st ostium portion 22a, room air flows into the 2nd spatial portion 10b, through the room air of the 1st filter 76 and heat-absorbing member 54 through the 1st blowing fan 72, be discharged to the outside by the 1st tap portion 24a.

Now, the foreign matter comprised in room air is filtered by the 1st filter 76, and while passing heat-absorbing member 54, the heat comprised in room air and moisture are absorbed by heat-absorbing member 54.

Flow into the extraneous air of rack 10 inside by means of the 2nd blowing fan 74, flow into the 2nd spatial portion 10b by the 2nd ostium portion 22b inner, after the 2nd filter 78 and heat-absorbing member 54, through the 2nd blowing fan 74, be fed to indoor by the 2nd tap portion 24b.

The component 52 that installs additional of storage heat-absorbing member 54 rotates by means of the power transmitted from motor 82, thus, absorption of air heat to move to and the 2nd blowing fan 74 position in opposite directions with the heat-absorbing member 54 of moisture indoor, provides heat and moisture to the extraneous air through heat-absorbing member 54.

Therefore, the heat comprised in room air and moisture transmission, to extraneous air, are supplied to indoor again, thus can improve indoor heat supply efficiency, can humidity in holding chamber comfortable.

In addition, the extraneous air supplied by the 2nd ostium portion 22b is while passing the 2nd filter 78 and heat-absorbing member 54, and the foreign matter comprised in extraneous air is removed, and therefore enables the state that room air keeps comfortable.

Fig. 7 is the stereogram of the aircondition of diagram the present invention the 2nd embodiment, and Fig. 8 is the stereogram of the preheating part of the aircondition of diagram the present invention the 2nd embodiment, and Fig. 9 is the profile of the preheating part of the aircondition of diagram the present invention the 2nd embodiment.

As shown in Figure 7 to 9, the aircondition of the present invention the 2nd embodiment, compared with the 1st embodiment, also comprises preheating part 100, and it is installed on some spatial portion 10a, 10b in multiple spatial portion 10a, 10b, makes the air preheat of inflow space portion 10a, 10b.

Flow into the air of some spatial portion 10a, the 10b in multiple spatial portion 10a, 10b, be preheated while contacting with preheating part 100, thus can prevent from spatial portion 10a, 10b inside, noise occurring because of the Cryogenic air of 10a, 10b inside, inflow space portion, again transmitting heat through while heat exchange department 50, thus demonstrate the effect that heat supply efficiency improves further.

Preheating part 100 comprises: branch pipe 102, and it is connected to the 2nd ostium portion 22b from the 1st ostium portion 22a difference; Guide panel 104, it is installed on the 1st ostium portion 22a, guides room air to branch pipe 102 side.

Therefore, the part in the room air of the 2nd spatial portion 10b is flowed into along the 1st ostium portion 22a, guide to branch pipe 102 side by means of guide panel 104, supply along branch pipe 102 to the 2nd ostium portion 22b, transmit heat to the extraneous air flowed into along the 2nd ostium portion 22b simultaneously.

The extraneous air flowed into along the 2nd ostium portion 22b mixes with the room air supplied along branch pipe 102, and the temperature of extraneous air rises simultaneously, thus can prevent from, in the 1st spatial portion 10a inside, noise occurs.

Figure 10 is the top view of the aircondition of diagram the present invention the 3rd embodiment.

As shown in Figure 10, the preheating part 200 of the aircondition of the present invention the 3rd embodiment comprises: compressor 202, and it makes refrigerant compression become HTHP; Condenser 204, it makes the condensation of refrigerant of being supplied by compressor 202; Expansion valve 206, it makes to discharge heat the cold-producing medium supplied from condenser 204, converts the liquid condition of low-temp low-pressure to, cuts off heat to the extraneous air transmission flowed into by the 2nd ostium portion 222b; Evaporimeter 208, it makes the cold-producing medium evaporation of supplying from expansion valve 206, absorbs by the 1st ostium portion 222a and the heat of leaked-in air.

Compressor 202 becomes HTHP refrigerant compression and provides, and the cold-producing medium supplied from compressor 202 after condensation, is expanding through while expansion valve 206, discharging heat while passing condenser 204.

Expansion valve 206 is configured at inside the 2nd ostium portion 222b, thus transmits heat to the outdoor air flowed into by the 2nd ostium portion 222b, carries out state change, change into the liquid of low-temp low-pressure.

From cold-producing medium gasification while passing evaporimeter 208 of the low-temp low-pressure that expansion valve 206 provides, now, absorb hot from the room air supplied by the 1st ostium portion 222a.

By means of running as above, a part for the heat comprised can be passed to outdoor air in room air.

Figure 11 is the stereogram of the aircondition of diagram the present invention the 4th embodiment.

As shown in figure 11, the preheating part 300 of the aircondition of the present invention the 4th embodiment comprises: hot line 302, and it is installed on the 1st spatial portion 10a (with reference to Fig. 7), is heated by the 2nd ostium portion 322b leaked-in air; Reflecting plate 304, it is accommodated with hot line 302, makes the heat provided from hot line 302 to the 2nd ostium portion 322b lateral reflection.

If supply power supply to hot line 302, then by means of heat energy, demonstrate the effect being heated by the extraneous air that the 2nd ostium portion 322b supplies.

In addition, the heat energy that hot line 302 provides by means of reflecting plate 304 to the 2nd ostium portion 322b lateral reflection, therefore, it is possible to be effectively heated by the 2nd ostium portion 322b supply extraneous air.

Figure 12 is the stereogram of the aircondition of diagram the present invention the 5th embodiment.

As shown in figure 12, the preheating part 400 of the aircondition of the present invention the 5th embodiment comprises: guiding tube 402, and it is inner that it is installed on the 2nd ostium portion 422b, configure and the 2nd ostium portion 422b keep interval; Hot line 404, it is inner that it is installed on guiding tube 402, is heated by the extraneous air that the 2nd ostium portion 422b flows into.

Between guiding tube 402 and the 2nd ostium portion 422b, keep compartment of terrain to install, therefore, the extraneous air supplied by the 2nd ostium portion 422b is supplied by the inside of guiding tube 402 and the interval between guiding tube 402 and the 2nd ostium portion 422b, now, by means of the heat energy supplied from hot line 404, extraneous air is heated and is supplied.

Figure 13 is the stereogram of the aircondition of diagram the present invention the 6th embodiment.

As shown in figure 13, the preheating part 400 of the aircondition of the present invention the 6th embodiment comprises: supply pipe 402, and it supplies fuel to the 2nd ostium portion 422b; Valve 404, it is installed on supply pipe 402, carries out opening and closing to supply pipe 402; Mixing tube 406, it is installed on the 2nd ostium portion 422b, mixes with outdoor air the fuel supplied by supply pipe 402; Spark plug 407, it is installed on mixing tube 406, provides spark to the mist along mixing tube 406 movement; Flameholder 408, it is installed on mixing tube 406, prevents spark from flowing into rack 410 inner.

By supply pipe 402 supply gas fuel, after valve 404 is opened, extraneous air mixes at mixing tube 406 with gaseous fuel, and by means of the spark of spark plug 407 supply, flame occurs, extraneous air is heated.

Now, the flame occurred in mixing tube 406 does not flow into rack 410 inside, therefore, it is possible to prevent rack 410 inside unnecessarily overheated because of flame by the flameholder 408 being installed on mixing tube 406.

Figure 14 is the stereogram of the aircondition of diagram the present invention the 7th embodiment.

As shown in figure 14, the preheating part 100 of the aircondition of the present invention the 7th embodiment also comprises circulation pipe 106, it connects the inflow part of air supplying part 70 and spitting unit, makes by means of air supplying part 70 that leaked-in air circulates to another spatial portion, makes from outside leaked-in air preheating.

In the present embodiment, when room air is flowed into by the 1st ostium portion 22a, by guide panel 104 and the 2nd ostium portion 102, a part for room air moves to outdoor air side, while the outdoor air preheating making inflow rack 10 inside, move along circulation pipe 106 to the 1st spatial portion 10a side, therefore, the outdoor air flowed into along the 2nd ostium portion 22b carries out heat exchange with the room air through circulation pipe 106, and the temperature of outdoor air rises simultaneously.

Therefore, it is possible to prevent from, in the 1st spatial portion 10a inside, noise occurs.

Wherein, circulation pipe 106 bends to coiled type and is installed on the 1st spatial portion 10a inside, the contact area between the extraneous air of inflow the 1st spatial portion 10a inside and circulation pipe 106 is increased, can make the effective preheating of extraneous air.

Circulation pipe 106 comprises: pass-over offset 106a, and it is installed on the 1st blowing fan 72 difference of the 1st spatial portion 10a flowed into for outdoor air from 10a, 10b multiple spatial portion; Heat-exchange tube 106b, it extends from pass-over offset 106a, and make by means of the 1st blowing fan 72 and a part for the room air of movement passes the 1st spatial portion 10a, diameter is formed less than pass-over offset 106a, bends to coiled type and is installed on the 1st spatial portion 10a; Guiding tube 106c, it extends from heat-exchange tube 106b, extends to the 1st tap portion 24a discharged for room air, and the room air transmitting heat to the outdoor air through the 1st spatial portion 10a is discharged.

Pass-over offset 106a is formed to difference from the shell side of formation the 1st blowing fan 72 to lower side, therefore, by means of the driving of the 1st blowing fan 72, flows into a part for the room air of enclosure by pass-over offset 106a, to the 1st spatial portion 10a medial movement.

Pass-over offset 106a is compared with heat-exchange tube 106b, diameter is formed fully large, therefore, room air easily can flow into inside the 1st spatial portion 10a from the enclosure of formation the 1st blowing fan 72, by pass-over offset 106a to the room air of the 1st spatial portion 10a medial movement along heat-exchange tube 106b, while circulation the 1st spatial portion 10a, transmit heat to outdoor air.

Therefore, it is possible to increase the contact area between the outdoor air of inflow the 1st spatial portion 10a inside and heat-exchange tube 106b, effectively preheating can flow into the outdoor air of the 1st spatial portion 10a inside, prevent from, in the 1st spatial portion 10a inside, noise occurs.

Figure 15 is the stereogram of the aircondition of diagram the present invention the 8th embodiment.

As shown in figure 15, at the heat-exchange tube 106b of the aircondition of the present invention the 8th embodiment, be provided with multiple heat trnasfer panel 106d, heat trnasfer panel 106d comprises aluminium material or stainless steel is formed.

With the 2nd ostium portion 22b the 1st spatial portion 10a in opposite directions inside, multiple heat trnasfer panel 106d keeps interval and vertically installs, and heat-exchange tube 106b installs to obtain through multiple heat trnasfer panel 106d in left-right direction, forms the shape of heat-exchange device.

Therefore, after conducting to heat-exchange tube 106b and heat trnasfer panel 106d through the heat of the room air of heat-exchange tube 106b, to the outdoor air transmission of contact heat-exchange tube 106b and heat trnasfer panel 106d, make the outdoor air preheating of inflow the 1st spatial portion 10a inside simultaneously.

Now, the heat trnasfer panel 106d comprising aluminium material or stainless steel formation is high due to pyroconductivity, thus makes the heat of transfer of air indoor effectively pass to outdoor air, thus can more effectively prevent from, in the 1st spatial portion 10a inside, noise occurs.

Can aircondition being provided thus, heat and moisture can be absorbed by the room air of discharging indoor, to flowing into indoor extraneous air supply heat and moisture, the foreign matter comprised in filtering external air, preheating can flow into the extraneous air of interior of equipment cabinet.

The present invention is with an embodiment illustrated in accompanying drawing for reference to being illustrated, but this is example, as long as person of ordinary skill in the field just can understand, can derive other embodiment of various deformation and equalization thus.

In addition, be illustrated for the aircondition being installed on building, but this is example, in other goods of aircondition being not installed on building, also can uses aircondition of the present invention.

Therefore, real technical protection scope of the present invention should be determined by following claims.

Claims (23)

1. an aircondition, is characterized in that, comprising:

Rack, it possesses multiple ostium portion and multiple tap portion;

Separating part, the inner space of its described rack is separated into multiple spatial portion;

Heat exchange department, it is displaceably installed on described separating part, installs a part ofly be exposed to multiple described spatial portion respectively;

Air supplying part, it makes the air of the described spatial portion of inflow through described heat exchange department, and the heat comprised in air is adsorbed by described heat exchanger, is discharged to described rack outside; And

Drive division, it makes the extending part of described heat exchange department move to other space, carries out heat trnasfer.

2. aircondition according to claim 1, is characterized in that, described rack comprises:

Main body, it is formed with described ostium portion and described tap portion, has opening portion;

Door, it is installed on described opening portion in the mode of energy opening and closing, possesses transparent panel, makes it possible to identify described body interior; And

Bracket, it forms the insertion groove portion inserted for heat-barrier material, is installed on described main body, to install described separating part.

3. aircondition according to claim 2, is characterized in that, described ostium portion comprises:

1st ostium portion, it is provided to described body upper, and room air is guided to the 2nd spatial portion; And

2nd ostium portion, it is provided to described body upper, and outdoor air is guided to the 1st spatial portion;

Described tap portion comprises:

1st tap portion, it is provided to described body upper, and the room air passing described heat exchange department from described 1st spatial portion is guided to described body exterior; And

2nd tap portion, it is provided to described body upper, and the outdoor air passing described heat exchange department from described 2nd spatial portion is guided to described body exterior.

4. aircondition according to claim 3, is characterized in that, described separating part comprises:

Support, it supports described heat exchange department in revolvable mode;

Multiple separation panel, it is installed between described support and described bracket, separates a part for described spatial portion, installs for described air supplying part; And

Support panel, it is installed between multiple described separation panel, separates described spatial portion, be formed for described heat exchange department insert in revolvable mode install curved face part additional.

5. aircondition according to claim 4, is characterized in that, described support comprises:

1st support, it is configured at the front of described heat exchange department, vertically stands on the central portion of described main body, installs for described drive division; And

2nd support, it is configured at the rear of described heat exchange department, vertically stands on the central portion of described main body, installs for the stator being equipped with mounting ring.

6. aircondition according to claim 5, is characterized in that, described separation panel comprises:

1st separates panel, and it is installed between a sidepiece of described 1st spatial portion and a sidepiece of described 1st support; And

2nd separates panel, and it is installed between the other side of described 2nd spatial portion and the other side of described 2nd support;

The described 1st separate panel and the described 2nd separate panel is formed install for described air supplying part wear via portion, to pass through the air of described heat exchange department.

7. aircondition according to claim 5, is characterized in that, described support panel comprises:

1st support panel, it separates a sidepiece of described 1st spatial portion and described 2nd spatial portion; And

2nd support panel, it separates the other side of described 1st spatial portion and described 2nd spatial portion;

Install additional described in described 1st spatial portion and install curved face part additional described in curved face part and described 2nd spatial portion and configure opposite each other, form the hole portion of the circle inserted for described heat exchange department.

8. aircondition according to claim 7, is characterized in that,

Install curved face part additional described, be provided with the guiding groove portion inserted for multiple containment member, between multiple described containment member, be provided with elastic component for making described containment member be adjacent to heat exchange department, described elastic component is inserted in described mounting ring.

9. aircondition according to claim 7, is characterized in that, described air supplying part comprises:

1st blowing fan, it is installed on described in described 1st separation panel and wears via portion, makes described 2nd spatial portion of inflow also be discharged to described rack outside through the air of described heat exchange department; And

2nd blowing fan, it is installed on described in described 2nd separation panel and wears via portion, makes described 1st spatial portion of inflow also be discharged to described rack outside through the air of described heat exchange department.

10. aircondition according to claim 9, is characterized in that,

At the back side of described 1st support panel, for filtering the foreign matter that comprises in the air of described 1st blowing fan side supply, the 1st filter is installed in the sliding tray portion of described 2nd support and described bracket;

Before described 2nd support panel, in the sliding tray portion of described 1st support and described bracket, the 2nd filter is installed for filtering the foreign matter that comprises in the air of described 2nd blowing fan side supply.

11. airconditions according to claim 4, is characterized in that, described heat exchange department comprises:

Install component additional, it is installed on described support in revolvable mode, installs curved face part inside additional described in making to be configured at; And

Heat-absorbing member, its be inserted in described in install component additional, from the absorption of air heat installing component described in passing additional.

12. airconditions according to claim 11, is characterized in that, described in install component additional and comprise:

Rotating shaft, it is installed on described support in revolvable mode;

Ring element, itself and described rotating shaft keep interval, are formed with circle, lay for described heat-absorbing member;

Demarcation strip, it connects described rotating shaft and described ring element, and the space of described ring element inside is separated into multiple space; And

Arch rib, it is installed between described demarcation strip, prevent described heat-absorbing member from departing from from described ring element, and described ring element forms interval, forms the access hole portion inserted for described heat-absorbing member.

13. airconditions according to claim 11, is characterized in that,

Described heat-absorbing member comprises porous material and forms, and comprises in polyester Nomex, Kevlar fabric, polyester, nylon, Fiber Materials, short fiber, fabric, wire or polyester fiber material at least a certain.

14. airconditions according to claim 13, is characterized in that,

Described wire comprises aluminium alloy or stainless steel alloy is formed.

15. airconditions according to claim 3, is characterized in that, also comprise:

Preheating part, it is installed on the some described spatial portion in multiple described spatial portion, makes the air preheat of the described spatial portion of inflow.

16. airconditions according to claim 15, is characterized in that, described preheating part comprises:

Branch pipe, it, from described 1st ostium part discrimination, is connected to described 2nd ostium portion; And

Guide panel, it is installed on described 1st ostium portion, guides room air to described branch pipe side.

17. airconditions according to claim 15, is characterized in that, described preheating part comprises:

Compressor, it makes refrigerant compression become HTHP;

Condenser, it makes the condensation of refrigerant of being supplied by described compressor;

Expansion valve, it makes to discharge heat the cold-producing medium supplied from described condenser, converts the liquid condition of low-temp low-pressure to, by heat to the extraneous air transmission flowed into by described 2nd ostium portion; And

Evaporimeter, it makes the cold-producing medium evaporation of supplying from described expansion valve, absorbs the heat by described 1st ostium portion leaked-in air.

18. airconditions according to claim 15, is characterized in that, described preheating part comprises:

Hot line, it is installed on described 1st spatial portion, is heated by described 1st ostium portion leaked-in air; And

Reflecting plate, it receives described hot line, makes the heat reflection provided from described hot line to described 1st side, ostium portion.

19. airconditions according to claim 15, is characterized in that, described preheating part comprises:

Guiding tube, it is inner that it is installed on described 2nd ostium portion, configure and described 2nd maintenance interval, ostium portion; And

Hot line, it is inner that it is installed on described guiding tube, is heated by the extraneous air that described 2nd ostium portion flows into.

20. airconditions according to claim 15, is characterized in that, described preheating part comprises:

Supply pipe, it is to described 2nd ostium portion supply fuel;

Valve, it is installed on described supply pipe, carries out opening and closing to described supply pipe;

Mixing tube, it is installed on described 2nd ostium portion, mixes the fuel and outdoor air supplied by described supply pipe;

Spark plug, it is installed on described mixing tube, provides spark to the mist along described mixing tube movement; And

Flameholder, it is installed on described mixing tube, prevents spark from flowing into interior of equipment cabinet.

21. airconditions according to claim 15, is characterized in that,

Described preheating part comprises circulation pipe, and it connects inflow part and the spitting unit of described air supplying part, makes by means of described air supplying part that leaked-in air is recycled to other spatial portion, makes from outside leaked-in air preheating.

22. airconditions according to claim 21, is characterized in that, described circulation pipe comprises:

Pass-over offset, it is from the 1st blowing fan difference being installed on the 1st spatial portion flowed into for outdoor air multiple described spatial portion;

Heat-exchange tube, it extends from described pass-over offset, and make by means of described 1st blowing fan and a part for the room air of movement passes described 1st spatial portion, diameter is formed less than described pass-over offset, bends to coiled type and is installed on described 1st spatial portion; And

Guiding tube, it extends from described heat-exchange tube, extends to the 1st tap portion discharged for room air, and the room air transmitting heat to the outdoor air through described 1st spatial portion is discharged.

23. airconditions according to claim 22, is characterized in that,

Described heat-exchange tube is provided with multiple heat trnasfer panel, and described heat trnasfer panel comprises aluminium material or stainless steel is formed.