CN205245389U - Outdoor machine - Google Patents

Abstract

The utility model discloses an outdoor machine possesses: a compressor. The bottom surface panel, it disposes in the downside of compressor, supports the compressor, first side panel, it sets up in all marginal parts of bottom surface panel, second side panel, it disposes in the opposition position of first side panel to set up in all marginal parts of bottom surface panel, outdoor heat exchanger, it is supported by the upside of bottom surface panel to extend from first side panel side direction second side panel side, this outdoor machine is via the refrigerant piping and connect in the indoor set, and outdoor heat exchanger's tip sets up the side end opposition for the party with second side panel, and the bottom surface panel includes the protruding portion, and this protruding portion forms the part that corresponds at the tip with outdoor heat exchanger, and sticks out to the one side from first side panel to the side of the second.

Description

Off-premises station

Technical field

The utility model relates to the off-premises station of refrigerating circulatory device.

Background technology

In the past, in the off-premises station of the refrigerating circulatory devices such as aircondition, for example received in framework insideCompressor, heat exchanger and pressure fan etc. are received. In addition, the off-premises station of aircondition is via systemCryogen pipe arrangement and being connected with the indoor set that is accommodated with heat exchanger and pressure fan etc. And, if driveMoving pressure fan, heat exchanger is supplied with extraneous air, air with in the mobile refrigeration of heat exchangerHeat exchange is carried out in agent. What refrigerating circulatory device had heat, the ability of refrigeration etc., depends on skyThe heat exchange amount of gas and cold-producing medium. That is, the size of heat exchanger is larger, more can guarantee large systemHeat energy power, refrigerating capacity.

The shape of the base panel of the off-premises station of recording in patent documentation 1 is rectangle. And, heatInterchanger is for example set to extend along the long side direction of base panel. Larger heat can be handed over thusParallel operation is accommodated in the framework of off-premises station.

Patent documentation 1: Japanese kokai publication hei 5-133571 communique

The off-premises station operated by rotary motion of aircondition without. The feelings of off-premises station for example, are set in apartmentUnder condition, off-premises station is arranged on balcony. In the house of only, easily as garden etc. guarantee chamberOuter machine space is set, but compare with house of only etc., the balcony in apartment is mostly narrow,Therefore space is set and easily produces restriction. Like this, be not only the indoor set being arranged within doors, andAlso there is the expectation of wanting minification in the off-premises station arranging without.

By increasing the size of framework of off-premises station, larger sized heat exchanger can be arranged onIn framework, thereby can guarantee larger heating capacity, refrigerating capacity. But, if off-premises stationThe size of framework increases, and is likely difficult to as described above off-premises station to be disposed at outside room.

Utility model content

The utility model is to make in order to solve above such problem, and object is to provide oneKind can suppress to maximize and can carry larger heat exchanger (outdoor heat converter)Off-premises station.

Off-premises station of the present utility model, possesses: compressor; Base panel, it is disposed at described pressureThe downside of contracting machine, and support described compressor; The first side panel, it is arranged at described bottom surface faceThe circumference of plate; The second side panel, it is disposed at the opposed locations of described the first side panel,And be arranged at the circumference of described base panel; And outdoor heat converter, it is by described bottom surface faceThe upper side bearing of plate, and extend from the second side panel side described in described the first side panel side direction,Described off-premises station is connected with indoor set via refrigerant piping, wherein, and described outdoor heat converterEnd be set to a side's of described the second side panel side end opposed, described base panelComprise protuberance, this protuberance is formed on the part corresponding with the end of described outdoor heat converter,And to side-prominent towards described the second side panel from described the first side panel.

Preferably, also possess valve, this valve is disposed at a side that is provided with described the second side panel,And connect described refrigerant piping, described protuberance is formed as: than the position that described valve is set more toOne side-prominent from described the first side panel towards described the second side panel.

Preferably, the edge of described protuberance is formed with inclined-plane, and this inclined-plane is towards described base panelIn be positioned at the part of the downside of described valve, described the second side panel is formed as along described protuberanceEdge.

Preferably, also possess fixed panel, it is arranged on described base panel, and is provided withDescribed valve.

Preferably, described base panel comprises: the first bight, it is corresponding to the shape of described protuberanceBecome position; And second bight, it is positioned at the downside of valve described in described base panel, and describedTwo side faces panel is arranged on described the first bight, and described fixed panel is arranged at described second jiaoOn portion.

Preferably, also possess cover, it is disposed on the circumference of described base panel, and to coverThe mode of covering described valve is arranged at the opposed locations of described fixed panel, and described cover is formed with drawsPortion, this lead division is for drawing the described refrigerant piping that is connected in described valve.

Preferably, also possess top panel, it is to cover the side on top of described outdoor heat converterFormula, is arranged at the upper end of described the first side panel and described the second side panel, described solidDetermine panel, described cover and described the second side panel and be set to described end face from described base panelPanel.

Preferably, also possess front surface panel, it is arranged at the circumference of described base panel,One end of this front surface panel is provided with described the first side panel, arranges to some extent in the other endState the second side panel, at the downside of the other end of described front surface panel, be formed with front surfaceIncised notch portion, at the downside of the end of the described front surface panel side of described the second side panel, formsHave side incised notch portion, described cover is arranged at described front surface incised notch portion and described side incised notch portion.

According to off-premises station of the present utility model, owing to possessing said structure, therefore can suppress large-scaleChange, and can carry larger heat exchanger (outdoor heat converter).

Brief description of the drawings

Figure 1A represents the refrigeration of the aircondition of the off-premises station that possesses embodiment of the present utility modelThe example that agent loop forms.

Figure 1B represents with refrigerant piping the off-premises station of embodiment of the present utility model and indoorThe state that machine connects.

Fig. 2 A is the stereogram of the off-premises station of embodiment of the present utility model.

Fig. 2 B is the front view of the off-premises station of embodiment of the present utility model.

Fig. 2 C is the cutaway view of the off-premises station of embodiment of the present utility model.

Fig. 3 A is the figure that observes the off-premises station of embodiment of the present utility model from the side on right side.

Fig. 3 B is the shape of pulling down the various component parts such as outdoor heat converter and pressure fan from frameworkThe stereogram of the off-premises station of state.

Fig. 4 is the top view of the base panel of the off-premises station of embodiment of the present utility model.

Fig. 5 A is the valve of off-premises station of embodiment of the present utility model and key diagram around thereof.

Fig. 5 B is base panel, the stationary plane that represents the off-premises station of embodiment of the present utility modelThe key diagram of plate, valve, refrigerant piping and cover etc.

Fig. 5 C is the key diagram of pulling down the state of the cover of Fig. 5 B.

Fig. 6 A is the stereogram of the off-premises station of the variation 1 of embodiment of the present utility model.

Fig. 6 B is the front view of the off-premises station of the variation 1 of embodiment of the present utility model.

Fig. 7 A is the cutaway view that represents the off-premises station of the variation 2 of embodiment of the present utility model.

Fig. 7 B is that the off-premises station that represents the variation 2 of embodiment of the present utility model has adopted thisThe state of the lid panel of embodiment.

Fig. 7 C is that the off-premises station that represents the variation 2 of embodiment of the present utility model has adopted changeThe state of the lid panel of shape example 1.

Fig. 8 A is the cutaway view that represents the off-premises station of the variation 3 of embodiment of the present utility model.

Fig. 8 B is that the off-premises station that represents the variation 3 of embodiment of the present utility model has adopted thisThe state of the lid panel of embodiment.

Fig. 8 C is that the off-premises station that represents the variation 3 of embodiment of the present utility model has adopted changeThe state of the lid panel of shape example 1.

Fig. 9 A is the cutaway view that represents the off-premises station of the variation 4 of embodiment of the present utility model.

Fig. 9 B is that the off-premises station that represents the variation 4 of embodiment of the present utility model has adopted thisThe state of the lid panel of embodiment.

Fig. 9 C is that the off-premises station that represents the variation 4 of embodiment of the present utility model has adopted changeThe state of the lid panel of shape example 1.

Figure 10 A is the analysing and observe of off-premises station that represents the variation 5 of embodiment of the present utility modelFigure.

Figure 10 B is that the off-premises station that represents the variation 5 of embodiment of the present utility model has adopted thisThe state of the lid panel of embodiment.

Figure 10 C is that the off-premises station that represents the variation 5 of embodiment of the present utility model has adopted changeThe state of the lid panel of shape example 1.

Figure 11 A is the analysing and observe of off-premises station that represents the variation 6 of embodiment of the present utility modelFigure.

Figure 11 B is that the off-premises station that represents the variation 6 of embodiment of the present utility model has adopted thisThe state of the lid panel of embodiment.

Figure 11 C is that the off-premises station that represents the variation 6 of embodiment of the present utility model has adopted changeThe state of the lid panel of shape example 1.

Figure 12 is that level is analysed and observe the schematic diagram while observing the off-premises station of existing aircondition.

Description of reference numerals: 1A ... top panel; 1B ... front surface panel; 1B1 ... peristome;1B2 ... fan grill; 1BH ... front surface incised notch portion; 1C ... the second side panel; 1CC ... theOne side panel; 1CH ... side incised notch portion; 1CT ... inclined-plane; 1D ... cover; 1D1 ... front surfacePortion; 1D2 ... side surface part; 1D3 ... lead division; 1D4 ... terminal board protection portion; 1E ... base panel;1E1 ... circumference; 1F ... fixed panel; 1FF ... lid panel; 2 ... outdoor heat converter; 2AThe first heat exchange department; 2B ... the second heat exchange department; 2C ... the 3rd heat exchange department; 2C1 ... hairpin-typeElbow portion; 3 ... pressure fan; 3A ... motor bracket; 4 ... compressor; 5 ... demarcation strip; 6 ... electrical equipmentBox; 7 ... valve; 7A ... valve; 7B ... valve; 8 ... cross valve; 9 ... throttling arrangement; 10D ... cover;20 ... cold-producing medium flow component; 21 ... bending part; 22 ... bending part; 100 ... off-premises station; 150Indoor set; 151 ... indoor heat converter; 152 ... pressure fan; 200 ... aircondition; C ... bight;C2 ... bight; J ... protuberance; J1 ... inclined-plane; J2 ... incised notch portion; J3 ... recess; P ... cold-producing mediumPipe arrangement; Q ... mounting portion; R1 ... Machine Room; R2 ... supply fan room; SP ... enclosure space.

Detailed description of the invention

Below, with reference to accompanying drawing etc., the off-premises station 100 of the embodiment to utility model describes.At this, including Fig. 1, the parts that mark same reference numerals in following accompanying drawing are identicalOr suitable parts with it, general in the following embodiment of recording.

Embodiment

Figure 1A and Figure 1B are the airconditions 200 that possesses the off-premises station 100 of present embodimentSchematic diagram. Figure 1A represents the example that the refrigerant loop of aircondition 200 forms. Figure1B represents to connect with refrigerant piping P the state of off-premises station 100 and indoor set 150. In addition,In the present embodiment, illustrate that refrigerating circulatory device asks the example of the situation of aircondition 200.

About aircondition 200

Aircondition 200 is configured to: have indoor set 150 and off-premises station 100 and their use systemsCryogen pipe arrangement P connects. Indoor set 150 has indoor heat converter 151 etc., this Indoor Thermal exchangeDevice 151 grades in the time of cooling operation as evaporimeter bring into play function, heating when running as condenserPerformance function. And the cryogenic energy being generated by off-premises station 100 or high temperature energy are via cold-producing mediumPipe arrangement P and providing and delivering to indoor set 150.

Off-premises station 100 is for example disposed at mansion, apartment, house etc. outdoor of only, via systemCryogen pipe arrangement P supplies with cryogenic energy or high temperature energy to indoor set 150. Carry at off-premises station 100Have: the compressor 4 of compressed refrigerant, the cross valve 8 of switching stream, the joint that cold-producing medium is reduced pressureStream device 9, make air and cold-producing medium carry out the outdoor heat converter 2 of heat exchange and to outdoorThe air fed pressure fan 3 of heat exchanger 2 etc.

Indoor set 150 is for example disposed at indoor grade like that can be colod-application to air-conditioning object space the supply systemAir or heat the position with air, to the colod-application air of air-conditioning object space the supply system or heat with emptyGas. Indoor set 150 is equipped with: make air and cold-producing medium carry out the indoor heat converter of heat exchange151 and to the air fed pressure fan 152 of indoor heat converter 151.

At this, indoor heat converter 151, cross valve 8 and throttling arrangement 9 are described.Indoor heat converter 151 is at cold-producing medium and the room air of being sent into indoor set 150 by pressure fan 152Between carry out heat exchange, make condensation of refrigerant liquefaction heating when running, in the time of cooling operation, make systemCryogen evaporation gasification. Cross valve 8 to heat when running cold-producing medium flow with cooling operation andThe mobile of cold-producing medium when defrosting running switches. This cross valve 8, in the time heating running, will be pressedThe discharge side of contracting machine 4 is connected with indoor heat converter 151, and by the attraction side of compressor 4 withOutdoor heat converter 2 connects. In addition, in the time of cooling operation and defrosting running, by compressor 4Discharge side be connected with outdoor heat converter 2, and the attraction side of compressor 4 and Indoor Thermal are handed overParallel operation 151 connects. Throttling arrangement 9 makes reduce pressure and expand at the cold-producing medium of refrigerant loop circulation.One side of throttling arrangement 9 is connected in outdoor heat converter 2, and the opposing party is connected in indoor heat converter151. This throttling arrangement 9 can be controlled as aperture variable, for example, be made up of electric expansion valve etc.Can. In addition, will be described hereinafter for other structures (compressor 4 etc.).

Next, the kind of refrigeration cycle action to the refrigerant loop representing in the figure with reference to Figure 1ADescribe. At this, the mobile of cold-producing medium that heats running described. Heat running openWhen beginning, cross valve 8 switches stream as represented in Figure 1A. Compress and discharge by compressor 4Gas refrigerant, the inflow indoor heat exchanger 151 via cross valve 8. Flow into this indoorThe gas refrigerant of heat exchanger 151, implements heat with the room air of supplying with from pressure fan 152 and hands overChange and condensation, and flow out from indoor heat converter 151. Flow out from this indoor heat converter 151Cold-producing medium flow throttling device 9, is expanded and reduces pressure by this throttling arrangement 9. Post-decompression cold-producing mediumInflow outdoor heat exchanger 2, implements heat exchange with the outdoor air of supplying with from pressure fan 3 and gasifies,And flow out from outdoor heat converter 2. Should be from outdoor heat converter 2 effluent air cold-producing mediums, warpBe attracted to compressor 4 by cross valve 8.

About off-premises station 100

Fig. 2 A～Fig. 2 C is the signal of structure of the off-premises station 100 for present embodiment is described etc.Figure. Fig. 3 A and Fig. 3 B are the key diagrams of framework of the off-premises station 100 of present embodiment etc.Fig. 4 is the top view of the base panel 1E of the off-premises station 100 of present embodiment. Fig. 2 A is chamberThe stereogram of outer machine 100, Fig. 2 B is the front view of off-premises station 100, Fig. 2 C is off-premises stationCutaway view. In addition, at the state of pulling down shown in Fig. 2 A～Fig. 2 C after cover 1D. Fig. 3 A be fromThe figure that the side on the right side of off-premises station 100 is observed. Fig. 3 B pulls down outdoor heat converter from framework2 and the stereogram of the off-premises station 100 of the state of the various component parts such as pressure fan 3.

Off-premises station 100 has outdoor heat converter 2 etc., and these outdoor heat converter 2 grades are in refrigeration fortuneWhile turning, bring into play function, in the time heating running, bring into play function as evaporimeter as condenser. BelowExplanation in, front surface panel 1B is defined as to the front surface (front) of off-premises station, will be towards justFace and a side mark that disposes the first side panel 1CC are decided to be left side, will be towards positive and configurationThere is a side mark of the second side panel 1C to be decided to be right side.

The framework of off-premises station 100 comprises: top panel 1A, and it forms the upper surface of off-premises station 100;Front surface panel 1B, it forms the front surface of off-premises station 100; The first side panel 1CC, itsForm the left surface of off-premises station 100; The second side panel 1C, it forms the right side of off-premises station 100Side; Fan grill 1B2, its be arranged at front surface panel 1B and form off-premises station 100 beforeThe part on surface; And base panel 1E, it forms the bottom surface of off-premises station 100. At this,The first side panel 1CC, front surface panel 1B and the second side panel 1C are and circumferenceThe structure that plate is corresponding. That is, side face panel is disposed on the circumference 1E1 of base panel 1E,Exist side by side and be located at base panel 1E.

In addition, off-premises station 100 is equipped with: be left side and the right side by the spatial division in off-premises station 100Compressor 4, the horizontal profile of demarcation strip 5, compression the discharging refrigerant of side are shaped as L word shapeOutdoor heat converter 2, to outdoor heat converter 2 supply with extraneous air pressure fan 3 andKeep the motor bracket 3A of pressure fan 3 etc. In addition, be also equipped with electrical appliance kit at off-premises station 100(omitting diagram), this electrical appliance kit is provided with the control of the rotating speed of controlling cross valve 8 and compressor 4Device processed etc.

In addition, off-premises station 100 also possesses: fixed panel 1F, it is to be positioned at the inner side of side face panelMode be disposed at the bight C of base panel 1E, and erect in base panel 1E; Lid panel1FF, it is connected in fixed panel 1F; Valve 7, it is fixed on fixed panel 1F, and connects refrigerationAgent pipe arrangement P; And cover 1D, it is installed as and covers valve 7.

Top panel 1A

Top panel 1A forms the upper surface of off-premises station 100. Top panel 1A is with warm outside covering chamberThe mode on the top of interchanger 2 is arranged at the upper end of side face panel. The front side of top panel 1AEnd and left end are set to: connect with front surface panel 1B and the first side panel 1CCTouch and be supported, the right-hand end of top panel 1A is set to contact with the second side panel 1CAnd be supported. Top panel 1A is for example by formations such as metallic plates.

Front surface panel 1B and the first side panel 1CC

Front surface panel 1B forms a part for the front surface of off-premises station 100. Front surface panel 1BBe provided with the first side panel 1CC in the end in left side, be provided with the second side in the end on right sidePanel 1C. In addition, front surface panel 1B has also set up cover 1D in the end on right side. In addition,In the present embodiment, the first side panel 1CC and front surface panel 1B link and structure integratedlyBecome.

The bottom of front surface panel 1B is arranged on the circumference 1E1 of base panel 1E,And the upper end at front surface panel 1B is provided with top panel 1A. In addition, front surface panelThe right-hand end of the front surface component part in 1B is set to: before the second side panel 1CThe side end of side. In addition, be for example formed with and become extraneous air suction inlet at front surface panel 1BCircular peristome 1B1. In addition, fan grill 1B2 is set to and the formation of peristome 1B1Position is opposed. Front surface panel 1B is for example by formations such as metallic plates.

At the downside by the end of the second side panel 1C side of front surface panel 1B, before being formed withThe surface incised notch 1BH of portion. Dispose cover 1D at this front surface incised notch 1BH of portion.

The first side panel 1CC is arranged at the circumference 1E1 of base panel 1E. And first sideFaceplate panels 1CC is arranged on the part corresponding with a side's of base panel 1E minor face. The second sidePanel 1C is disposed at the opposed locations of the first side panel 1CC. The first side panel 1CC'sThe side surface part of front side is set to along the end in the left side of front surface panel 1B. For to outdoor heatInterchanger 2 air supplies, are formed with multiple peristomes at the first side panel 1CC.

The second side panel 1C

The second side panel 1C forms a part and the right flank of the rear surface of off-premises station 100.The horizontal profile shape of this second side panel 1C is roughly L word shape, the second side panel 1CErect in base panel 1E vertical, and be configured in side and the rear side of compressor 4. SecondThe anterior end of side panel 1C is set to contact with front surface panel 1B, the second side panelThe upper end of 1C is set to contact with top panel 1A, and bottom is set to and base panel 1EContact. The second side panel 1C is for example by formations such as metallic plates.

The second side panel 1C as described later, is the circumference 1E1 along base panel 1EShape, and be formed with inclined-plane 1CT. When along this inclined-plane 1CT pull-out refrigerant piping P,Refrigerant piping P is gently bending, therefore can suppress refrigerant piping P damage etc.

Forward surface panel 1B side at the second side panel 1C is the downside of the end of forward side,Be formed with the 1CH of side incised notch portion. Dispose cover 1D at the 1CH of this side incised notch portion.

Fan grill 1B2

Fan grill 1B2 forms a part for the front surface of off-premises station 100, for preventing user etc.Because of pressure fan 3 injured etc. This fan grill 1B2 is for example the grid being made up of vertical grid and horizontal gridShape parts.

Base panel 1E

Base panel 1E forms a part for the bottom surface of off-premises station 100. Base panel 1E is configurationIn the downside of compressor 4 and outdoor heat converter 2 etc., support compressor 4 and outdoor heat are handed overThe rectangular-shaped parts of parallel operation 2. In base panel, 1E comprises: with the position pair that forms protuberance JThe bight C2 (corresponding with the first bight) answering and with the bight C corresponding to position of configuration valve 7 (withThe second bight correspondence).

The circumference 1E1 that is formed with vertical and erects at the periphery of base panel 1E. , peripheryThe 1E1 of portion is the flange shape part that is formed at the circumference of base panel 1E. At base panel 1EUpside be provided with outdoor heat converter 2, compressor 4 and demarcation strip 5 etc. Base panel 1EFor example formed by metallic plate etc.

Base panel 1E comprises protuberance J, and this protuberance J-shaped is formed in the second side panel is setThe circumference 1E1 of 1C, and along continuous straight runs is outstanding. The outdoor heat of this protuberance J-shaped Cheng Yu is handed overPart corresponding to end of the first heat exchange department 2A of parallel operation 2, and along continuous straight runs is outstanding. ProminentGo out portion's J-shaped become than the position that valve 7 is set more to from the first side panel 1CC towards the second sideFaceplate panels 1C's is one side-prominent. In addition, the edge of protuberance J is formed with inclined-plane J1, this inclined-planeJ1 is positioned at the part of the downside of valve 7 in base panel 1E. Therefore the second side panel 1CAlso be formed as corresponding with the shape of the protuberance J of base panel 1E. , the second side panel 1CBe formed as along the edge of protuberance J, and be formed with the inclined-plane parallel with inclined-plane J1.

Demarcation strip 5

Demarcation strip 5 is configured to: will dispose a side of compressor 4 and valve 7 and dispose outdoorOne side of heat exchanger 2 and pressure fan 3 is separated. , demarcation strip 5 marks off: as establishingPut compressor 4 and valve 7 etc. a side Machine Room R1 and as arrange outdoor heat converter 2,The supply fan room R2 of a side of pressure fan 3 and motor bracket 3A etc. Demarcation strip 5 for example configuresOn base panel 1E. And the leading section of demarcation strip 5 is disposed at front surface panel 1B, afterThe end of outdoor heat converter 2 is fixed in end.

Compressor 4

Compressor 4 sucks cold-producing medium, and this cold-producing medium is compressed, and makes it in high temperature, heightThe state of pressing is also discharged. Compressor 4 is connected in cross valve 8 via pipe arrangement, this cross valve 8 is cutChange flowing of cold-producing medium, thereby switch cooling operation and heat running. Around compressor 4Dispose demarcation strip 5, front surface panel 1B and fixed panel 1F etc. In addition, at compressor4 top is provided with the electrical appliance kit (omitting diagram) for various controls etc. In addition, compressor 4Can carry on the setting table that is placed at base panel 1E setting, and without directly loading in bottom surfaceOn panel 1E.

Outdoor heat converter 2

Outdoor heat converter 2 is being sent between the air and cold-producing medium of off-premises station 100 by pressure fan 3Carry out heat exchange, in the time of cooling operation, make condensation of refrigerant liquefaction, in the time heating running, make cold-producing mediumEvaporation gasification. Outdoor heat converter 2 is for example arranged on base panel 1E. In addition, outdoorHeat exchanger 2 can carry and be placed on the setting table that base panel 1E arranges, and without directlyLoad on base panel 1E. On the top of outdoor heat converter 2, establish in the mode hangingBe equipped with motor bracket 3A. Outdoor heat converter 2 is for example made up of fin tube type heat exchanger, itsCold-producing medium that can be mobile in heat pipe and by carrying out heat exchange between the air of fin.

Outdoor heat converter 2 comprises: with from the first side panel 1CC towards the second side panelThe first heat exchange department 2A that the direction of 1C is extended abreast, the second bending heat exchange department 2B,And be set to opposed the 3rd heat exchange department 2C with the first side panel 1CC. The first heat exchangeThe 2A of portion is connected with the second heat exchange department 2B, the second heat exchange department 2B and the 3rd heat exchange department 2CConnect. In the end of the second side panel 1C side of outdoor heat converter 2, for example, dispose collectionPipe waits cold-producing medium flow component 20, for cold-producing medium is distributed to various pipe arrangements and heat pipe. ,Cold-producing medium flow component 20 is arranged at the end side of the first heat exchange department 2A. In addition, in the 3rd heatThe 2C of exchange portion is provided with the hairpin-type elbow 2C1 of portion that makes heat pipe bend to semicircle shape.

Fixed panel 1F and lid panel 1FF

Fixed panel 1F is configured to: by the space (Machine Room R1) of a side of configuration compressor 4A side spaced apart with configuration valve 7. Fixed panel 1F is set to prolong along the vertical directionThe flat-shaped part of stretching. Fixed panel 1F is set to: extend to front surface from base panel 1E sideThe height and position of the upper end of the 1BH of incised notch portion and the 1CH of side incised notch portion. Fixed panel 1F'sThe end of one side (front side) is configured to the medial surface of front surface panel 1B opposed, fixed panelThe end of the opposite side (rear side) of 1F is set to along the anterior end of the second side panel 1C.Fixed panel 1F is set to form acute angle between itself and front surface panel 1B.

Be connected with lid panel 1FF at fixed panel 1F. Lid panel 1FF is connected in stationary planeUpper end, the front surface incised notch 1BH of portion and the 1CH of side incised notch portion of plate 1F, and be disposed at valve7 upside. Do not form fixed panel in the mode that extends to top panel 1A from base panel 1E1F, and the upper end of fixed panel 1F is set as from base panel 1E to top panel 1ABetween position, therefore can increase the volume of Machine Room R1, easily effectively utilize in off-premises station 10 and haveThe space of limit. Lid panel 1FF for example can be made up of triangular shaped plate-shaped member. Top coverPanel 1FF is configured to: the apex portion of the bight C of base panel 1E reaches lid panel 1FFThe downside on summit. On the summit of this said lid panel 1FF, be positioned at front surface panel 1BThe angle of side end on right side and the angle of the side end of the front side of the second side panel 1C. At this,The angle on this summit is greater than the angle on other two summits.

Valve 7

Valve 7 is installed on fixed panel 1F. Valve 7 is configured to and comprises valve 7A and valve 7B. At valve 7Be connected with refrigerant piping P. Valve 7 is disposed at the lateral surface, the bottom surface that are formed on fixed panel 1FEnclosure space between the medial surface of the upper surface of panel 1E and cover 1D. Even therefore hypothesisCold-producing medium to fight and is spread to refrigerant piping P, also can stop and spread in the position of valve 7. ,Can avoid flame to arrive compressor 4 and outdoor heat converter 2 etc.

Cover 1D

Cover 1D is disposed on the circumference 1E1 of base panel 1E, and to cover the side of valve 7Formula dismounting is arranged at the opposed locations of fixed panel 1F freely. Cover 1D is arranged on and bottom surface facePosition corresponding to bight C of plate 1E. Front surface in the framework of cover 1D formation off-premises station 100A part and a part for right flank. , cover 1D dismounting is arranged at freely front surface and cutsLack the 1BH of portion and the 1CH of side incised notch portion.

Cover 1D comprises: the 1D1 of front surface portion, and itself and front surface panel 1B arrange abreast; SideThe 1D2 of portion, itself and the 1D1 of front surface portion are orthogonal; Lead division 1D3, it is for being connected in valve 7Refrigerant piping P draws; The terminal board protection 1D4 of portion, it is formed as covering and is connected in electrical appliance kit 6The mounting portion Q such as terminal board. The 1D1 of front surface portion, side surface part 1D2, the lead division of cover 1D1D3 and the terminal board protection 1D4 of portion form. Cover 1D for example can be by formations such as resins,Also can be by formations such as metallic plates.

The 1D1 of front surface portion is flat-shaped part, is formed as extending to upside from base panel 1E.The end in the left side of the 1D1 of front surface portion is along the right-hand end of front surface panel 1B and arrange. SeparatelyOutward, the end on the right side of the 1D1 of front surface portion is connected in side surface part 1D2.

Side surface part 1D2 is flat-shaped part, is set to along the outer surface of the second side panel 1C.Side surface part 1D2 is the flat-shaped part that plan view shape is L word shape. At side surface part 1D2 and at valve7 height and position, is formed with lead division 1D3.

Lead division 1D3 is formed as more outstanding to the right than side surface part 1D2. Therefore cover the side of 1DThe forming section of lead division 1D3 is stepped. Suppose not form lead division 1D3 at cover 1D,Drawing of refrigerant piping P is easier to, but rainwater etc. can be invaded in the framework of off-premises station 100. SoAnd, owing to being formed with the lead division 1D3 more outstanding than side surface part 1D2 at cover 1D, therefore can keep awayExempt from and the interference of refrigerant piping P, and can suppress rainwater etc. and invade the framework of off-premises stations 100In.

On the terminal board protection 1D4 of portion is formed on identical plane with lead division 1D3, and be formed atThe position of giving prominence to the right than side surface part 1D2. The lower end of the terminal board protection 1D4 of portion is connected in drawsGo out the upper end of the 1D3 of portion. In addition, the side end of the downside of the 1D4 of terminal board protection portion is connected in sideFace 1D2. The 1D1 of front surface portion, side surface part 1D2, lead division 1D3 and the terminal of cover 1DThe platform protection 1D4 of portion forms, not only can protective valve 7, can also protect terminal board.

About cover, 1D prevents the structure that rainwater is invaded

Fig. 5 A is the valve 7 of off-premises station 100 of present embodiment and key diagram around thereof. Fig. 5 BBe the base panel 1E, the fixed panel 1F that represent the off-premises station 100 of present embodiment, valve 7,The key diagram of refrigerant piping P and cover 1D etc. Fig. 5 C pulls down after the cover 1D of Fig. 5 BThe key diagram of state.

As shown in Figure 5A, dispose valve 7B at the downside of valve 7A. And valve 7A and valve 7BBe connected in each refrigerant piping P. Valve 7 is fixed on fixed panel 1F. In addition, as shown in Figure 5 B,Cover 1D is arranged on the position corresponding with the bight C of base panel 1E, can prevent that rainwater etc. from invadingEnter to configure the enclosure space SP of valve 7.

At cover, 1D is formed with lead division 1D3, and this lead division 1D3 is formed as than side surface part 1D2 moreOutstanding, therefore can easily refrigerant piping P be drawn out to outside the framework of off-premises station 100. RemoveOutside this, utilize lead division 1D3 and, can also keep away rainwater invades in framework except suppressingExempt to see valve 7, thereby can improve aesthetic property.

The effect that the off-premises station 100 of present embodiment has

The base panel 1E of the off-premises station 100 of present embodiment comprises protuberance J. This protuberance JBe formed on the part corresponding with the end of the first heat exchange department 2A of outdoor heat converter 2, and edgeHorizontal direction is outstanding. Therefore can carry larger outdoor heat converter 2. , form protuberanceThe part of J can expansion chamber's outer heat-exchanger 2 the width dimensions of the first heat exchange department 2A.

Figure 12 is that level is analysed and observe the schematic diagram while observing the off-premises station of existing aircondition. As figureShown in 12, as existing off-premises station, not forming in the mode of protuberance J, if wish is carriedLarger heat exchanger, can increase the laterally wide of the transverse width of off-premises station front side and rear sideDegree, this partial response ground causes off-premises station to maximize.

On the other hand, the base panel 1E of the off-premises station 100 of present embodiment, its circumference 1E1In to be formed with the front side of part of protuberance J outstanding. , base panel 1E is formed with outstandingThe J of portion, to increase the transverse width dimension of off-premises station 100 rear sides, but owing to not existing in front sideThe structure corresponding with protuberance J, thereby can suppress transverse width dimension. Therefore can avoid chamberOuter machine 100 maximizes.

Therefore the off-premises station 100 of present embodiment 1 can suppress to maximize, and can carry moreLarge heat exchanger (outdoor heat converter 2).

Variation 1

Fig. 6 A and Fig. 6 B are the variation 1 of the off-premises station 100 of present embodiment. Fig. 6 A isThe stereogram of the off-premises station 100 of variation 1, Fig. 6 B is the master of the off-premises station 100 of variation 1View. In the present embodiment, in order to expand the volume of Machine Room R1, by lid panel 1FFFront end (summit when angle is right angle) be configured to be positioned at front surface side, the apex of bight CDivide the downside on the summit that is positioned at angle maximum.

On the other hand, in variation 1, the position configuration on the summit at the right angle of lid panel 1FFFor being positioned at inboard. Therefore front surface panel 1B is formed with bending part 21, the second side panel 1CBe formed with bending part 22. Front surface panel 1B and the second side panel 1C are configured to along foldingThe end of the end of turn of bilge 21 and bending part 22.

In addition, in variation 1, fixed panel 1F, cover 1D and the second side panel 1CBe set to from base panel 1E to top panel 1A and extend up and down.

The effect that the off-premises station 100 of variation 1 has

The off-premises station 100 of variation 1 is identical with the off-premises station 100 of present embodiment except havingEffect beyond, also there is following effect. , the off-premises station 100 of variation 1 comprises bending part21 and bending part 22, although this part has reduced the volume of Machine Room R1, can be furtherDwindle the size of off-premises station 100.

Variation 2～6

Fig. 7 A～Fig. 7 C is the variation 2 of the off-premises station of present embodiment. Fig. 8 A～Fig. 8 C is thisThe variation 3 of the off-premises station of embodiment. Fig. 9 A～Fig. 9 C is the off-premises station of present embodimentVariation 4. Figure 10 A～Figure 10 C is the variation 5 of the off-premises station of present embodiment. Figure 11 A～Figure 11 C is the variation 6 of the off-premises station of present embodiment. In following variation 2～variation 6In, the various distortion of base panel 1E are shown. In addition, the second side panel 1C is formed as edgeThe circumference 1E1 of base panel 1E.

The embodiment of the off-premises station 100 to present embodiment and variation 2～variation 6 outdoorThe difference of the embodiment of machine 100 describes.

The circumference 1E1 being disposed at than base panel 1E is not set in variation 2～variation 6Fixed panel 1F in the inner part.

In addition, in variation 2～variation 6, valve 7 is installed on to the second side panel 1C.

In addition, in present embodiment and variation 1, the surface of cover 1D is along the second sideThe surface of panel 1C, but in variation 2～variation 6, be that cover 10D is installed on the second sideThe mode of panel 1C, the surface of therefore covering 1D is outstanding from the second side panel 1C.

In addition, following Fig. 7 A, Fig. 8 A, Fig. 9 A, Figure 10 A, Figure 11 A represent off-premises station100 cutaway view. Fig. 7 B, Fig. 8 B, Fig. 9 B, Figure 10 B, Figure 11 B represent to have adopted this realityExecute the mode of the lid panel 1FF of mode, Fig. 7 C, Fig. 8 C, Fig. 9 C, Figure 10 C, Figure 11 CRepresent the mode of the lid panel 1FF that has adopted variation 1. Therefore with Fig. 7 B, Fig. 8 B, figureThe mode of the fixed panel 1F that 9B, Figure 10 B, Figure 11 B represent is compared, Fig. 7 C, Fig. 8 C,The size of the short transverse of the mode of the fixed panel 1F that Fig. 9 C, Figure 10 C, Figure 11 C represent moreGreatly.

As shown in Figure 7 A, in variation 2, except above-mentioned difference, in present embodiment, sayBright inclined-plane J1 is vertical plane. In addition, as shown in Figure 7 B, in variation 2, can adoptThe lid panel 1FF of the mode of the off-premises station 100 of present embodiment, also can be as shown in Fig. 7 C,Adopt the lid panel 1FF of the mode of the off-premises station 100 of variation 1.

As shown in Figure 8 A, in variation 3, except above-mentioned difference, be and this enforcement sideThe identical mode of off-premises station 100 of formula. In addition, as shown in Figure 8 B, in variation 2, canTo adopt the lid panel 1FF of mode of off-premises station 100 of present embodiment, also can be as Fig. 8 CShown in, the lid panel 1FF of the mode of the off-premises station 100 of employing variation 1.

As shown in Figure 9 A, in variation 4, base panel 1E at bight C (with the second bightCorresponding) formation position, be formed with the J2 of incised notch portion. , in variation 4, in order to make machineryThe volume of chamber R1 reduces, and base panel 1E comprises that bight C is cut into inclined plane shape to be formedThe J2 of incised notch portion. In addition, the second side panel 1C can arrange to the position of the J2 of incised notch portion, frontSurface panel 1B also can arrange to the position of the J2 of incised notch portion. In addition, as shown in Figure 9 B,In variation 4, can adopt the lid panel 1FF of the mode of the off-premises station 100 of present embodiment,Also can as shown in Figure 9 C, adopt the lid panel of the mode of the off-premises station 100 of variation 11FF。

As shown in Figure 10 A, in variation 5, base panel 1E is the inclined-plane J1 of protuberance JThe mode forming to extend to the mode of bight C. In addition, as shown in Figure 10 B, in variation 5In, can adopt the lid panel 1FF of the mode of the off-premises station 100 of present embodiment, also canAs shown in Figure 10 C, adopt the lid panel 1FF of the mode of the off-premises station 100 of variation 1.

As shown in Figure 11 A, in variation 6, the inclined-plane J1 of base panel 1E is formed as verticallyFace. And at base panel 1E, be also formed with protuberance J in the formation side of bight C. In addition,Also be formed as vertical plane with the opposed position of this vertical plane. ,, in variation 6, overlook observationWhen base panel 1E, be formed with the recess J3 being become by two protuberance J-shapeds at base panel 1E.And valve 7 is configured in the second side panel 1C in the position corresponding with recess J3. In addition,As shown in Figure 11 B, in variation 6, can adopt the side of the off-premises station 100 of present embodimentThe lid panel 1FF of formula, also can as shown in Figure 11 C, adopt the off-premises station 100 of variation 1The lid panel 1FF of mode.

The effect that the off-premises station 100 of variation 2～6 has

The off-premises station 100 of variation 2～6 has identical effect with the off-premises station 100 of present embodimentReally.

Claims (8)

1. an off-premises station, possesses:

Compressor;

Base panel, it is disposed at the downside of described compressor, and supports described compressor;

The first side panel, it is arranged at the circumference of described base panel;

The second side panel, it is disposed at the opposed locations of described the first side panel, and is arranged at the circumference of described base panel; And

Outdoor heat converter, it is by the upper side bearing of described base panel, and extends from the second side panel side described in described the first side panel side direction,

Described off-premises station is connected with indoor set via refrigerant piping,

Described off-premises station is characterised in that,

The end of described outdoor heat converter is set to a side's of described the second side panel side end opposed,

Described base panel comprises protuberance, and this protuberance is formed on the part corresponding with the end of described outdoor heat converter, and to side-prominent towards described the second side panel from described the first side panel.

2. off-premises station according to claim 1, is characterized in that,

Also possess valve, this valve is disposed at a side that is provided with described the second side panel, and connects described refrigerant piping,

Described protuberance is formed as: than the position that described valve is set more to side-prominent towards described the second side panel from described the first side panel.

3. off-premises station according to claim 2, is characterized in that,

The edge of described protuberance is formed with inclined-plane, and this inclined-plane is positioned at the part of the downside of described valve in described base panel,

Described the second side panel is formed as the edge along described protuberance.

4. according to the off-premises station described in claim 2 or 3, it is characterized in that,

Also possess fixed panel, it is arranged on described base panel, and described valve is installed.

5. off-premises station according to claim 4, is characterized in that,

Described base panel comprises:

The first bight, it is corresponding to the formation position of described protuberance; And

The second bight, it is positioned at the downside of valve described in described base panel,

Described the second side panel is arranged on described the first bight,

Described fixed panel is arranged on described the second bight.

6. off-premises station according to claim 4, is characterized in that,

Also possess cover, it is disposed on the circumference of described base panel, and is arranged at the opposed locations of described fixed panel to cover the mode of described valve,

Described cover is formed with lead division, and this lead division is for drawing the described refrigerant piping that is connected in described valve.

7. off-premises station according to claim 6, is characterized in that,

Also possess top panel, it,, to cover the mode on top of described outdoor heat converter, is arranged at the upper end of described the first side panel and described the second side panel,

Described fixed panel, described cover and described the second side panel are set to described top panel from described base panel.

8. off-premises station according to claim 6, is characterized in that,

Also possess front surface panel, it is arranged at the circumference of described base panel, is provided with described the first side panel in an end of this front surface panel, is provided with described the second side panel in the other end,

At the downside of the other end of described front surface panel, be formed with front surface incised notch portion,

At the downside of the end of the described front surface panel side of described the second side panel, be formed with side incised notch portion,

Described cover is arranged at described front surface incised notch portion and described side incised notch portion.