CN105480046A - Vehicle-mounted air conditioning system - Google Patents

Abstract

The invention provides a vehicle-mounted air conditioning system. The vehicle-mounted air conditioning system comprises an infrared temperature sensor and a controller, wherein the infrared temperature sensor is used for detecting the positions of people in a vehicle and sending detected position information to the controller, and the controller is used for controlling the air outflow direction angles of corresponding air outlets in the vehicle according to tracking/avoiding mode information and controlling the air outflow of the corresponding air outlets according to air flow mode information. By the adoption of the vehicle-mounted air conditioning system, the air direction is automatically adjusted and the air flow mode is automatically set according to real-time requirements of different passengers for an air conditioner, and the ride comfort requirement of the passengers is met.

Description

Mounted air conditioner system

Technical field

The embodiment of the present invention relates to field of automobile air conditioner, particularly relates to a kind of mounted air conditioner system.

Background technology

Along with the develop rapidly of automobile, the life of people has more and more closely combined with auto-domain, and in order to meet people for the requirement with car traveling comfort, automobile is mostly furnished with cold/hot air-conditioning system.

But current mounted air conditioner system, the air outlet of on-board air conditioner cannot adjust wind direction and setting air quantity pattern automatically according to the real-time requirement of user, for the air-conditioning such as old man and child sensitive group, the method do not hidden especially, so the traveling comfort that have impact on that passenger rides.

Summary of the invention

The embodiment of the present invention provides a kind of mounted air conditioner system, achieves and automatically adjusts wind direction and setting air quantity pattern for different passenger to the real-time requirement of air-conditioning, meet the traveling comfort demand that passenger rides.

The embodiment of the present invention provides a kind of mounted air conditioner system, comprising:

Infrared temperature sensor, for personnel positions in inspection vehicle, and sends to controller by detecting the location information obtained;

Described controller, for controlling the air-out of corresponding air outlet in car towards angle according to following the tracks of/hiding pattern information, and controls the air output of described corresponding air outlet according to air quantity pattern information.

Further, mounted air conditioner system as above, described controller comprises master controller and air outlet controller;

Described air outlet controller, for receiving the described location information that described infrared temperature sensor sends, sends to described master controller by described location information;

Described master controller, for sending air-out towards instruction according to described tracking/hide pattern information to described air outlet controller, and sends out Boiler pressure control instruction according to described air quantity pattern information to described air outlet controller;

Described air outlet controller, also for controlling the air-out of corresponding air outlet in car towards angle according to described wind towards instruction, and controls the air output of described corresponding air outlet according to described Boiler pressure control instruction.

Further, mounted air conditioner system as above, wirelessly communicates between described master controller and described air outlet controller.

Further, mounted air conditioner system as above, also comprise: user's inputting interface, for receiving the described tracking/hide pattern information and described air quantity pattern information of user's input, and by described tracking/hide pattern information with described air quantity pattern information sends to described master controller.

Further, mounted air conditioner system as above, described air quantity pattern information comprises: user selects air force pattern and system self-adaption air force pattern.

Further, mounted air conditioner system as above, described infrared temperature sensor, also for detecting occupant's shell temperature information and personnel's ambient temperature information, and sends to described controller by described personnel's shell temperature information and described personnel's ambient temperature information;

Described controller, if be also system self-adaption air force pattern for described air quantity pattern information, then according to described personnel's shell temperature information and described personnel's ambient temperature information, controls the air output of described corresponding air outlet.

Further, mounted air conditioner system as above, described controller, specifically for: if at least one in described personnel's shell temperature and described personnel's ambient temperature exceedes setting threshold, then the air output controlling corresponding described air outlet increases.If be both no more than setting threshold in described personnel's shell temperature and described personnel's ambient temperature, then the air output controlling corresponding described air outlet returns to default value.

Further, mounted air conditioner system as above, in car in front deck and rear deck, corresponding seat position is provided with an air outlet, and each described air outlet place is provided with an infrared temperature sensor.

The embodiment of the present invention provides a kind of mounted air conditioner system, comprising: infrared temperature sensor, for personnel positions in inspection vehicle, and sends to controller by detecting the location information obtained; Controller, for controlling the air-out of corresponding air outlet in car towards angle according to following the tracks of/hiding pattern information, and controls the air output of corresponding air outlet according to air quantity pattern information.This system achieves and automatically adjusts wind direction and setting air quantity pattern for different passenger to the real-time requirement of air-conditioning, meets the traveling comfort demand that passenger rides.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of mounted air conditioner system embodiment one of the present invention;

Fig. 2 is the structural representation of mounted air conditioner system embodiment two of the present invention.

The mounted air conditioner system workflow diagram that Fig. 3 provides for the embodiment of the present invention two.

Detailed description of the invention

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

In embodiments of the present invention, for the structure of the mounted air conditioner system of the present invention for all the people present illustrates of seat in car, the front deck that is distributed as at four seats is respectively main driving seat and front passenger's seat, and rear deck is respectively left side passenger-seat and right side passenger-seat.

Fig. 1 is the structural representation of mounted air conditioner system embodiment one of the present invention, and as shown in Figure 1, the mounted air conditioner system that the present embodiment provides comprises: infrared temperature sensor 101 and controller 102.

Wherein, infrared temperature sensor 101, for personnel positions in inspection vehicle, and sends to controller 102 by detecting the location information obtained.Controller 102, for controlling the air-out of corresponding air outlet in car towards angle according to following the tracks of/hiding pattern information, and controls the air output of corresponding air outlet according to air quantity pattern information.

Particularly, in the present embodiment, infrared temperature sensor 101, can be placed on a wheel word, this wheel word can scan interior space, carry out in the process of interior space scanning at wheel word, the contour detecting occupant position of personnel's shell temperature scope that infrared temperature sensor 101 is preset with this according to the personnel's shell temperature scope preset.

Wherein, infrared temperature sensor 101 number and position do not limit, can on the comprehensive wheel word that interior space is scanned as infrared temperature sensor 101 being arranged on, infrared temperature sensor can the position of all personnel in inspection vehicle, also a wheel word can be all set at each vehicle seat correspondence position, each wheel word all arranges an infrared temperature sensor 101, and each wheel word can scan corresponding vehicle seat space in the mode of sector region scanning.In wheel word scanning car corresponding vehicle seat space process in, each infrared temperature sensor 101 is for detecting corresponding vehicle seat place personnel positions.Now, if a certain vehicle seat does not have personnel, then the occupant position of the correspondence that corresponding infrared temperature sensor 101 detects is null value.When each vehicle seat correspondence position all arranges a wheel word, can arrange on the dash panel at the operator's saddle of front deck and the wheel word at front passenger's seat place, the wheel word at the passenger seat place of rear deck can be arranged on the back of operator's saddle and front passenger's seat or be arranged on the passage of operator's saddle and front passenger's seat.

In the present embodiment, after infrared temperature sensor 101 detects occupant position, the location information detected is sent to controller 102, when only having an infrared temperature sensor in whole car, each location information can be sent to controller successively, controller judges quantity and the seating position of occupant according to location information, when the corresponding infrared temperature sensor 101 of each vehicle seat, each infrared temperature sensor 101 detects the occupant position at corresponding vehicle seat place, and the location information detected is sent to controller 102, controller 102 judges occupant's quantity and seating position according to the location information that each infrared temperature sensor sends.As by judging to be three people in car, ride in main driving seat respectively, on the left side passenger-seat of assistant driver seat and rear deck.

In the present embodiment, after controller 102 receives location information, control the air-out of corresponding air outlet in car towards angle according to following the tracks of/hiding pattern information.Particularly, following the tracks of/hide pattern information is that user selects according to the actual demand of each passenger.If user selects tracing mode for a certain position passenger, then according to the passenger that the air-out of the corresponding air outlet in tracing mode information control car is dried towards angle towards these needs, if user selects to hide pattern for a certain passenger, then according to hiding air-out that pattern information controls the corresponding air outlet in car towards angle not towards the passenger hiding blowing.

In the present embodiment, can in car in front deck and rear deck, corresponding seat position is provided with an air outlet, as in car with four seats, respectively two air outlets are respectively set at front deck and rear deck, two air outlets of front deck can be arranged on the dash panel, and two air outlets of rear deck can be arranged on the back of operator's saddle and front passenger's seat or be arranged on the passage of operator's saddle and front passenger's seat.

Illustrate that controller is according to the method for air-out towards angle of following the tracks of/hiding corresponding air outlet in pattern information control car for two of front deck air outlets.If user is the personnel selection tracing mode at main driving seat, for pattern is hidden in the personnel selection of assistant driver seat, then angle belonging to the position of following the tracks of/hiding air-out that pattern information controls two air outlets in front deck and to be towards angle the personnel at main driving seat, and angle belonging to the position avoiding the personnel of assistant driver seat.If user is the personnel selection tracing mode at main driving seat, for the personnel of assistant driver seat also select tracing mode, then controller 102 can control the air-out of an air outlet in front deck towards angle angle belonging to the position of the personnel at main driving seat according to following the tracks of/hiding pattern information, angle belonging to the position of the chaufeur that the air-out of another air outlet in front deck is assistant driver seat towards angle.

In the present embodiment, after controller 102 receives location information, control the air output of each air outlet according to air quantity pattern information.Particularly, air quantity pattern information is inputted by user, and air quantity pattern information can select air force pattern for user, also can be system self-adaption air force pattern.Wherein, user selects air force pattern to be that user selects the pattern of air quantity grade according to cold and hot degree, and system self-adaption air force pattern is the pattern of Automatic adjusument air force.

The mounted air conditioner system provided in the present embodiment, comprising: infrared temperature sensor, for personnel positions in inspection vehicle, and sends to controller by detecting the location information obtained; Controller, for controlling the air-out of each air outlet in car towards angle according to following the tracks of/hiding pattern information, and controls the air output of each air outlet according to air quantity pattern information.This system achieves and automatically adjusts wind direction and setting air quantity pattern for different passenger to the real-time requirement of air-conditioning, meets the traveling comfort demand that passenger rides.

Further, the mounted air conditioner system that the present embodiment provides, air quantity pattern information comprises: user selects air force pattern and system self-adaption air force pattern.

Wherein, user selects air force to be user according to cold and hot degree to select the pattern of air quantity grade, the pattern of the system self-adaption air force pattern air force that to be system calculate according to the shell temperature of each personnel and personnel's ambient temperature and default algorithm.

For realizing system self-adaption air force pattern, when the air quantity pattern information of user's input is system self-adaption air force pattern, infrared temperature sensor 101, also for detecting occupant's shell temperature information and personnel's ambient temperature information, and personnel's shell temperature information and personnel's ambient temperature information are sent to controller 102, controller 102, if be also system self-adaption air force pattern for air quantity pattern information, then according to personnel's shell temperature information and personnel's ambient temperature information, control the air output of corresponding air outlet.

Wherein, controller 102, specifically for: if at least one in personnel's shell temperature and personnel's ambient temperature exceedes setting threshold, then the air output controlling corresponding air outlet increases.If be both no more than setting threshold in personnel's shell temperature and personnel's ambient temperature, then the air output controlling corresponding air outlet returns to default value.

In the mounted air conditioner system that the present embodiment provides, air quantity pattern information comprises: user selects air force pattern and system self-adaption air force pattern, infrared temperature sensor, also for detecting occupant's shell temperature information and personnel's ambient temperature information, and personnel's shell temperature information and personnel's ambient temperature information are sent to controller, controller, if be also system self-adaption air force pattern for air quantity pattern information, then according to personnel's shell temperature information and personnel's ambient temperature information, control the air output of corresponding air outlet, if at least one in personnel's shell temperature and personnel's ambient temperature exceedes setting threshold, the air output then controlling corresponding air outlet increases.If be both no more than setting threshold in personnel's shell temperature and personnel's ambient temperature, the air output then controlling corresponding air outlet returns to default value, while can following the tracks of/hide for the real-time requirement of different passenger to air-conditioning, can be passenger's initialization system self adaptation air force pattern, according to body surface temperature and the adaptive regulating air volume of personnel's ambient temperature, improve the traveling comfort of passenger further.

Fig. 2 is the structural representation of mounted air conditioner system embodiment two of the present invention, and as shown in Figure 2, the mounted air conditioner system that the present embodiment provides, on the basis of the embodiment of the present invention one, is provided with an infrared temperature sensor 101 at each air outlet place.So as shown in Figure 2, when being four seats in car, the number of air outlet and infrared temperature sensor is four.

Further, the mounted air conditioner system that the present embodiment provides, controller 102 comprises master controller 102a and air outlet controller 102b.

Particularly, the location information that air outlet controller 102b sends for receiving infrared temperature sensor 101, sends to master controller 102a by location information.Master controller 102a, for sending air-out towards instruction according to following the tracks of/hiding pattern information to air outlet controller 102b, and sends out Boiler pressure control instruction according to air quantity pattern information to air outlet controller 102b.Air outlet controller 102a, also for controlling the air-out of corresponding air outlet in car towards angle according to air-out towards instruction, and controls the air output of corresponding air outlet according to Boiler pressure control instruction.

Wherein, can be each air outlet and an air outlet controller 102b is all set, also multiple air outlet all can be controlled by an air outlet controller 102b.At micro controller system, (MicroControlUnit is called for short master controller 102a accessible site: MCU), and to be carried in car on original vehicle-mounted function control system.Also independently as parts, air-conditioning in car can be controlled, do not limit in the present embodiment.

In fig. 2 for all arranging the situation of an air outlet controller 102b at each air outlet 103, wherein, air outlet is respectively the first air outlet 103a, the second air outlet 103b, the 3rd air outlet 103c, the 4th air outlet 103d.Air outlet controller 102b is respectively the first air outlet controller 102b1, the second air outlet controller 102b2, the 3rd air outlet controller 102b3, the 4th air outlet controller 102b4.The infrared temperature sensor that each air outlet is corresponding is respectively the first infrared temperature sensor 101a1, the second infrared temperature sensor 101a2, the 3rd infrared temperature sensor 101a3 and the 4th infrared temperature sensor 101a4.

Preferably, the mounted air conditioner system that the present embodiment provides, wirelessly communicates between master controller 102a and air outlet controller 102b.

In the present embodiment, wirelessly communicate between master controller 102a and air outlet controller 102b, the phenomenon causing wiring complicated by wire transmission information can be avoided.

Further, the mounted air conditioner system that the present embodiment provides, also comprising: user's inputting interface 104, for receiving the tracking/hide pattern information and air quantity pattern information of user's input, and will follow the tracks of/hide pattern information and air quantity pattern information sends to master controller 102a.

Wherein, user's inputting interface 104 can share a user interface with existing vehicle-mounted function control system, and on user's inputting interface, user follows the tracks of/hide pattern information and air quantity pattern information by the mode input of touch screen or button on 104.Wherein, when pattern information is followed the tracks of/hidden in input, can input each personnel of riding seat successively according to the priority at seat in car and follow the tracks of/hide pattern information.As there being two personnel in car, being sitting in main driving seat and assistant driver seat respectively, is that pattern information is hidden in co-driver input for main driving seat personnel input tracing mode information.

In the present embodiment, air quantity pattern information comprises: user selects air force pattern and system self-adaption air force pattern.Then on user's inputting interface 104, after user follows the tracks of/hide pattern information by the mode input of touch screen or button, be the personnel selection air quantity pattern information of input tracing mode information, air quantity pattern information also inputs by the mode of touch screen or button.

The mounted air conditioner system that the present embodiment provides, comprise: user's inputting interface 104, for receiving the tracking/hide pattern information and air quantity pattern information of user's input, and will follow the tracks of/hide pattern information and air quantity pattern information sends to master controller, being convenient to the mutual of user and mounted air conditioner system.

Particularly, the mounted air conditioner system workflow diagram that Fig. 3 provides for inventive embodiments two, as shown in Figure 3, the mounted air conditioner system of the present embodiment can carry out work according to following steps.

Step 301, after unlatching mounted air conditioner system, counterpart personnel position in each infrared temperature sensor inspection vehicle, shell temperature information and personnel's ambient temperature information, and send to corresponding air outlet controller by detecting the personnel location information that obtains and shell temperature information and personnel's ambient temperature information.

In the present embodiment, each infrared temperature sensor detects in real time to the position of counterpart personnel in car and shell temperature information and personnel's ambient temperature information, when changing to make the position of occupant or shell temperature information and personnel's ambient temperature information, master controller can control air-out that air outlet controller changes air outlet towards angle and the air output changing corresponding air outlet when user's selective system self adaptation air force pattern according to the current location of occupant and current shell temperature information and personnel's ambient temperature information.

Step 302, each air outlet controller receives the personnel location information that corresponding infrared temperature sensor sends, shell temperature information and personnel's ambient temperature information, and sends it to master controller.

Step 303, user's inputting interface receives the tracking/hide pattern information and air quantity pattern information of each occupant of user's input, and will follow the tracks of/hide pattern information and air quantity pattern information sends to master controller.

In the present embodiment, the location information of the occupant that user's inputting interface can send according to master controller, seat belonging to the personnel positions in car is presented to user, with the seat with personnel making user present according to user's inputting interface, each personnel tracking in input car respectively/hide pattern information and air quantity pattern information, also all seats in car can be shown for user's inputting interface to user, user is according to the personnel that take actual in car and riding seat, each personnel tracking in input car respectively/hide pattern information and air quantity pattern information, do not limit in the present embodiment.

Step 304, master controller sends air-out towards instruction according to following the tracks of/hiding the air outlet controller of pattern information to correspondence, and sends out Boiler pressure control instruction according to air quantity pattern information to the air outlet controller of correspondence.

In the present embodiment, master controller sends air-out towards instruction and Boiler pressure control instruction to the air outlet controller of the correspondence taking personnel.

Particularly, in the present embodiment, if the air quantity pattern information that master controller receives is system self-adaption air force pattern, then judge each personnel's shell temperature and personnel's ambient temperature, according to the air outlet controller transmission system self adaptation Boiler pressure control instruction of preset algorithm to correspondence, if the air quantity pattern information that master controller receives is family select air force pattern, then sends user to air outlet controller and select Boiler pressure control instruction.

Step 305, air outlet controller controls the air-out of corresponding air outlet in car towards angle according to wind towards instruction, and controls the air output of corresponding air outlet according to Boiler pressure control instruction.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (8)

1. a mounted air conditioner system, is characterized in that, comprising:

Infrared temperature sensor, for personnel positions in inspection vehicle, and sends to controller by detecting the location information obtained;

Described controller, for controlling the air-out of corresponding air outlet in car towards angle according to following the tracks of/hiding pattern information, and controls the air output of described corresponding air outlet according to air quantity pattern information.

2. mounted air conditioner system according to claim 1, is characterized in that, described controller comprises master controller and air outlet controller;

Described air outlet controller, for receiving the described location information that described infrared temperature sensor sends, sends to described master controller by described location information;

Described master controller, for sending air-out towards instruction according to described tracking/hide pattern information to described air outlet controller, and sends out Boiler pressure control instruction according to described air quantity pattern information to described air outlet controller;

Described air outlet controller, also for controlling the air-out of corresponding air outlet in car towards angle according to described wind towards instruction, and controls the air output of described corresponding air outlet according to described Boiler pressure control instruction.

3. mounted air conditioner system according to claim 2, is characterized in that,

Wirelessly communicate between described master controller and described air outlet controller.

4. mounted air conditioner system according to claim 3, it is characterized in that, also comprise: user's inputting interface, for receiving the described tracking/hide pattern information and described air quantity pattern information of user's input, and by described tracking/hide pattern information with described air quantity pattern information sends to described master controller.

5. the mounted air conditioner system according to any one of claim 1-4, is characterized in that, described air quantity pattern information comprises: user selects air force pattern and system self-adaption air force pattern.

6. mounted air conditioner system according to claim 5, it is characterized in that, described infrared temperature sensor, also for detecting occupant's shell temperature information and personnel's ambient temperature information, and sends to described controller by described personnel's shell temperature information and described personnel's ambient temperature information;

Described controller, if be also system self-adaption air force pattern for described air quantity pattern information, then according to described personnel's shell temperature information and described personnel's ambient temperature information, controls the air output of described corresponding air outlet.

7. mounted air conditioner system according to claim 6, it is characterized in that, described controller, specifically for: if at least one in described personnel's shell temperature and described personnel's ambient temperature exceedes setting threshold, then the air output controlling corresponding described air outlet increases.If be both no more than setting threshold in described personnel's shell temperature and described personnel's ambient temperature, then the air output controlling corresponding described air outlet returns to default value.

8. the mounted air conditioner system according to any one of claim 1-4, is characterized in that, in car in front deck and rear deck, corresponding seat position is provided with an air outlet, and each described air outlet place is provided with an infrared temperature sensor.