CN107631514A - Air-conditioning system - Google Patents

Abstract

The invention discloses a kind of air-conditioning system.The air-conditioning system includes compressor, it is provided with the outdoor unit of outdoor heat exchanger, indoor heat exchanger and throttling arrangement, heat exchanging segment is provided with the refrigerant flow of air-conditioning system, heater element of the heat exchanging segment Jing Guo air-conditioning system and for being cooled down to heater element, heat exchanging segment is disposed in the outdoor in machine, and, heat exchanging segment is arranged between throttling arrangement and outdoor heat exchanger on refrigerant flow, heat exchanging segment optionally circulates or ended, blower fan is provided with outdoor unit, on the wind path that blower fan is formed, heat exchanging segment is located outside the downstream of at least part structure of heat exchanger, when heat exchanging segment ends, blower fan is opened, when heat exchanging segment circulates, blower fan is closed.Air-conditioning system provided by the invention can realize effective cooling to heater element under arbitrary patterns, ensure the operational reliability of heater element.

Description

Air-conditioning system

Technical field

The present invention relates to field of air conditioning, relates more specifically to a kind of air-conditioning system.

Background technology

More heater element within air-conditioning systems be present, such as the driving mould of frequency-changeable compressor is driven in transducer air conditioning Block, when air-conditioning system is run, drive module can produce heat, if this partial heat can not dissipate in time, can cause module Constant temperature rises, and causes module damage.The drive module of transducer air conditioning uses wind-cooling heat dissipating more at present, due to radiating efficiency Limited, particularly under the conditions of megathermal climate, radiating effect is worse, causes drive module to be chronically under high temperature and works, to mould Block reliability has considerable influence.

For this problem, propose drive module is radiated using the refrigerant before being throttled after condensation in the prior art Technical scheme.But carried out for common monoblock type or Split hot pump-type air conditioner, a general only throttle part Throttling.It can only realize that a kind of pattern (refrigeration or heating) is radiated using the refrigerant before being throttled after condensation, and another Pattern (heating or refrigeration) can only be radiated with the low temperature refrigerant after throttling, because refrigerant temperature is very low after throttling, with driving Module heat transfer temperature difference is excessive, and near modules temperature is easy to drop to below dew-point temperature and produces condensation water, if condensation water is attached In drive module, easily damage module, therefore drive module can not be dissipated using refrigerant under another pattern Heat, cause radiating effect of the drive module under another pattern poor, influence its reliability of operation.

The content of the invention

In view of this, an object of the present invention be to provide one kind can to heater element carry out well cooling and can Avoid on heater element produce condensation, ensure heater element operational reliability air-conditioning system.

For the above-mentioned purpose, the present invention adopts the following technical scheme that：

A kind of air-conditioning system, the air-conditioning system include compressor, the outdoor unit for being provided with outdoor heat exchanger, indoor heat exchange Device and throttling arrangement, are provided with heat exchanging segment on the refrigerant flow of the air-conditioning system, and the heat exchanging segment passes through the air-conditioning The heater element of system simultaneously is used to cool down the heater element, and the heat exchanging segment is disposed in the outdoor in machine, also, described Heat exchanging segment is arranged on refrigerant flow between the throttling arrangement and outdoor heat exchanger, the heat exchanging segment optionally circulate or Cut-off,

Blower fan is provided with the outdoor unit, on the wind path that the blower fan is formed, the heat exchanging segment is located at the room The downstream of at least part structure of external heat exchanger, when the heat exchanging segment ends, the blower fan is opened, when the heat exchanging segment stream When logical, the blower fan is closed.

Preferably, the refrigerant pipeline also includes the bypass line being arranged in parallel with the heat exchanging segment, the air-conditioning system Also including switching device, the switchgear configurations are, when refrigerant flows from the heat exchanging segment to the throttling arrangement direction, So that the heat exchanging segment circulation, the bypass line cut-off, when direction stream of the refrigerant from the throttling arrangement to the heat exchanging segment When dynamic so that the bypass line circulation, the heat exchanging segment cut-off.

Preferably, the switching device includes the first check valve being arranged on the heat exchanging segment and is arranged on the bypass The second check valve on pipeline, first check valve only allow direction stream of the refrigerant from the heat exchanging segment to the throttling arrangement Dynamic, second check valve only allows direction flowing of the refrigerant from the throttling arrangement to the bypass line.

Preferably, in addition to radiator structure, the heat exchanging segment are located in the radiator structure.

Preferably, the radiator structure includes the relative Part I and Part II connect, and the heat exchanging segment is folded in Between the Part I and the Part II.

Preferably, it is provided with the interface of the Part I and/or the Part II for housing the heat exchange The groove of section.

Preferably, it is provided with fin structure on the radiator structure.

Preferably, the fin structure extends towards the direction of the outdoor heat exchanger.

Preferably, dividing plate is provided with the outdoor unit, the inner space of the outdoor unit is divided into first by the dividing plate Space and second space, the outdoor heat exchanger are arranged in first space；

The heater element and the radiator structure are arranged in first space；Or

The heater element and the radiator structure are arranged in the second space, and connection institute is provided with the dividing plate The first air vent of the first space and the second space is stated, and/or, it is provided with the shell and is connected with the second space The second air vent.

Preferably, the blower fan is arranged in first space or the second space.

Preferably, the overall structure that the heater element and the radiator structure are formed is fixed on the dividing plate.

Preferably, shutter is provided with the dividing plate, it is logical that described first is formed between the blade of the shutter Air holes.

The heat exchanging segment that optionally can be circulated or end is provided with air-conditioner outdoor unit provided by the invention, and is set in addition Blower fan is put, on the wind path of blower fan, heat exchanging segment is located outside the downstream of at least part structure of heat exchanger, in this way, available Refrigerant without throttling arrangement throttling cools to heater element, and when direction flowing of the refrigerant from throttling arrangement to heat exchanging segment When, heat exchanging segment is ended, heater element cooled using by the wind cooled down as the outdoor heat exchanger of evaporator, from And can avoid producing condensation on heater element, ensure the operational reliability of heater element.

Brief description of the drawings

By the description to the embodiment of the present invention referring to the drawings, above-mentioned and other purpose of the invention, feature and Advantage will be apparent from, in the accompanying drawings：

Fig. 1 shows that the refrigerant flow direction during air-conditioning system operation refrigeration mode that the specific embodiment of the invention provides shows It is intended to；

Fig. 2 shows that the refrigerant flow direction during air-conditioning system operation heating mode that the specific embodiment of the invention provides shows It is intended to；

Fig. 3 shows that radiator structure, drive module and heat exchanging segment that the specific embodiment of the invention provides are combined together Front view；

Fig. 4 shows that radiator structure, drive module and heat exchanging segment that the specific embodiment of the invention provides are combined together Right view；

Fig. 5 show internal structure schematic diagram of the air-conditioner outdoor unit under vertical view that the specific embodiment of the invention provides it One；

Fig. 6 show internal structure schematic diagram of the air-conditioner outdoor unit under vertical view that the specific embodiment of the invention provides it Two；

Fig. 7 show internal structure schematic diagram of the air-conditioner outdoor unit under vertical view that the specific embodiment of the invention provides it Three；

Fig. 8 show internal structure schematic diagram of the air-conditioner outdoor unit under vertical view that the specific embodiment of the invention provides it Four；

Fig. 9 show internal structure schematic diagram of the air-conditioner outdoor unit under vertical view that the specific embodiment of the invention provides it Five.

In figure, 2, shell；21st, the first space；22nd, second space；3rd, outdoor heat exchanger；4th, blower fan；5th, indoor heat exchanger； 6th, electric expansion valve；7th, heat exchanging segment；8th, drive module；9th, bypass line；10th, the first check valve；11st, the second check valve；12nd, dissipate Heat structure；121st, Part I；122nd, Part II；123rd, fin structure；13rd, dividing plate；131st, the first air vent；132nd, blinds Window construction；14th, blower fan.

Embodiment

Below based on embodiment, present invention is described, but the present invention is not restricted to these embodiments.Under It is detailed to describe some specific detail sections in the literary detailed description to the present invention.Do not have for a person skilled in the art The description of these detail sections can also understand the present invention completely.In order to avoid obscuring the essence of the present invention, known method, mistake The not narration in detail of journey, flow, element.

In addition, it should be understood by one skilled in the art that provided herein accompanying drawing be provided to explanation purpose, and What accompanying drawing was not necessarily drawn to scale.

Unless the context clearly requires otherwise, otherwise entire disclosure is similar with the " comprising " in claims, "comprising" etc. Word should be construed to the implication included rather than exclusive or exhaustive implication；That is, it is containing for " including but is not limited to " Justice.

In the description of the invention, it is to be understood that term " first ", " second " etc. are only used for describing purpose, without It is understood that to indicate or implying relative importance.In addition, in the description of the invention, unless otherwise indicated, the implication of " multiple " It is two or more.

This application provides a kind of air-conditioning system, as shown in figure 1, including compressor (not shown), four-way valve (in figure Be not shown), outdoor unit, indoor set and throttling arrangement, as shown in figure 5, outdoor unit includes shell 2 and is arranged in shell 2 Outdoor heat exchanger 3 and blower fan 4, compressor are arranged in shell 2, and when air-conditioning system is run, blower fan 4 is driven in external environment condition Air carries out heat exchange with outdoor heat exchanger, to promote the heat exchange efficiency of outdoor heat exchanger and ambient outdoor air.Indoor set Inside it is provided with indoor heat exchanger 5.Compressor, four-way valve, outdoor heat exchanger 3, throttling arrangement, indoor heat exchanger 5 pass through refrigerant pipe Road connects to form refrigerant circulation circuit, and air-conditioning system can be achieved between heating mode and refrigeration mode by the commutation of four-way valve Switching.Throttling arrangement for example can be the electric expansion valve 6 in Fig. 1, or can realize the other structures of throttling, example Such as capillary, heating power expansion valve, restricting orifice.

Wherein, as shown in figure 1, the refrigerant pipeline between outdoor heat exchanger 5 and electric expansion valve 6 includes heat exchanging segment 7, change Hot arc 7 can carry out heat exchange with heater element, so as to be cooled down to heater element.Heater element can be air-conditioning system In it is any need radiating in the process of running to ensure the electrical equipment of operational reliability, for example, in a specific embodiment In, compressor is frequency-changeable compressor, and heater element is the drive module 8 for driving compressor operating, when refrigerant flows through setting During heat exchanging segment 7 between outdoor heat exchanger 5 and electric expansion valve 6, the refrigerant in heat exchanging segment 7 can be carried out with drive module 8 Heat exchange, to realize the cooling to drive module 8, ensure the operational reliability of drive module 8, for example, shown in Fig. 3, heat exchange Section 7 is located in radiator structure 12, and drive module 8 realizes that heat exchange (has specific below by radiator structure 12 and heat exchanging segment 7 Introduce).Due to when air-conditioning system is run and heated, as shown in Fig. 2 the flow direction of refrigerant is from electric expansion valve 6 to heat exchange The direction of section 7, the refrigerant temperature after the throttling of electric expansion valve 6 is relatively low, larger with the temperature difference of drive module 8, if in this feelings Refrigerant still carries out heat exchange with drive module 8 under condition, then can form dew condensation phenomenon in drive module 8.

To solve the above problems, as shown in fig. 1, the refrigerant pipeline also includes the bypass being arranged in parallel with heat exchanging segment 7 Pipeline 9, bypass line 9 are set without drive module 8, i.e. bypass line 9 around drive module 8.It is additionally provided with switching device, The switchgear configurations are, when direction of the refrigerant from heat exchanging segment 7 to electric expansion valve 6 is flowed, i.e. air-conditioning system fortune in Fig. 1 During row refrigeration mode so that heat exchanging segment 7 circulates, and bypass line 9 ends, and the refrigerant not yet to be throttled through electric expansion valve 6 is exchanging heat Section 7 is exchanged heat with drive module 8, realizes the normal cooling effect to drive module 8, and work as refrigerant from electric expansion valve 6 to During the direction flowing of heat exchanging segment 7, i.e. when air-conditioning system in Fig. 2 runs heating mode so that bypass line 9 circulates, heat exchanging segment 7 Cut-off, refrigerant flows to outdoor heat exchanger 3 without being exchanged heat with drive module 8 through bypass line 9, so as to avoid leading because heat exchange amount is excessive The condensation problem of cause.

Switching device can be the arbitrary structures that can realize above-mentioned function, such as can be switching switch, pass through switching Switch optionally switches heat exchanging segment 7 or bypass branch 9 in access refrigerant circulation stream, for another example can be to set respectively The magnetic valve on heat exchanging segment 7 and bypass branch 9 is put, the circulation of each branch road is realized by controlling the opening and closing of magnetic valve and cuts Only.In a preferred embodiment, as shown in figure 1, switching device includes the He of the first check valve 10 being arranged on heat exchanging segment 7 The second check valve 11 being arranged on bypass line 9, the first check valve 10 only allow refrigerant from heat exchanging segment 7 to electric expansion valve 6 Direction flowing, the second check valve 11 only allows refrigerant from direction from electric expansion valve 6 to bypass line 9 flowing, without control, Above-mentioned function can be achieved by the cooperation of two check valves, it is simple in construction, improve the operational reliability of system.First check valve 10 are preferably provided at close to the side of outdoor heat exchanger 3.

Because air-conditioning system can not be cooled down when running heating mode using heat exchanging segment 7 to drive module 8, cause Drive module 8 can not carry out proper heat reduction under the pattern, easily influence the normal operation of drive module 8.For this problem, such as Shown in Fig. 5, the application is additionally provided with other blower fan 14 in outdoor unit, and on the wind path that blower fan 14 is formed, heat exchanging segment 7 is located at The downstream of at least part structure of outdoor heat exchanger 3, when heat exchanging segment 7 circulates, blower fan 14 is closed, using heat exchanging segment 7 to driving Dynamic model block 8 is cooled down, and when heat exchanging segment 7 ends, blower fan 14 is opened, because now outdoor heat exchanger 3 is evaporator, because This, in a heating mode, can drop using by the wind cooled down as the outdoor heat exchanger 3 of evaporator to drive module 8 Temperature, to ensure in a heating mode to the effective temperature-reducing of drive module 8, the operational reliability of guarantee drive module 8.

Further to improve the heat exchange efficiency between heat exchanging segment 7 and drive module 8, it is preferable that as shown in Figure 3 and Figure 4, also Including radiator structure 12, radiator structure 12 is for example located in radiator structure 12 in bulk, heat exchanging segment 7, drive module 8 and radiating The surface of structure 12 fits so that contact heat exchange is realized between drive module 8 and heat exchanging segment 7, heat transfer rate is fast, preferably Ground, drive module 8 is fixed on radiator structure 12 by fastener such as screw, so that drive module 8 and radiator structure 12 form an overall structure.It is, of course, understood that drive module 8 can also be tied by the modes such as clamping, grafting and radiating Structure 12 links together.

Preferably, for convenience of the assembling of heat exchanging segment 7 and radiator structure 12, radiator structure is split-type structural, specifically, is dissipated Heat structure 12 includes the Part I 121 and Part II 122 being docking together, and heat exchanging segment 7 is sandwiched between the He of Part I 121 Between Part II 122, it is further preferred that settable on the interface of Part I 121 and Part II 122 use In the groove (not shown) of accommodating heat exchanging segment 7, in this way, after Part I 121 and Part II 122 dock, the quilt of heat exchanging segment 7 It is interposed in groove, so as to increase heat exchange area, improves the cooperation reliability of heat exchanging segment 7 and radiator structure 12.Heat exchanging segment 7 Cross section outline can be provided in round according to specific heat exchange demand, ellipse, polygon etc..

The connected mode of Part I 121 and Part II 122 can with but be not limited to be by fastener such as screw Be fixedly connected, clamping, grafting, welding etc..

Preferably, further to improve the radiating efficiency of drive module 8, fin structure is provided with radiator structure 12 123, fin structure 123 can be arranged on the optional position of radiator structure 12, be the installation site of arranged rational each several part, excellent Selection of land, as shown in figure 3, fin structure 123 is arranged on the lateral surface of Part I 121, drive module 8 is fixed on Part II On 122 lateral surface.

The monolithic construction that drive module 8 is formed with radiator structure 12 can be arranged on the optional position in shell 2, example Such as, as shown in figure 5, being provided with dividing plate 13 in shell 2, dividing plate 13 is used to the inner space of shell 2 being divided into the He of the first space 21 Second space 22, outdoor heat exchanger 3 and blower fan 4 are arranged in the first space 21, and blower fan 4 is used to lead the air in external environment condition Enter and carry out heat exchange in shell 2 with outdoor heat exchanger 3, the shape of outdoor heat exchanger 3 can be according to the difference of heat exchange demand Such as the L-shaped in the U-shaped or Fig. 9 in Fig. 5 to 8, compressor is arranged in second space 22.Drive module 8 and radiator structure 12 The overall structure of composition can be arranged in second space 22 as shown in Figs. 5 to 7, can also be arranged on first as shown in FIG. 8 and 9 In space 21, the overall structure of drive module 8 and the composition of radiator structure 12 is preferably fixed on dividing plate 13, especially works as drive module 8 and the overall structure that forms of radiator structure 12 when being arranged in the first space 21, on the one hand make it that structure is simpler compact, separately On the one hand a certain degree of radiating can be carried out by dividing plate 13, further improves radiating effect.

Blower fan 14 can be air exhauster or exhaust blower, can be arranged in the first space 21, can also be arranged on In second space 22, as long as can ensure that on the wind path of blower fan 14 heat exchanging segment 7 is located outside at least part structure of heat exchanger 3 Downstream, it is preferable that as shown in Figures 5 to 9, blower fan 14 is arranged to exhaust blower, and by blower fan 14 and drive module 8 with The overall structure that radiator structure 12 is formed is separately positioned on the both sides of outdoor heat exchanger 3.Preferably, connection is provided with dividing plate First space 21 and the first air vent 131 of second space 22, especially when blower fan 14 and drive module 8 are distinguished with radiator structure 12 When being arranged on different spaces, ensure that the drive downstream in blower fan 14 can flow between two spaces.It is further preferred that The the second air vent (not shown) connected with second space 22, the first air vent 131 and the second ventilation are provided with shell 2 Hole is preferably provided at the opening position corresponding with radiator structure 12.

It is further preferred that as shown in fig. 6, be provided with shutter 132 on dividing plate 13, shape between the blade of shutter Into the first air vent 131, the setting of shutter 132, which can effectively avoid dust etc. from entering in the first space 21, influences blower fan 4 normal operation and the heat exchange efficiency of outdoor heat exchanger 3.

Radiator structure 12 set orientation can with but be not limited to be the extension of its fin structure 123 shown in Fig. 5 and 6 Direction is parallel with the axis direction of blower fan 4, or as shown in Fig. 7 to Fig. 9, and fin structure 123 is towards the side of outdoor heat exchanger 3 To extension, both set orientation to realize good radiating effect.

The heat exchanging segment that optionally can be circulated or end is provided with air-conditioner outdoor unit provided by the invention, and is set in addition Blower fan is put, on the wind path of blower fan, heat exchanging segment is located outside the downstream of at least part structure of heat exchanger, in this way, available Refrigerant without throttling arrangement throttling cools to heater element, and when direction flowing of the refrigerant from throttling arrangement to heat exchanging segment When, heat exchanging segment is ended, heater element cooled using by the wind cooled down as the outdoor heat exchanger of evaporator, from And can avoid producing condensation on heater element, ensure the operational reliability of heater element.

For those skilled in the art it is easily understood that on the premise of not conflicting, above-mentioned each preferred scheme can be free Ground combination, superposition.

It should be appreciated that above-mentioned embodiment is only illustrative, and not restrictive, without departing from the basic of the present invention In the case of principle, those skilled in the art can be directed to the various obvious or equivalent modification made of above-mentioned details or replace Change, be all included in scope of the presently claimed invention.

Claims (12)

1. a kind of air-conditioning system, the air-conditioning system includes compressor, the outdoor unit for being provided with outdoor heat exchanger, indoor heat exchanger And throttling arrangement, it is characterised in that

Heat exchanging segment, heating member of the heat exchanging segment Jing Guo the air-conditioning system are provided with the refrigerant flow of the air-conditioning system Part simultaneously is used to cool down the heater element, and the heat exchanging segment is disposed in the outdoor in machine, also, the heat exchanging segment is in refrigerant It is arranged on stream between the throttling arrangement and outdoor heat exchanger, the heat exchanging segment optionally circulates or ended,

Blower fan is provided with the outdoor unit, on the wind path that the blower fan is formed, the heat exchanging segment is located at the outdoor and changed The downstream of at least part structure of hot device, when the heat exchanging segment ends, the blower fan is opened, when the heat exchanging segment circulates When, the blower fan is closed.

2. air-conditioning system according to claim 1, it is characterised in that the refrigerant pipeline is also included with the heat exchanging segment simultaneously Join the bypass line set, the air-conditioning system also includes switching device, and the switchgear configurations are, when refrigerant is changed by described Hot arc to the throttling arrangement direction flow when so that heat exchanging segment circulation, the bypass line cut-off, when refrigerant is by described Throttling arrangement to the direction of the heat exchanging segment flow when so that bypass line circulation, the heat exchanging segment cut-off.

3. air-conditioning system according to claim 2, it is characterised in that the switching device includes being arranged on the heat exchanging segment On the first check valve and the second check valve for being arranged on the bypass line, first check valve only allow refrigerant by institute State heat exchanging segment to flow to the direction of the throttling arrangement, second check valve only allows refrigerant from the throttling arrangement to described The direction flowing of bypass line.

4. air-conditioning system according to claim 1, it is characterised in that be also located in including radiator structure, the heat exchanging segment In the radiator structure.

5. air-conditioning system according to claim 4, it is characterised in that the radiator structure includes the relative Part I connect And Part II, the heat exchanging segment are folded between the Part I and the Part II.

6. air-conditioning system according to claim 5, it is characterised in that the Part I and/or the Part II The groove for housing the heat exchanging segment is provided with interface.

7. air-conditioning system according to claim 4, it is characterised in that be provided with fin structure on the radiator structure.

8. air-conditioning system according to claim 7, it is characterised in that the fin structure is towards the outdoor heat exchanger Direction extends.

9. the air-conditioning system according to one of claim 4 to 8, it is characterised in that dividing plate, institute are provided with the outdoor unit State dividing plate and the inner space of the outdoor unit is divided into the first space and second space, the outdoor heat exchanger is arranged on described In one space；

The heater element and the radiator structure are arranged in first space；Or

The heater element and the radiator structure are arranged in the second space, and connection described the is provided with the dividing plate One space and the first air vent of the second space, and/or, connected with the second space is provided with the shell Two air vents.

10. air-conditioning system according to claim 9, it is characterised in that the blower fan is arranged on first space or institute State in second space.

11. air-conditioning system according to claim 9, it is characterised in that the heater element and the radiator structure are formed Overall structure be fixed on the dividing plate.

12. air-conditioning system according to claim 9, it is characterised in that shutter is provided with the dividing plate, it is described First air vent is formed between the blade of shutter.