CN206514404U - Air conditioning system with guide plate - Google Patents

Abstract

An air conditioning system with a guide plate comprises a first body, which comprises a first shell, a chamber partition plate, a guide plate, a condenser, a driving module, a heat dissipation module and an airflow generating element. The first shell is provided with a shell inner space and an air outlet. The chamber partition plate divides the space in the shell into a first chamber and a second chamber, and is provided with a chamber port communicated with the first chamber and the second chamber. The guide plate divides the second chamber into a heat dissipation space and a heat discharge space. The condenser discharges a row of hot gases to a heat rejection space. The driving module generates heat energy and is thermally connected with the heat dissipation module arranged in the heat dissipation space. The airflow generating element generates a heat dissipation airflow which flows from the first chamber to the air outlet through the chamber through opening and the heat dissipation space in sequence and a heat exhaust airflow which flows from the heat exhaust space to the air outlet.

Description

Air-conditioning system with deflector

Technical field

The utility model is related to a kind of air-conditioning system, refers in particular to one kind and air-conditioning device heat is discharged using thermal current is discharged The air-conditioning system of energy.

Background technology

From the modernization of earlier 1900s first air-conditioning system by invention since, air-conditioning system is constantly modified, and is made one Quality of the life lifted.General air-conditioning system can control air themperature and ambient humidity in a space.Such one Come, although in cold season, people, which remain unchanged, can live in warm space.Although on the contrary, in extremely hot area, people Nice and cool environment can still be lived in.

In order to simply illustrate the function mode of general air-conditioning system, also referring to Fig. 1 and Fig. 2, Fig. 1 systems show existing The configuration schematic diagram for the air-conditioning system that technology is provided；Fig. 2 systems show the structural representation for the air-conditioning system that prior art is provided Figure.As illustrated, prior art provides a kind of air-conditioning system PA100, air-conditioning system PA100 is arranged at an exterior space comprising one PAO outdoor unit PA1 and one is arranged at the indoor set PA2 of an interior space PAI.

There is outdoor unit PA1 a compressor PA11 and a condenser PA12, indoor set PA2 to have an expansion valve PA21 and one Evaporator PA22.One thermal current PAF1 is emitted into exterior space PAO by outdoor unit PA1 by an outdoor machine fan PA13, indoor Machine PA2 by an indoor machine fan PA23 by a cold airflow PAF2 be blown to one by isolation wall PA200 and an exterior space PAO every Exhausted interior space PAI.Wherein, compressor PA11 is communicated in condenser PA12 and evaporator PA22, and expansion valve PA21 is connected In condenser PA12 and evaporator PA22, so as to forming an Air-conditioning Cycle.

Referring to Fig. 3, Fig. 3 systems show the internal structure signal for the first housing with deflector that prior art is provided Figure.As illustrated, outdoor unit PA1 includes compressor PA11, condenser PA12, outdoor machine fan PA13, an outdoor shell PA14, a compartment spacers PA15, a drive module PA16 and a radiating module PA17.

There is space PAA in a shell in outdoor shell PA14, and compartment spacers PA15 is arranged at space PAA in shell.Its In, space PAA in shell is divided into a first chamber PAA1 and a second chamber PAA2 by compartment spacers PA15, and offers a company Logical first chamber PAA1 and second chamber PAA2 chamber port PA151.First chamber is adjacent in outdoor shell PA14 Multiple outside air inlet PA141 are offered at PAA1.It is adjacent at second chamber PAA2 and offers in outdoor shell PA14 Multiple gas outlet PA142.Wherein, outdoor machine fan PA13 is adjacent to gas outlet PA142 and is arranged on second chamber PAA2.

Compressor PA11 is arranged at first chamber PAA1, and condenser PA12 is arranged at second chamber PAA2.Drive module PA16 is arranged at compartment spacers PA15 and is adjacent to first chamber PAA1 side, and produces heat energy.Radiating module PA17 corresponds to Drive module PA16 and be arranged at the side that compartment spacers PA15 is adjacent to second chamber PAA2, and hot link is in drive module PA16, the heat energy so as to absorbing drive module PA16.

Referring to Fig. 4, Fig. 4 systems show the working condition flow field for the first housing with deflector that prior art is provided Schematic diagram.As illustrated, when outdoor machine fan PA13 is in running, thermal current PAF1 can be produced.Wherein, thermal current PAF1 can divide For a radiating airflow PAF11 and a heat extraction air-flow PAF12.In addition, condenser PA12 can discharge a heat extraction gas PAH in running To second chamber PAA2.

Radiating airflow PAF11 flows into first chamber PAA1 from outside air inlet PA141, then by first chamber PAA1 sequentially Exterior space PAO is drained into from gas outlet PA142 via chamber port PA151 and second chamber PAA2, so as to loss radiating module The heat energy that PA17 is absorbed.Heat extraction air-flow PAF12 can arrange heat extraction gas PAH from second chamber PAA2 via gas outlet PA142 To exterior space PAO.

Heat extraction gas PAH is drained among exterior space PAO process in heat extraction air-flow PAF12, radiating mould can be touched Block PA17.Because the temperature of the heat extraction gas PAH produced by condenser PA12 is usually above radiating module PA17, so can cause The heat energy that radiating module PA17 is absorbed is difficult to by loss.On the contrary, heat extraction gas PAH heat energy is possible to pass through radiating module PA17 is delivered to drive module PA16.Therefore, drive module PA16 temperature will not only decline, and can increase on the contrary.Such as This one, drive module PA16 meeting hot soak conditions.Just in the short term, drive module PA16 task performance reduction. Just on long terms, drive module PA16 can be damaged because high temperature is chronically at, and then reduce drive module PA16 use Life-span.

Utility model content

In view of in the prior art, heat extraction air-flow drains into heat extraction gas among the process of the exterior space, can touch Radiating module.Because heat extraction gas temperature is higher than radiating module and drive module so that drive module can rise.With regard to short-term Speech, the problem of drive module meeting available energy is reduced.Just on long terms, drive module has the doubt of service life reduction.

Technical problem to be solved in the utility model has deflector for problem of the prior art there is provided a kind of Air-conditioning system.To achieve these goals, the utility model provides a kind of air-conditioning system with deflector, wherein, including：

One first housing, is arranged at one first space, and comprising：

One first housing, with space in a shell, and offers an at least gas outlet；

One compartment spacers, are arranged at space in the shell, so as to space in the shell is divided into a first chamber and one second Chamber, and offer the chamber port of the connection first chamber and the second chamber；

One deflector, the second chamber is arranged at adjacent to the chamber port, and it is empty that the second chamber is divided into a radiating Between with a heat extraction space；

One condenser a heat extraction gas to be emitted into the heat extraction space in running；

One drive module to produce a heat energy in running；

One radiating module to absorb the heat energy, hot link is arranged at the heat-dissipating space in the drive module；And

One is used to produce a radiating airflow and a heat extraction air-flow in running, and makes the radiating airflow and the discharging hot air flow point Not Jing Guo the heat-dissipating space and the heat extraction space and flow to the air-flow generating element of an at least gas outlet, be arranged at second chamber Room.

The above-mentioned air-conditioning system with deflector, wherein, a second housing is further included, the second housing is arranged at one Two spaces, and comprising an expansion valve and an evaporator, wherein, the first housing further includes a compressor, the condenser and the steaming Hair device connects the expansion valve and the compressor.

The above-mentioned air-conditioning system with deflector, wherein, the air-flow generating element is arranged at the second chamber, and adjacent It is bordering on an at least gas outlet.

The above-mentioned air-conditioning system with deflector, wherein, the air-flow generating element is a fan.

The above-mentioned air-conditioning system with deflector, wherein, the chamber port connects the first chamber and the second chamber The heat-dissipating space.

The above-mentioned air-conditioning system with deflector, wherein, the deflector extends from the compartment spacers.

The above-mentioned air-conditioning system with deflector, wherein, the deflector is further included：

One first water conservancy diversion plate body, a deflector turning point is extended to from the compartment spacers；And

One second water conservancy diversion plate body, extends from the deflector turning point towards an at least gas outlet.

The above-mentioned air-conditioning system with deflector, wherein, the radiating module be arranged at the compartment spacers be adjacent to this dissipate The side of heat space, the drive module corresponds to the radiating module and is arranged at the compartment spacers are adjacent to the first chamber one Side.

The above-mentioned air-conditioning system with deflector, wherein, the radiating module is a heat radiation fin assemblies.

The above-mentioned air-conditioning system with deflector, wherein, first housing offers at least one and is communicated in first chamber The outside air inlet of room.

Beneficial functional of the present utility model is：

From the above, in the air-conditioning system provided by the utility model with deflector, in shell space have by First chamber and second chamber that compartment spacers are separated.Second chamber has the heat-dissipating space separated by deflector and row Heat space.Radiating module is located at heat-dissipating space, so as to the heat energy for being absorbed radiating airflow loss radiating module.Heat extraction air-flow by The guiding of deflector, reduces the chance for touching radiating module.

The air-conditioning system provided compared to prior art, the air-conditioning system provided by the utility model with deflector Guided by deflector and baffle heat extraction air-flow, the chance that heat extraction air-flow touches radiating module is reduced whereby.Such one Come, the heat extraction air-flow of high temperature does not just interfere with radiating module by the heat sinking benefit of heat energy loss to radiating airflow, and then makes drive The heat energy loss that dynamic model block can be produced goes out.Whereby, it is to avoid the efficiency reduction of drive module, drive module is more extended Service life.

The utility model is described in detail below in conjunction with the drawings and specific embodiments, but not as to the utility model Restriction.

Brief description of the drawings

The configuration schematic diagram for the air-conditioning system that Fig. 1 is provided by prior art；

The structural representation for the air-conditioning system that Fig. 2 is provided by prior art；

The internal structure schematic diagram for the first housing with deflector that Fig. 3 is provided by prior art；

The working condition flow field schematic diagram for the first housing with deflector that Fig. 4 is provided by prior art；

The structural representation for the air-conditioning system with deflector that Fig. 5 is provided by the utility model preferred embodiment；

The internal structure signal for the first housing with deflector that Fig. 6 is provided by the utility model preferred embodiment Figure；And

The working condition flow field for the first housing with deflector that Fig. 7 is provided by the utility model preferred embodiment shows It is intended to.

Wherein, reference

PA100 air-conditioning systems

PA1 outdoor units

PA11 compressors

PA12 condensers

PA13 outdoor machine fans

PA14 outdoor shells

PA141 outside air inlets

PA142 gas outlets

PA15 compartment spacers

PA151 chamber ports

PA16 drive modules

PA17 radiating modules

PA2 indoor sets

PA21 expansion valves

PA22 evaporators

PA23 indoor machine fans

PA200 completely cuts off wall

Space in PAA shells

PAA1 first chambers

PAA2 second chambers

PAF1 thermal currents

PAF11 radiating airflows

PAF12 heat extraction air-flows

PAF2 cold airflows

PAH heat extraction gases

The PAI interior spaces

The PAO exterior spaces

100 have the air-conditioning system of deflector

1 first housing

11 compressors

12 condensers

13 air-flow generating elements

14 first housings

141 outside air inlets

142 gas outlets

15 compartment spacers

151 chamber ports

16 deflectors

161 first water conservancy diversion plate bodys

1611 deflector turning points

162 second water conservancy diversion plate bodys

17 drive modules

18 radiating modules

2 second housings

21 expansion valves

22 evaporators

23 air-flow generating elements

200 isolation walls

Space in A shells

A1 first chambers

A2 second chambers

A21 heat-dissipating spaces

A22 heat extractions space

F1 thermal currents

F11 radiating airflows

F12 heat extraction air-flows

F2 cold airflows

H heat extraction gases

The spaces of S1 first

S2 second spaces

Embodiment

The structural principle and operation principle of the present invention are described in detail below in conjunction with the accompanying drawings：

Referring to Fig. 5, the structure for the air-conditioning system with deflector that Fig. 5 is provided by the utility model preferred embodiment Schematic diagram.As illustrated, the utility model preferred embodiment provides a kind of air-conditioning system 100 with deflector, and have The air-conditioning system 100 of deflector includes a first housing 1 and a second housing 2.The first housing 1 is arranged at one first space S 1, And include a compressor 11 and a condenser 12.The second housing 2 sets one to completely cut off wall 200 (in other embodiments not by one It is limited to this) the second space S2 that completely cuts off with the first space S 1, and include an expansion valve 21 and an evaporator 22.Wherein, by pressure Contracting machine 11 is communicated in condenser 12 and evaporator 22, and expansion valve 21 is communicated in condenser 12 and evaporator 22 so that refrigerant can be according to Flowed between compressor 11, condenser 12, expansion valve 21 and evaporator 22 to sequence, to form a complete Air-conditioning Cycle.

In the present embodiment, the first space S 1 is the exterior space, so as to making the first housing 1 utilize an air-flow generating element 13 One thermal current F1 is drained into the first space S 1.In addition, second space S2 is the interior space, it is another so as to utilizing the second housing 2 One cold airflow F2 is drained into second space S2 by air-flow generating element 23, and then reaches the effect of cold-room.If however, with deflector Air-conditioning system 100 be a heating air conditioner system, then the first space S 1 be the interior space, second space S2 be the exterior space, but It is not limited.

Referring to Fig. 6, the inside for the first housing with deflector that Fig. 6 is provided by the utility model preferred embodiment Structural representation.As illustrated, the first housing 1 includes compressor 11, condenser 12, air-flow generating element 13, one first housing 14th, a compartment spacers 15, a deflector 16, a drive module 17 and a radiating module 18.

First housing 14 has space A in a shell, and offers at least an outside air inlet 141 and multiple gas outlets 142.Compartment spacers 15 are arranged at space A in shell, so as to space A in shell is divided into a first chamber A1 and a second chamber A2.Wherein, outside air inlet 141 is adjacent to first chamber A1.Wherein, outside air inlet 141 and gas outlet 142 can be net Hole and strip hole, but be not limited.

In addition, compartment spacers 15 offer a chamber port 151.Deflector 16 is arranged at adjacent to chamber port 151 Two chamber A2, and include one first water conservancy diversion plate body 161 and one second water conservancy diversion plate body 162.First water conservancy diversion plate body 161 is from compartment spacers 15 extend to a deflector turning point 1611.Second water conservancy diversion plate body 162 prolongs from deflector turning point 1611 towards gas outlet 142 Stretch.Whereby, second chamber A2 is divided into a heat-dissipating space A21 and a heat extraction space A22 by deflector 16.Wherein, chamber port 151 connection first chamber A1 and heat-dissipating space A21.

Condenser 12 is arranged at heat extraction space A22.The hot link of radiating module 18 is in drive module 17, and it is empty to be arranged at radiating Between A21.In the present embodiment, drive module 17 is a driving machine plate, and radiating module 18 is a heat radiation fin assemblies, but not with this It is limited.Radiating module 18 is arranged at the side that compartment spacers 15 are adjacent to heat-dissipating space A21, and drive module 17 corresponds to radiating Module 18 and be arranged at the side that compartment spacers 15 are adjacent to first chamber A1.Air-flow generating element 13 is adjacent to gas outlet 142 And second chamber A2 is arranged at, in the present embodiment, air-flow generating element 13 is a fan, but is not limited.

Referring to Fig. 7, the work for the first housing with deflector that Fig. 7 is provided by the utility model preferred embodiment State flow field schematic diagram.As illustrated, a heat energy can be produced when drive module 17 is in running, and mould is driven by hot link The radiating module 18 of block 17 absorbs heat energy.Condenser 12 can produce heat exchange in running, and a heat extraction gas H is emitted into Heat extraction space A22.

A radiating airflow F11 and a heat extraction air-flow F12 are produced when air-flow generating element 13 is in running.Radiating airflow F11 Meeting flows into first chamber A1 by the first space S 1 from outside air inlet 141, and sequentially via the heat-dissipating space of chamber port 151 A21 flows out to the first space S 1 with gas outlet 142.Wherein, can loss radiating when radiating airflow F11 flows through heat-dissipating space A21 The heat energy that module 18 is absorbed.

Heat extraction air-flow F12 flows to gas outlet 142 from heat extraction space A22.When heat extraction air-flow F12 flows through heat extraction space A22, Heat extraction gas H is expelled to the first space S 1 by meeting from gas outlet 142.Among this process, heat extraction air-flow F12 can be by deflector 16 The chance for flowing through heat-dissipating space A21 is guided and reduced, and then avoids influenceing the heat sinking benefit of radiating module 18.Incidentally, Radiating airflow F11 and heat extraction air-flow F12 can accumulate thermal current F1, so as to heat is drained into the first space S 1.

In summary, when air-flow generating element is in running, radiating airflow and heat extraction air-flow can be produced.Radiating airflow can flow Through heat-dissipating space, the heat energy absorbed so as to the self-driven module of loss radiating module.Heat extraction air-flow can flow through heat extraction space, so as to The heat extraction gas that condenser is given off discharges gas outlet.Wherein, radiating airflow can be guided by deflector, and reduced and flowed into Heat-dissipating space.Consequently, it is possible to which radiating module is not by higher heat extraction airflow influence its heat sinking benefit of temperature.

Compared to prior art, the air-conditioning system provided by the utility model with deflector is in running, discharging hot air Stream can be guided by deflector and reduce the chance into heat-dissipating space.Consequently, it is possible to not only avoid prior art because row The problem of radiating module heat sinking benefit is not good caused by thermal current, more can therefore and to further avoid drive module efficiency relatively low The problem of.Without doubt, while avoiding above mentioned problem from sending out, also ensure that the service life of drive module is prolonged It is long.

Certainly, the utility model can also have other various embodiments, spiritual and its essence without departing substantially from the utility model In the case of, those skilled in the art work as can make various corresponding changes and deformation, but these according to the utility model Corresponding change and deformation should all belong to the scope of the claims appended by the utility model.

Claims (10)

1. a kind of air-conditioning system with deflector, it is characterised in that including：

One first housing, is arranged at one first space, and comprising：

One first housing, with space in a shell, and offers an at least gas outlet；

One compartment spacers, are arranged at space in the shell, so as to space in the shell is divided into a first chamber and a second chamber, And offer the chamber port of the connection first chamber and the second chamber；

One deflector, the neighbouring chamber port and be arranged at the second chamber, by the second chamber be divided into a heat-dissipating space with One heat extraction space；

One condenser a heat extraction gas to be emitted into the heat extraction space in running；

One drive module to produce a heat energy in running；

One radiating module to absorb the heat energy, hot link is arranged at the heat-dissipating space in the drive module；And

One is used to produce a radiating airflow and a heat extraction air-flow in running, and the radiating airflow is passed through respectively with the discharging hot air stream Cross the heat-dissipating space and the heat extraction space and flow to the air-flow generating element of an at least gas outlet, be arranged at the second chamber.

2. having the air-conditioning system of deflector as claimed in claim 1, it is characterised in that further include a second housing, this Two bodies are arranged at a second space, and comprising an expansion valve and an evaporator, wherein, the first housing further includes a compression Machine, the condenser connects the expansion valve and the compressor with the evaporator.

3. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the air-flow generating element is arranged at this Second chamber, and it is adjacent to an at least gas outlet.

4. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the air-flow generating element is a wind Fan.

5. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the chamber port connects first chamber Room and the heat-dissipating space of the second chamber.

6. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the deflector prolongs from the compartment spacers Stretch.

7. there is the air-conditioning system of deflector as claimed in claim 6, it is characterised in that the deflector is further included：

One first water conservancy diversion plate body, a deflector turning point is extended to from the compartment spacers；And

One second water conservancy diversion plate body, extends from the deflector turning point towards an at least gas outlet.

8. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the radiating module is arranged at the chamber Dividing plate is adjacent to the side of the heat-dissipating space, and the drive module corresponds to the radiating module and is arranged at the compartment spacers and is adjacent to The side of the first chamber.

9. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that the radiating module is a radiating fin Component.

10. there is the air-conditioning system of deflector as claimed in claim 1, it is characterised in that first housing is offered at least One is communicated in the outside air inlet of the first chamber.