CN209534679U - Humidity control system and electric car for electric car - Google Patents
Humidity control system and electric car for electric car Download PDFInfo
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- CN209534679U CN209534679U CN201920177349.0U CN201920177349U CN209534679U CN 209534679 U CN209534679 U CN 209534679U CN 201920177349 U CN201920177349 U CN 201920177349U CN 209534679 U CN209534679 U CN 209534679U
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Abstract
Humidity control system and electric car provided by the present application for electric car, belongs to electric automobile air conditioner field.The humidity control system for being used for electric car includes: first area temperature-adjusting device, first control device, second area temperature-adjusting device and second control device;First control device is connect with first area temperature-adjusting device, and second control device is connect with second area temperature-adjusting device;First control device is used for according to the thermostatic first input parameter in institute's received first control signal control first area, so that first area temperature-adjusting device generates the first temperature corresponding with first control signal for acting on first area;Second control device is used for according to the thermostatic second input parameter of the received second control signal control second area of institute, so that second area temperature-adjusting device generates the second temperature corresponding with second control signal for acting on second area.And then the power consumption of electric car is effectively reduced.
Description
Technical field
This application involves electric automobile air conditioner field, in particular to for electric car humidity control system and
Electric car.
Background technique
Current most of electric automobile air conditioners all use for reference conventional fuel oil automobile way, substitute conventional compression with motor compressor
Machine is freezed using the refrigerant decalescence in evaporator, heating then generally using 3~7 kw of power air-heating or
The electric heater of hot-water heating, heat efficiency ratio is less than 1, and when work needs to consume the electricity of a large amount of power batteries, to course continuation mileage
It is affected.
However since the two-region air-conditioning of electric car is when two sides temperature setting is different, for conventional fuel oil automobile,
Due to will not additionally increase energy consumption when the heating of conventional fuel oil automobile, it is only necessary to pass through the respective temperature wind of main driving and copilot side
The cold wind of the door adjusting mixed flow pervaporation device leaving air temp different from the hot wind proportion adjustment of heater cores is flowed through.However, right
For electric car, needs to be heated by electric heater in heating, will result in two-region air-conditioning in this way in two sides temperature
When setting different, compressor and electric heater needed to open simultaneously in some time, then each by main driving and copilot side
From temperature damper adjust mixed flow pervaporation device cold wind it is different from the hot wind proportion adjustment of heater cores is flowed through out wind-warm syndrome
Degree, it is larger to make it possible to loss-rate.
Summary of the invention
In view of this, the humidity control system and electric car provided by the embodiments of the present application for electric car.
In a first aspect, a kind of humidity control system for electric car provided by the embodiments of the present application, comprising: the firstth area
Domain temperature-adjusting device, first control device, second area temperature-adjusting device and second control device;The first control dress
It sets and is connect with the first area temperature-adjusting device, the second control device and the second area temperature-adjusting device connect
It connects;The first control device is used to control the first area according to the received first control signal of institute thermostatic
First input parameter, so that the first area temperature-adjusting device, which generates, acts on believing with first control for first area
Number corresponding first temperature;The second control device is used to control the second area according to the received second control signal of institute
It is thermostatic second input parameter so that the second area temperature-adjusting device generate act on second area with
The corresponding second temperature of the second control signal.
In above-mentioned implementation, in different regions, temperature-adjusting device and control device, each region is respectively set
Control device temperature control signals control thermostatic input parameter based on the received respectively so that the temperature in the region
Degree regulating device generates the temperature corresponding with the control signal in the region for acting on the region, and then may be implemented different
Region sets different temperature.Above-mentioned implementation in the embodiment of the present application, compared to the prior art in to different
When region sets different temperatures, the mode by compressor and electric heater while unlatching is needed, the application needs not rely on pressure
Contracting machine and electric heater are opened so reducing energy consumption simultaneously.
With reference to first aspect, the embodiment of the present application provides the first possible embodiment of first aspect, further includes:
Compressor and condensing unit;The output end of the compressor is connected to the input terminal of the condensing unit, the condensing unit
Output end is connected to the input terminal of the input terminal of the first control device and the second control device respectively;The compressor
For compressed refrigerant to be delivered to the first control device and the second control device via the condensing unit;
The first control device enters the first area temperature tune for the control signal control of first flow based on the received
The first flow of the refrigerant of regulating device;The second control device is for the control letter of second flow based on the received
Number control enter the thermostatic refrigerant of the second area second flow.
The possible embodiment of with reference to first aspect the first, the embodiment of the present application provide second of first aspect
Possible embodiment, the first area temperature-adjusting device include the first evaporator;The first control device includes the
One flow regulator;The output end of the first flow regulating device is connected to the input terminal of first evaporator;It is described
First evaporator be used for according to institute the received first flow the refrigerant generation act on the first area with
The first flow controls corresponding first temperature of signal.
In above-mentioned implementation, by first flow regulating device, first flow controls signal control based on the received
System enters the first flow of the refrigerant of first evaporator.Again by first evaporator according to a received institute
The refrigerant for stating first flow generates act on the first area corresponding with first flow control signal the
One temperature, and then accurately realize the refrigeration to first area.
The possible embodiment of second with reference to first aspect, the embodiment of the present application provide the third of first aspect
Possible embodiment, the condensing unit include condenser pipe, the output end of the input terminal of the condenser pipe and the compressor
Connection, the output end of the condenser pipe connect with the input terminal of the first flow regulating device and the second control device respectively
It is logical.
The third possible embodiment with reference to first aspect, the embodiment of the present application provide the 4th kind of first aspect
Possible embodiment, the condensing unit include cooling fan, and the cooling fan and the condenser pipe face are arranged.
In above-mentioned implementation, by the way that cooling fan is arranged, thus defeated to compressor by cooling fan and condenser pipe
The refrigerant entered is condensed, and then the condensation effect to refrigerant can be improved.
The possible embodiment of second with reference to first aspect, the embodiment of the present application provide the 5th kind of first aspect
Possible embodiment, the first flow regulating device are electric expansion valve.
The possible embodiment of with reference to first aspect the first or second of possible embodiment, the embodiment of the present application
The 6th kind of possible embodiment of first aspect is provided, the second area temperature-adjusting device includes the second evaporator;
The second control device includes second flow regulating device;The output end of the second flow regulating device and described second steams
Send out the input terminal connection of device;The output end of second evaporator is connected to the compressor;Second evaporator is used for root
According to the refrigerant of the received second flow generate controlling with the second flow of acting on the second area
The corresponding second temperature of signal.
In above-mentioned implementation, by second flow regulating device, second flow controls signal control based on the received
System enters the second flow of the refrigerant of second evaporator.Again by second evaporator according to a received institute
The refrigerant for stating second flow generates act on the second area corresponding with second flow control signal the
Two temperature, and then accurately realize the refrigeration to second area.
The 6th kind of possible embodiment with reference to first aspect, the embodiment of the present application provide the 7th kind of first aspect
Possible embodiment, the second flow regulating device are electric expansion valve.
With reference to first aspect, the embodiment of the present application provides the 8th kind of possible embodiment of first aspect, and described
One regional temperature regulating device includes: primary heater;The first control device includes the first variable power power supply;Described
One variable power power supply is used to control itself output power according to the received first control signal of institute, so that described first heats
Device generates the first temperature corresponding with the first control signal for acting on the first area.
In above-mentioned implementation, through the first variable power power supply according to the received first control signal control of institute
The heating power of primary heater, so that the primary heater, which generates, acts on controlling with described first for the first area
Corresponding first temperature of signal, and then accurately realize the heating to first area.
The 8th kind of embodiment with reference to first aspect or with reference to first aspect, the embodiment of the present application provide first aspect
The 9th kind of possible embodiment, the second area temperature-adjusting device includes: secondary heater;The second control dress
It sets including the second variable power power supply;The second variable power power supply is used for according to the received second control signal control of institute certainly
The output power of body, so that secondary heater generation acts on the corresponding with the second control signal of the second area
Second temperature.
In above-mentioned implementation, through the second variable power power supply according to the received second control signal control of institute
The heating power of secondary heater, so that the secondary heater, which generates, acts on controlling with described second for the second area
The corresponding second temperature of signal, and then accurately realize the heating to second area.
With reference to first aspect, the embodiment of the present application provides the tenth kind of possible embodiment of first aspect, and described
One regional temperature regulating device includes: the first heater cores;The first control device includes the first thermal cycle pipeline;Described
One heater cores and the first thermal cycle pipeline connection;The first thermal cycle pipeline is used for according to received first control of institute
Signal control flows into the fluid flow of first heater cores, so that first heater cores generation acts on first area
The first temperature corresponding with the first control signal.
In above-mentioned implementation, institute is flowed into according to the received first control signal control of institute by the first thermal cycle pipeline
The fluid flow of the first heater cores is stated, so that first heater cores, which generate, acts on controlling with described first for first area
Corresponding first temperature of signal processed, and then the heating effect to first area can be made more accurate.
The tenth kind of possible embodiment with reference to first aspect, the embodiment of the present application provide the 11st of first aspect
The possible embodiment of kind, the first thermal cycle pipeline include: the first water pump, the first electric heater and the first adjustable flow dress
It sets;The input terminal of first water pump is connected to the output end of first heater cores;The output end of first water pump with
The input terminal of first electric heater is connected to;The output end of first electric heater and the first adjustable flow device
Input terminal connection;First output end of the first adjustable flow device is connected to the input terminal of first heater cores;Institute
The first adjustable flow device valve is stated for flowing into first heater cores according to the received first flow control signal control of institute
Fluid flow so that first heater cores, which generate, acts on corresponding with the first control signal the of first area
One temperature.
In above-mentioned implementation, by by the output end of the input terminal of the first water pump and first heater cores;Institute
The output end for stating the first water pump is connected to the input terminal of first electric heater;The output end of first electric heater and institute
State the input terminal connection of the first adjustable flow device;First output end of the first adjustable flow device and first warm wind
The input terminal of core is connected to;The first adjustable flow device valve is used to control institute according to the received first flow control signal of institute
It states the first output end and adjusts the fluid flow for flowing into first heater cores, so that first heater cores generation acts on
The first temperature corresponding with the first control signal of first area.It can further control into first heater cores
Fluid flow, further such that the heating effect to first area is more accurate.
The tenth a kind of embodiment with reference to first aspect or with reference to first aspect, the embodiment of the present application provide first party
The 12nd kind of possible embodiment in face, the second area temperature-adjusting device include: the second heater cores;Described second
Control device includes the second thermal cycle pipeline;Second heater cores and the second thermal cycle pipeline connection;Described second
Thermal cycle pipeline is used for the fluid flow according to institute's received second control signal control inflow second heater cores, so that
Second heater cores generate the second temperature corresponding with the second control signal for acting on second area.
In above-mentioned implementation, institute is flowed into according to the received second control signal control of institute by the second thermal cycle pipeline
The fluid flow of the second heater cores is stated, so that second heater cores, which generate, acts on controlling with described second for second area
The corresponding second temperature of signal processed, and then the heating effect to second area can be made more accurate.
The 12nd kind of possible embodiment with reference to first aspect, the embodiment of the present application provide the tenth of first aspect
Three kinds of possible embodiments, the second thermal cycle pipeline include: the second water pump, the second electric heater and the second adjustable flow
Device;The input terminal of second water pump is connected to the output end of second heater cores;The output end of second water pump
It is connected to the input terminal of second electric heater;The output end of second electric heater and the second adjustable flow device
Input terminal connection;The second output terminal of the second adjustable flow device is connected to the input terminal of second heater cores;
The second adjustable flow device is used to flow into second heater cores according to the received second flow control signal control of institute
Fluid flow so that second heater cores, which generate, acts on corresponding with the second control signal the of second area
Two temperature.
In above-mentioned implementation, by the way that the output end of the input terminal of the second water pump and second heater cores is connected
It is logical;The output end of second water pump is connected to the input terminal of second electric heater;The output of second electric heater
End is connected to the input terminal of the second adjustable flow device;The second output terminal of the second adjustable flow device and described the
The input terminal of two heater cores is connected to;The second adjustable flow device is used to control signal control according to the received second flow of institute
System enters the fluid flow of second heater cores so that second heater cores generate act on second area with institute
State the corresponding second temperature of second control signal.The fluid flow into second heater cores can be further controlled, into
One step makes the heating effect to second area more accurate.
The 6th kind of embodiment with reference to first aspect or with reference to first aspect, the embodiment of the present application provide first aspect
The 14th kind of possible embodiment, the humidity control system further includes third thermal cycle pipeline, the third thermal cycle
Pipeline includes: third water pump and third electric heater;The first area temperature-adjusting device includes: the first heater cores;Institute
Stating first control device includes first flow adjustment module;The second area temperature-adjusting device includes: the second heater cores;
The second control device includes second flow adjustment module;The input terminal of the third water pump respectively with the first warm wind core
Body is connected to the output end of second heater cores;The input of the output end of the third water pump and the third electric heater
End connection;The output end of the third electric heater adjusts mould with the first flow adjustment module and the second flow respectively
The input terminal of block is connected to;The first flow adjustment module is used to enter institute according to the received first flow control signal control of institute
The fluid flow of the first heater cores is stated, so that first heater cores, which generate, acts on controlling with described first for first area
Corresponding first temperature of signal processed;The second flow adjustment module is used for according to the received second flow control signal control of institute
Flow into the fluid flow of second heater cores so that second heater cores generate act on second area with it is described
The corresponding second temperature of second control signal.
In above-mentioned implementation, by by the input terminal of third water pump respectively with first heater cores and described
The output end of two heater cores is connected to;The output end of the third water pump is connected to the input terminal of the third electric heater;Institute
State the output end input with the first flow adjustment module and the second flow adjustment module respectively of third electric heater
End connection;The output end of the first flow adjustment module is connected to the input terminal of first heater cores;The second
The output end of amount adjustment module is connected to the input terminal of second heater cores.To which the temperature on the one hand can be effectively reduced
On the other hand the cost of regulating system can also realize and carry out different temperatures settings to two regions respectively so that into
When row dual area heats temperature difference, without first carrying out refrigeration processing to some region of temperature, and then it is effectively saved electronic
The electric energy of automobile, so effectively overcome it is of the existing technology two-region air-conditioning two sides temperature setting it is different when, compressor and
Energy consumption high technical problem caused by electric heater needs to open simultaneously in some time.
With reference to first aspect, the embodiment of the present application provides the 15th kind of possible embodiment of first aspect, described
First area temperature-adjusting device and the second area temperature-adjusting device are set in air conditioning box body, in the air conditioning box body
Equipped with partition, the partition be set to the first area temperature-adjusting device and the second area temperature-adjusting device it
Between;The partition is for the temperature in the first area to be isolated with the temperature in the second area.
In above-mentioned implementation, by the way that the partition is arranged, by the temperature and described second in the first area
Temperature in region is isolated, and so as to effectively avoid first area and second area mutually goes here and there heat, and then improves first
The precision of temperature caused by region and second area, further saves energy consumption, while further increasing user experience.
Second aspect, a kind of electric car provided by the embodiments of the present application, comprising: such as any one embodiment of first aspect
The humidity control system.
Other feature and advantage of the disclosure will illustrate in the following description, alternatively, Partial Feature and advantage can be with
Deduce from specification or unambiguously determine, or by implement the disclosure above-mentioned technology it can be learnt that.
To enable the above objects, features, and advantages of the application to be clearer and more comprehensible, preferred embodiment is cited below particularly, and cooperate
Appended attached drawing, is described in detail below.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application, below will be to needed in the embodiment attached
Figure is briefly described, it should be understood that the following drawings illustrates only some embodiments of the application, therefore is not construed as pair
The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other relevant attached drawings.
Fig. 1 is the functional block diagram of the humidity control system provided by the embodiments of the present application for electric car;
Fig. 2 is a kind of structural schematic diagram of humidity control system provided by the embodiments of the present application;
Fig. 3 is the functional block diagram of another humidity control system provided by the embodiments of the present application;
Fig. 4 is the structural schematic diagram of another humidity control system provided by the embodiments of the present application;
Fig. 5 is that another first area temperature-adjusting device provided by the embodiments of the present application is connect with first control device
Structural schematic diagram;
Fig. 6 is that another second area temperature-adjusting device provided by the embodiments of the present application is connect with second control device
Structural schematic diagram;
Fig. 7 is the structural schematic diagram of another humidity control system provided by the embodiments of the present application;
Fig. 8 is the structural schematic diagram of another humidity control system provided by the embodiments of the present application;
Fig. 9 is the structural schematic diagram of another humidity control system provided by the embodiments of the present application.
Icon: 10- humidity control system;The first area 100- temperature-adjusting device;200- first control device;300-
Two regional temperature regulating devices;400- second control device;500- compressor;600- condensing unit;700- third heat circulation pipe
Road;800- air conditioning box body;The first evaporator of 110-;120- primary heater;The first heater cores of 130-;210- first flow tune
Regulating device;220- the first variable power power supply;230- the first thermal cycle pipeline;240- first flow adjustment module;231- first
Water pump;The first electric heater of 232-;233- the first adjustable flow device;The second evaporator of 310-;320- secondary heater;330-
Second heater cores;410- second flow regulating device;420- the second variable power power supply;430- the second thermal cycle pipeline;
440- second flow adjustment module;The second water pump of 431-;432 second electric heaters;433- the second adjustable flow device;610- is cold
Solidifying pipe;620- cooling fan;710- third water pump;720- third electric heater;810- partition.
Specific embodiment
To keep the purposes, technical schemes and advantages of the embodiment of the present application clearer, below in conjunction with the embodiment of the present application
In attached drawing, technical solutions in the embodiments of the present application is described.
With reference to the accompanying drawing, it elaborates to some embodiments of the application.In the absence of conflict, following
Feature in embodiment and embodiment can be combined with each other.
Referring to Fig. 1, being the humidity control system provided by the embodiments of the present application for electric car, humidity control system
10 include: first area temperature-adjusting device 100, first control device 200, second area temperature-adjusting device 300 and second
Control device 400.
In the embodiment of the present application, first area temperature-adjusting device 100 generate act on first area with described the
Corresponding first temperature of one control signal.
First control device 200, which is used to control the first area temperature according to the received first control signal of institute, adjusts dress
The the first input parameter set, so that the first area temperature-adjusting device, which generates, acts on controlling with described first for first area
Corresponding first temperature of signal processed.
Optionally, first area can be the main driving side of electric car.
Certainly, in actual use, first area is also possible to the copilot side of electric car.
The second control device 400 is used to control the second area temperature tune according to the received second control signal of institute
Regulating device 300 second input parameter so that the second area temperature-adjusting device 300 generate act on second area with
The corresponding second temperature of the second control signal.
Optionally, second area can be the copilot side of electric car.
Certainly, in actual use, second area is also possible to the main driving side of electric car.
As an implementation, as shown in Fig. 2, humidity control system 10 further include: compressor 500 and condensing unit
600;The output end of the compressor 500 is connected to the input terminal of the condensing unit 600, the output of the condensing unit 600
End is connected to the input terminal of the input terminal of the first control device 200 and the second control device 400 respectively.
In the embodiment of the present application, the compressor 500 is used for compressed refrigerant via the condensing unit 600
It is delivered to the first control device 200 and the second control device 400.
The first control device 200 enters described first for the control signal control of first flow based on the received
The first flow of the refrigerant of regional temperature regulating device 100;
The second control device 400 enters described second for the control signal control of second flow based on the received
The second flow of the refrigerant of regional temperature regulating device 300
Optionally, the compressor 500 is motor compressor.
A kind of temperature system as implement scene, with continued reference to Fig. 2, in the interior first area to electric car
When cold, first area temperature-adjusting device 100 includes the first evaporator 110;The first control device 200 includes first flow
Regulating device 210.
Wherein, the input terminal of the first flow regulating device 210 is connected to the output end of the condensing unit 600, institute
The output end for stating first flow regulating device 210 is connected to the input terminal of first evaporator 110.First evaporator
110 output end is connected to compressor 500.
In the embodiment of the present application, the first flow regulating device 210 is used for first flow control based on the received
Signal control processed enters the first flow of the refrigerant of first evaporator 110.
Optionally, first flow control signal is used to control the of the refrigerant of entrance first evaporator 110
One flow.
Optionally, first flow control signal can be user and pass through produced by the temperature setting button in electric car
, and based on passing to the first flow regulating device after the processing of the components such as processor (or controller) in electric car
210.
Certainly, in actual use, first flow control signal can also be directly through the middle control system in electric car
System is sent to first flow regulating device 210.Here, being not especially limited.
Optionally, first evaporator 110 be used for according to institute the received first flow the refrigerant generation
Act on the first temperature corresponding with first flow control signal of the first area.
In the embodiment of the present application, by first flow regulating device 210, first flow control is believed based on the received
Number control enter first evaporator 110 the refrigerant first flow.Pass through 110 basis of the first evaporator again
The refrigerant of the received first flow generate controlling with the first flow of acting on the first area and believe
Number corresponding first temperature.
Optionally, the first flow regulating device 210 is electric expansion valve.
Certainly, in actual use, the first flow regulating device 210 can also be other flow-control equipments, example
Such as, electromagnet cut off valve or three-way solenoid valve be can be.Here, being not especially limited.
As a kind of implement scene, with continued reference to Fig. 2, in the temperature system of the interior second area to electric car
When cold, the second area temperature-adjusting device 300 includes the second evaporator 310;The second control device 400 includes second
Flow regulator 410.
Wherein, the input terminal of the second flow regulating device 410 is connected to the output end of the condensing unit 600, institute
The output end for stating second flow regulating device 410 is connected to the input terminal of second evaporator 310;Second evaporator
310 output end is connected to the compressor 500.
In the embodiment of the present application, the second flow regulating device 410 is used for second flow control based on the received
Signal control processed enters the second flow of the refrigerant of second evaporator 310.
Optionally, the second flow regulating device 410 is electric expansion valve.
Certainly, in actual use, the second flow regulating device 410 can also be other flow-control equipments, example
Such as, electromagnet cut off valve or three-way solenoid valve be can be.Here, being not especially limited.
Optionally, second flow control signal is used to control the of the refrigerant of entrance second evaporator 310
Two flows.
Optionally, second flow control signal can be user and pass through produced by the temperature setting button in electric car
, and based on passing to the second flow regulating device after the processing of the components such as processor (or controller) in electric car
410.
Certainly, in actual use, second flow control signal can also be directly through the middle control system in electric car
System is sent to second flow regulating device 410.Here, being not especially limited.
Optionally, second evaporator 310 be used for according to institute the received second flow the refrigerant generation
Act on the second temperature corresponding with second flow control signal of the second area.
As another implement scene, the interior first area and second area to electric car temperature simultaneously into
When row refrigeration, it is only necessary to be adjusted respectively by first flow regulating device 210 and second flow regulating device 410 and enter the first steaming
Send out the flow of the refrigerant of device 110 and the second evaporator 310, thus generate respectively the first temperature for the first area with
And act on the second temperature of the second area.And then it is effectively saved the electric energy of electric car, and then effectively overcome existing
Existing for technology in two-region air-conditioning when two sides temperature setting is different, compressor and electric heater need simultaneously in some time
The high technical problem of energy consumption caused by unlatching.
As an example it is assumed that when extraneous (outside the vehicle of electric car) environment temperature is 30 DEG C, it is assumed that air-conditioning main driving side (the
One region) set temperature is that 22 DEG C and target leaving air temp are 20 DEG C, copilot side (second area) set temperature be 25 DEG C and
Target leaving air temp be 25 DEG C (wherein, major-minor is driven do not consider wind by the heat loss in air duct in the case of), pass through and adjust compression
The aperture of the first flow regulating device 210 of 500 revolving speed of machine and main driving side, to adjust the first evaporation into main driving side
The refrigerant flow of device 110, so that extraneous 30 DEG C of wind reduces temperature when passing through the first evaporator 110 of main driving side
It to 20 DEG C, is opened without electric heater, the first evaporator 110 that wind passes through reaches master and drives air outlet, to realize 30 DEG C
Wind is reduced to 20 DEG C.Likewise, adjusting by the aperture for the second flow regulating device 410 for adjusting copilot side and entering the passenger side
The refrigerant flow of the second evaporator 310 of side is sailed, so that extraneous 30 DEG C of wind to be passed through to the second evaporator 310 of copilot side
When temperature is reduced to 25 DEG C.So that without electric heater open, can so that the refrigeration of the electric car more
It is energy-efficient.
In the embodiment of the present application, the temperature in the interior first area and second area to electric car carries out simultaneously
When refrigeration, signal control is controlled by first flow received by first flow regulating device 210 and enters first evaporation
The first flow of the refrigerant of device 110 so that the first evaporator 110 generate act on the first area with described the
Corresponding first temperature of one flow control signal.And pass through second flow control received by second flow regulating device 410
Signal control processed enters the second flow of the refrigerant of second evaporator 310, so that the second evaporator 310 generates work
Second temperature corresponding with second flow control signal for the second area.So that generated firstth area
It can be independent of each other between domain and the temperature of second area, realize independent control, and then can be with the electricity of effectively save electric car
Can, so effectively overcome it is of the existing technology in two-region air-conditioning when two sides temperature setting is different, compressor and electric heater
Energy consumption high technical problem caused by needing to open simultaneously in some time.
Referring to figure 3. with Fig. 4, as an implementation, the interior first area to electric car temperature into
When row heating, the first area temperature-adjusting device 100 includes: primary heater 120;The first control device 200 wraps
Include the first variable power power supply 220.
Wherein, the primary heater 120 is connect with the first variable power power supply 220.
Optionally, the first variable power power supply 220 is used for according to institute's received first control signal control described the
The heating power of one heater 120 so that the primary heater 120 generate act on the first area with described first
Control corresponding first temperature of signal.
Optionally, the first variable power power supply 220 is used to export output power corresponding with first control signal, from
And primary heater 120 is made to generate heating power corresponding with output power, so that 120 generation of the primary heater acts on
The first temperature corresponding with the first control signal in the first area.
Optionally, first control signal is used to control the output power of the first variable power power supply 220, to pass through the output
The heating power of power control primary heater 120.
Optionally, first control signal can be caused by the temperature setting button that user passes through in electric car, and
Based on passing to the first variable power power supply 220 after the processing of the components such as processor (or controller) in electric car
, so that the first variable power power supply 220 exports corresponding with set temperature output power to primary heater 120, into
And primary heater 120 is made to generate the first temperature corresponding with the first control signal for acting on the first area.
As another embodiment, described when the temperature of the interior second area to electric car heats
Second area temperature-adjusting device 300 includes: secondary heater 320;The second control device 400 includes the second variable power
Power supply 420.
Wherein, the secondary heater 320 is connect with the second variable power power supply 420.
Optionally, the second variable power power supply 420 can for controlling second according to the received second control signal of institute
The output power of Variable power power supply 420 so that the secondary heater 320 generate act on the second area with described the
The corresponding second temperature of two control signals.
Optionally, second control signal is used to control the heating power of secondary heater 320.
Optionally, second control signal can be caused by the temperature setting button that user passes through in electric car, and
Based on passing to the second variable power power supply 420 after the processing of the components such as processor (or controller) in electric car
, so that the second variable power power supply 420 exports corresponding with set temperature output power to secondary heater 320, into
And secondary heater 320 is made to generate the second temperature corresponding with the second control signal for acting on the second area.
As another embodiment, the interior first area and second area to electric car temperature simultaneously into
When row heating, it is only necessary to adjust input first respectively by the first variable power power supply 220 and the second variable power power supply 420 and add
The heating power of hot device 120 and secondary heater 320, so that primary heater 120 and secondary heater 320 generate respectively
For the first area the first temperature and act on the second temperature of the second area.So that carrying out two-region
When domain heats temperature difference, without first carrying out refrigeration processing to some region of temperature, and then it is effectively saved electric car
Electric energy, so effectively overcome it is of the existing technology in two-region air-conditioning when two sides temperature setting is different, compressor and electric heating
Energy consumption high technical problem caused by device needs to open simultaneously in some time.
Referring to figure 5., as an implementation, the temperature in the interior first area to electric car heats
When, the first area temperature-adjusting device 100 includes: the first heater cores 130;The first control device 200 includes the
One thermal cycle pipeline 230;First heater cores 130 are connected to the first thermal cycle pipeline 230.
Optionally, the first heater cores 130 under the action of the fluid flow that the first thermal cycle pipeline 230 inputs for producing
Raw heat corresponding with the fluid flow, so as to be heated by the wind of first heater cores 130, so that generation acts on the
First temperature in one region.
Optionally, the first thermal cycle pipeline 230 is used for according to the received first control signal control inflow of institute
The fluid flow of first heater cores 130 so that first heater cores 130 generate act on first area with described the
Corresponding first temperature of one control signal.
Optionally, the first thermal cycle pipeline 230 includes: that the first water pump 231, the first electric heater 232 and first can
Adjust flow apparatus 233;The output end of the input terminal of first water pump 231 and first heater cores 130;First water
The output end of pump 231 is connected to the input terminal of first electric heater 232;The output end of first electric heater 232 with
The input terminal of the first adjustable flow device 233 is connected to;First output end of the first adjustable flow device 233 with it is described
The input terminal of first heater cores 130 is connected to.
Optionally, the first water pump 231 can be electronic water pump.
Certainly, in actual use, the first water pump 231 can also be other flow water pump equipment, for example, it may be high pressure
Water pump.Here, being not especially limited.
Optionally, the first water pump 231 is used to the liquid that the first heater cores 130 export being pumped into the first electric heater 232.
Optionally, the input power of the first water pump 231 is adjustable, by adjusting the input power of the first water pump 231, to adjust
Section is pumped into the fluid flow of the first electric heater 232 from the first heater cores 130.
Optionally, the first electric heater 232 is used to heat the liquid that the first water pump 231 is pumped into, and will be after heating
Liquid export to the first adjustable flow device 233.
Optionally, the first electric heater 232 can be air heater.
Certainly, in actual use, the first electric heater 232 can also be other heating equipments, for example, it may be air-heating
Heater.Here, being not especially limited.
Optionally, the first adjustable flow device 233 is used for according to the received first flow control signal control stream of institute
Enter first output end and adjust the fluid flow for entering first heater cores 130, so that first heater cores 130
Generate the first temperature corresponding with the first control signal for acting on first area.
Optionally, the first adjustable flow device 233 can be three-way magnetic valve, be also possible to electromagnetic expanding valve, either
Two-way electromagnetic valve.
Certainly, in actual use, the first adjustable flow device 233 can also be shut-off valve.Here, not limiting specifically
It is fixed.
In the embodiment of the present application, independent to the first warm wind core of entrance by the first thermal cycle pipeline 230 being independently arranged
The fluid flow of body 130 is controlled, to generate heat corresponding with the fluid flow, acts on firstth area to generate
First temperature corresponding with the first control signal in domain, and then heating effect can be made more accurate.
Fig. 6 is please referred to, as another embodiment, in the temperature system of the interior second area to electric car
When hot, the second area temperature-adjusting device 300 includes: the second heater cores 330;The second control device 400 includes
Second thermal cycle pipeline 430;Second heater cores 330 are connected to the second thermal cycle pipeline 430.
Optionally, the second thermal cycle pipeline 430 is used for according to the received second control signal control entrance of institute
The fluid flow of second heater cores 330 so that second heater cores 330 generate act on second area with described the
The corresponding second temperature of two control signals.
Optionally, the second thermal cycle pipeline 430 includes: that the second water pump 431, the second electric heater 432 and second can
Adjust flow apparatus 433;The input terminal of second water pump 431 is connected to the output end of second heater cores 330;Described
The output end of two water pumps 431 is connected to the input terminal of second electric heater 432;The output of second electric heater 432
End is connected to the input terminal of the second adjustable flow device 433;The second output terminal of the second adjustable flow device 433 with
The input terminal of second heater cores 330 is connected to.
Optionally, the second water pump 431 can be electronic water pump.
Certainly, in actual use, the second water pump 431 can also be other flow water pump equipment, for example, it may be high pressure
Water pump.Here, being not especially limited.
Optionally, the second water pump 431 is used to the liquid that the second heater cores 330 export being pumped into the second electric heater 432.
Optionally, the input power of the second water pump 431 is adjustable, by adjusting the input power of the second water pump 431, to adjust
Section is pumped into the fluid flow of the second electric heater 432 from the second heater cores 330.
Optionally, the second electric heater 432 is used to heat the liquid that the second water pump 431 is pumped into, and will be after heating
Liquid export to the second adjustable flow device 433.
Optionally, the second electric heater 432 can be air heater.
Certainly, in actual use, the second electric heater 432 can also be other heating equipments, for example, it may be air-heating
Heater.Here, being not especially limited.
Optionally, the second adjustable flow device 433 be used to be controlled according to institute's received second flow control signal into
Enter the fluid flow of second heater cores 330 so that second heater cores 330 generate act on second area with
The corresponding second temperature of the second control signal.
Optionally, the second adjustable flow device 433 can be three-way magnetic valve, be also possible to electromagnetic expanding valve, or
Person is two-way electromagnetic valve.
Certainly, in actual use, the second adjustable flow device 433 can also be shut-off valve.Here, not limiting specifically
It is fixed.
In the embodiment of the present application, independent to the second warm wind core of entrance by the second thermal cycle pipeline 430 being independently arranged
The fluid flow of body 330 is controlled, to generate heat corresponding with the fluid flow, acts on secondth area to generate
The second temperature corresponding with the second control signal in domain.And then heating effect can be made more accurate.
Fig. 7 to Fig. 9 is please referred to, as another embodiment, in the interior first area and second to electric car
When the temperature in region is heated simultaneously, the first area temperature-adjusting device 100 includes: the first heater cores 130;It is described
First control device 200 includes the first thermal cycle pipeline 230;First heater cores 130 and the first thermal cycle pipeline
230 connections.And the second area temperature-adjusting device 300 includes: the second heater cores 330;The second control device 400
Including the second thermal cycle pipeline 430;Second heater cores 330 are connected to the second thermal cycle pipeline 430.To pass through
First thermal cycle pipeline 230 according to received first control signal control the fluid floies of first heater cores 130, with
First heater cores 130 are made to generate the first temperature corresponding with the first control signal for acting on first area.With
And by the second thermal cycle pipeline 430 according to the control of received second control signal enter second heater cores 330
Fluid flow, so that second heater cores 330 generation acts on the corresponding with the second control signal of second area
Second temperature.Different temperatures setting is carried out to two regions respectively to realize, so that heating temperature carrying out dual area
When different, without first carrying out refrigeration processing to some region of temperature, and then it is effectively saved the electric energy of electric car, Jin Eryou
Effect overcome it is of the existing technology in two-region air-conditioning when two sides temperature setting is different, compressor and electric heater are for a long time
In need to open simultaneously caused by the high technical problem of energy consumption.
As another embodiment, the interior first area and second area to electric car temperature simultaneously into
When row heating, the humidity control system 10 further includes third thermal cycle pipeline 700, and the third thermal cycle pipeline 700 includes:
Third water pump 710 and third electric heater 720;The first area temperature-adjusting device 100 includes: the first heater cores 130;
The first control device 200 includes first flow adjustment module 240;The second area temperature-adjusting device 300 includes:
Two heater cores 330;The second control device 400 includes second flow adjustment module 440;The third water pump 710 it is defeated
Enter end to be connected to the output end of first heater cores 130 and second heater cores 330 respectively;The third water pump
710 output end is connected to the input terminal of the third electric heater 720;The output end of the third electric heater 720 is distinguished
It is connected to the input terminal of the first flow adjustment module 240 and the second flow adjustment module 440;The first flow tune
The output end of section module 240 is connected to the input terminal of first heater cores 130;The second flow adjustment module 440
Output end is connected to the input terminal of second heater cores 330.
Optionally, the first flow adjustment module 240 can be three-way magnetic valve, be also possible to electromagnetic expanding valve, or
Person is two-way electromagnetic valve.
Certainly, in actual use, first flow adjustment module 240 can also be shut-off valve.Here, not limiting specifically
It is fixed.
Optionally, the first flow adjustment module 240 be used to be controlled according to institute's received first flow control signal into
Enter the fluid flow of first heater cores 130 so that first heater cores 130 generate act on first area with
Corresponding first temperature of the first control signal.
Optionally, the second flow adjustment module 440 can be three-way magnetic valve, be also possible to electromagnetic expanding valve, or
Person is two-way electromagnetic valve.
Certainly, in actual use, second flow adjustment module 440 can also be shut-off valve.Here, not limiting specifically
It is fixed.
Optionally, the second flow adjustment module 440 be used to be controlled according to institute's received second flow control signal into
Enter the fluid flow of second heater cores 330 so that second heater cores 330 generate act on second area with
The corresponding second temperature of the second control signal.
Optionally, as shown in figure 9, the first flow adjustment module 240 can be common with second flow adjustment module 440
Constitute three-way magnetic valve.To be connected to the first heater cores 130 and second heater cores 330 by the three-way magnetic valve.
Optionally, third water pump 710 is used for the liquid for exporting the first heater cores 130 and second heater cores 330
Body is pumped into third electric heater 720.
Optionally, third water pump 710 can be electronic water pump.
Certainly, in actual use, third water pump 710 can also be other flow water pump equipment, for example, it may be high pressure
Water pump.Here, being not especially limited.
Optionally, the input power of third water pump 710 is adjustable, for adjusting from the first heater cores 130 and described second
Heater cores 330 are pumped into the fluid flow of third electric heater 720.
Optionally, third electric heater 720 is used to heat the liquid for flowing through the third electric heater 720, and will
Liquid after heating is exported to first flow adjustment module 240 and the second flow adjustment module 440.
Optionally, third electric heater 720 can be air heater.
Certainly, in actual use, third electric heater 720 can also be other heating equipments, for example, it may be air-heating
Heater.Here, being not especially limited.
In the embodiment of the present application, by by the input terminal of third water pump 710 respectively with first heater cores 130 and
The output end of second heater cores 330 is connected to;The output end of the third water pump 710 and the third electric heater 720
Input terminal connection;The output end of the third electric heater 720 respectively with the first flow adjustment module 240 and described
The input terminal of two flow adjustment modules 440 is connected to;The output end of the first flow adjustment module 240 and the first warm wind core
The input terminal of body 130 is connected to;The input of the output end of the second flow adjustment module 440 and second heater cores 330
End connection.To which the cost of the humidity control system 10 on the one hand can be effectively reduced, it is right respectively on the other hand can also to realize
Two regions carry out different temperatures setting, so that when carrying out dual area heating temperature difference, without first to a certain region
Temperature carry out refrigeration processing, and then be effectively saved the electric energy of electric car, so effectively overcome it is of the existing technology
Two-region air-conditioning is when two sides temperature setting is different, caused by compressor and electric heater need to open simultaneously in some time
The high technical problem of energy consumption.
In the embodiment of the present application, the condensing unit 600 include condenser pipe 610, the input terminal of the condenser pipe 610 with
The output end of the compressor 500 is connected to, the output end of the condenser pipe 610 respectively with the first flow regulating device 210
Input terminal be connected to the second control device 400, i.e., the output end of the described condenser pipe 610 respectively with the first flow tune
The input terminal of regulating device 210 is connected to second flow regulating device 410.
Optionally, the refrigerant that the condenser pipe 610 is used to input compressor 500 condenses.
Optionally, the condensing unit 600 further include: cooling fan 620, the cooling fan 620 and the condenser pipe
The setting of 610 faces.
Optionally, cooling fan 620 is for generating cooling wind, with by cooling wind to the refrigerant in condenser pipe 610 into
One step is condensed.
In the embodiment of the present application, by the way that cooling fan 620 is arranged, thus right by cooling fan 620 and condenser pipe 610
The refrigerant that compressor 500 inputs is condensed, and then the condensation effect to refrigerant can be improved.
As an implementation, humidity control system 10 further includes air conditioning box body 800, and the first area temperature is adjusted
Device 100 and the second area temperature-adjusting device 300 are set in air conditioning box body 800.
Optionally, partition 810 is additionally provided in air conditioning box body 800, the partition 810 is set to the first area temperature tune
Between regulating device 100 and the second area temperature-adjusting device 300.
Optionally, the partition 810 be used for by the first area temperature and the second area in temperature into
Row isolation.
In the embodiment of the present application, by the way that the partition 810 is arranged, by the temperature and described the in the first area
Temperature in two regions is isolated, and so as to effectively avoid first area and second area mutually goes here and there heat, and then improves the
The precision of temperature caused by one region and second area.Further increase user experience.
It, can also be into it should be noted that humidity control system 10 provided by the embodiments of the present application of stating can freeze
Row heating, such as Fig. 4, Fig. 8 and schematic diagram shown in Fig. 9.Here, being not especially limited.
Structure description based on above-mentioned humidity control system 10, the embodiment of the present application also provides include that above-mentioned temperature is adjusted
The electric car of system 10.
It is used for the humidity control system and electric car of electric car provided by the embodiment of the present application, passes through the first control
Device 200 according to received first control signal control first area temperature-adjusting device 100 the first input parameter so that
The first area temperature-adjusting device 100 generates the first temperature corresponding with the first control signal for acting on first area
Degree;By second control device 400 according to received second control signal control the of second area temperature-adjusting device 300
Two input parameters, so that the second area temperature-adjusting device 300, which generates, acts on controlling with described second for second area
The corresponding second temperature of signal.To which temperature-adjusting device (first area temperature-adjusting device be respectively set in different regions
100 and second area temperature-adjusting device 300) and control device (first control device 200 and second control device 400), respectively
Temperature control signals control thermostatic input parameter to the control device in a region based on the received respectively, so that the area
The temperature-adjusting device in domain generates the temperature corresponding with the control signal in the region for acting on the region, and then may be implemented
Different regions sets different temperature.Above-mentioned implementation in the embodiment of the present application, compared to the prior art in right
When different regions sets different temperatures, the mode by compressor and electric heater while unlatching is needed, the application does not need
It is opened simultaneously so reducing energy consumption by compressor and electric heater.
The foregoing is merely preferred embodiment of the present application, are not intended to limit this application, for the skill of this field
For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair
Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.It should also be noted that similar label and letter exist
Similar terms are indicated in following attached drawing, therefore, once being defined in a certain Xiang Yi attached drawing, are then not required in subsequent attached drawing
It is further defined and explained.
Claims (17)
1. a kind of humidity control system for electric car characterized by comprising first area temperature-adjusting device,
One control device, second area temperature-adjusting device and second control device;The first control device and the first area
Temperature-adjusting device connection, the second control device are connect with the second area temperature-adjusting device;
The first control device is used to control the first area temperature-adjusting device according to the received first control signal of institute
The first input parameter so that the first area temperature-adjusting device generate it is acting on first area with first control
Corresponding first temperature of signal;
The second control device is used to control the second area temperature-adjusting device according to the received second control signal of institute
The second input parameter so that the second area temperature-adjusting device generate it is acting on second area with second control
The corresponding second temperature of signal.
2. humidity control system according to claim 1, which is characterized in that further include: compressor and condensing unit;It is described
The output end of compressor is connected to the input terminal of the condensing unit, and the output end of the condensing unit is controlled with described first respectively
The input terminal of device processed is connected to the input terminal of the second control device;
The compressor is used to compressed refrigerant being delivered to the first control device and institute via the condensing unit
State second control device;
The first control device enters the first area temperature for the control signal control of first flow based on the received
Spend the first flow of the refrigerant of regulating device;
The second control device enters the second area temperature for the control signal control of second flow based on the received
Spend the second flow of the refrigerant of regulating device.
3. humidity control system according to claim 2, which is characterized in that the first area temperature-adjusting device includes
First evaporator;The first control device includes first flow regulating device;
The output end of the first flow regulating device is connected to the input terminal of first evaporator;
First evaporator be used for according to institute the received first flow the refrigerant generate act on described first
First temperature corresponding with first flow control signal in region.
4. humidity control system according to claim 3, which is characterized in that the condensing unit includes condenser pipe, described
The input terminal of condenser pipe is connected to the output end of the compressor, the output end of the condenser pipe respectively with the first flow tune
The input terminal of regulating device is connected to the second control device.
5. humidity control system according to claim 4, which is characterized in that the condensing unit includes cooling fan, institute
It states cooling fan and the condenser pipe face is arranged.
6. humidity control system according to claim 3, which is characterized in that the first flow regulating device is that electronics is swollen
Swollen valve.
7. humidity control system according to claim 2 or 3, which is characterized in that the second area temperature-adjusting device
Including the second evaporator;The second control device includes second flow regulating device;
The output end of the second flow regulating device is connected to the input terminal of second evaporator;Second evaporator
Output end is connected to the compressor;
Second evaporator be used for according to institute the received second flow the refrigerant generate act on described second
The second temperature corresponding with second flow control signal in region.
8. humidity control system according to claim 7, which is characterized in that the second flow regulating device is that electronics is swollen
Swollen valve.
9. humidity control system according to claim 1, which is characterized in that the first area temperature-adjusting device packet
It includes: primary heater;The first control device includes the first variable power power supply;
The first variable power power supply be used for according to received first control signal control itself output power so that institute
It states primary heater and generates the first temperature corresponding with the first control signal for acting on the first area.
10. according to claim 1 or humidity control system described in 9, which is characterized in that the second area temperature-adjusting device
It include: secondary heater;The second control device includes the second variable power power supply;
The second variable power power supply be used for according to received second control signal control itself output power so that institute
It states secondary heater and generates the second temperature corresponding with the second control signal for acting on the second area.
11. humidity control system according to claim 1, which is characterized in that the first area temperature-adjusting device packet
It includes: the first heater cores;The first control device includes the first thermal cycle pipeline;First heater cores and described first
Thermal cycle pipeline connection;
The first thermal cycle pipeline is used for according to institute's received first control signal control inflow first heater cores
Fluid flow, so that first heater cores generation acts on corresponding with the first control signal the first of first area
Temperature.
12. humidity control system according to claim 11, which is characterized in that the first thermal cycle pipeline includes:
One water pump, the first electric heater and the first adjustable flow device;
The input terminal of first water pump is connected to the output end of first heater cores;
The output end of first water pump is connected to the input terminal of first electric heater;
The output end of first electric heater is connected to the input terminal of the first adjustable flow device;
First output end of the first adjustable flow device is connected to the input terminal of first heater cores;
The first adjustable flow device is used to control the first output end tune according to the received first flow control signal of institute
Throttle into the fluid flow of first heater cores so that first heater cores generate act on first area with institute
State corresponding first temperature of first control signal.
13. according to claim 1 or humidity control system described in 11, which is characterized in that the second area temperature adjusts dress
Setting includes: the second heater cores;The second control device includes the second thermal cycle pipeline;Second heater cores with it is described
Second thermal cycle pipeline connection;
The thermal cycle pipeline is used for the liquid according to institute's received second control signal control inflow second heater cores
Flow, so that second heater cores generate the second temperature corresponding with the second control signal for acting on second area
Degree.
14. humidity control system according to claim 13, which is characterized in that the second thermal cycle pipeline includes:
Two water pumps, the second electric heater and the second adjustable flow device;
The input terminal of second water pump is connected to the output end of second heater cores;
The output end of second water pump is connected to the input terminal of second electric heater;
The output end of second electric heater is connected to the input terminal of the second adjustable flow device;
The second output terminal of the second adjustable flow device is connected to the input terminal of second heater cores;
The second adjustable flow device is used to flow into second warm wind according to the received second flow control signal control of institute
The fluid flow of core, so that second heater cores generation acts on the corresponding with the second control signal of second area
Second temperature.
15. humidity control system according to claim 1, which is characterized in that the humidity control system further includes third
Thermal cycle pipeline, the third thermal cycle pipeline include: third water pump and third electric heater;
The first area temperature-adjusting device includes: the first heater cores;The first control device includes first flow tune
Save module;
The second area temperature-adjusting device includes: the second heater cores;The second control device includes second flow tune
Save module;
The input terminal of the third water pump is connected to the output end of first heater cores and second heater cores respectively;
The output end of the third water pump is connected to the input terminal of the third electric heater;
The output end of the third electric heater respectively with the first flow adjustment module and the second flow adjustment module
Input terminal connection;
The first flow adjustment module is used to flow into first warm wind according to the received first flow control signal control of institute
The fluid flow of core, so that first heater cores generation acts on the corresponding with the first control signal of first area
The first temperature;
The second flow adjustment module is used to flow into second warm wind according to the received second flow control signal control of institute
The fluid flow of core, so that second heater cores generation acts on the corresponding with the second control signal of second area
Second temperature.
16. humidity control system according to claim 1, which is characterized in that the first area temperature-adjusting device with
The second area temperature-adjusting device is set in air conditioning box body, and partition, the partition setting are equipped in the air conditioning box body
Between the first area temperature-adjusting device and the second area temperature-adjusting device;
The partition is for the temperature in the first area to be isolated with the temperature in the second area.
17. a kind of electric car characterized by comprising the humidity control system as described in claim 1-16 any one.
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CN201920177349.0U CN209534679U (en) | 2019-01-30 | 2019-01-30 | Humidity control system and electric car for electric car |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109649122A (en) * | 2019-01-30 | 2019-04-19 | 广州小鹏汽车科技有限公司 | Humidity control system and control method for electric car |
CN113085483A (en) * | 2021-04-26 | 2021-07-09 | 智马达汽车有限公司 | System and method for synchronously controlling temperature of double-zone air conditioner |
CN114312234A (en) * | 2021-12-31 | 2022-04-12 | 优跑汽车技术(上海)有限公司 | Automobile air conditioner |
-
2019
- 2019-01-30 CN CN201920177349.0U patent/CN209534679U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109649122A (en) * | 2019-01-30 | 2019-04-19 | 广州小鹏汽车科技有限公司 | Humidity control system and control method for electric car |
CN113085483A (en) * | 2021-04-26 | 2021-07-09 | 智马达汽车有限公司 | System and method for synchronously controlling temperature of double-zone air conditioner |
CN113085483B (en) * | 2021-04-26 | 2022-07-22 | 智马达汽车有限公司 | System and method for synchronously controlling temperature of double-zone air conditioner |
CN114312234A (en) * | 2021-12-31 | 2022-04-12 | 优跑汽车技术(上海)有限公司 | Automobile air conditioner |
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