DE102013020925A1 - Motor vehicle has carbon-dioxide sensitive camera for checking harmful substance content of air transported through air conditioner, where camera is arranged downstream evaporator - Google Patents

Abstract

The motor vehicle has an air conditioner (3) which comprises a blower (11) in a housing (9) for intaking of ambient air. The blower is arranged downstream an evaporator (15), through which the intake air flows. A carbon-dioxide sensitive camera for checking the harmful substance content of the air transported through the air conditioner is arranged downstream the evaporator. An independent claim is included for a method for determining carbon-dioxide content of the air in an air conditioner of a motor vehicle.

Description

The invention relates to a motor vehicle with an air conditioner, which has a fan for sucking in ambient air in a housing, wherein the blower downstream of an evaporator, through which flows the sucked air.

Today's air conditioning suck for cooling or heating a passenger compartment of the vehicle ambient air and cool or heat these and give the cooled or heated air to the passenger compartment on. In particular polluted air is transported via the air conditioning in the passenger compartment, where this air is inhaled by the vehicle occupants. Such polluted air influences the health of the vehicle occupants. In particular, if the ambient air is highly CO ₂ -containing, thereby also the safety of the vehicle occupants, in particular the driver of the vehicle, is impaired.

The object of the invention is to provide a motor vehicle and a method for determining a CO ₂ content of the air in an air conditioner.

The invention results from the features of the independent claims. Advantageous developments and refinements are the subject of the dependent claims. Other features, applications and advantages of the invention will become apparent from the following description, as well as the explanation of embodiments of the invention, which is illustrated in the figures.

The object is achieved with a motor vehicle in that the evaporator is followed by a CO ₂ -sensitive camera for checking the pollutant content of the air transported through the air. The use of such a CO ₂ -sensitive camera is determined on site in the air conditioner, whether the ambient air is contaminated. Upon detection of a contamination, especially with CO ₂ measures can be taken immediately to prevent the transmission of ambient air into the passenger compartment. Thus, a health hazard to the vehicle occupants is prevented by CO ₂ -containing air.

Advantageously, the camera used is an infrared camera with a narrowband filter. In an infrared camera equipped with a narrow-band filter that only lets through light that is heavily CO ₂ -loaded, the CO ₂ content of the air circulating in the air-conditioner can be easily detected.

In one embodiment, the camera facing the evaporator is arranged in the air flow. Through this assignment, the infrared camera with its optics is exposed to the entire air flow, so that the present in the camera narrow-band filter can evaluate the air flow in terms of CO ₂ content well.

In a variant, a filter for cleaning the sucked in by the fan ambient air is arranged in front of the evaporator. The functionality of this filter can be checked simultaneously by the infrared camera, especially when the filter is provided for the separation of CO ₂ -containing particles in the air of the air conditioner. Is behind the evaporator still CO ₂ measured -belastete air can be assumed that the filter is not working properly.

In one embodiment, the camera is connected to a control device which evaluates a CO ₂ -dependent signal output by the camera and actuates a valve in evaluation of the CO ₂ -dependent signal, which valve is arranged in the refrigeration cycle in front of the air-conditioning system. The control device can immediately close depending on the detected by the camera CO ₂ content located in the air conditioning valve, thereby ensuring that no CO ₂ -stressed air enters the passenger compartment.

A development of the invention relates to a method for determining a CO ₂ content of the air in an air conditioning system, preferably for a motor vehicle, in which ambient air is sucked into the air conditioner. In a method in which the CO ₂ content in the ambient air inside the air conditioner can be detected well, the circulating airflow in the air conditioner is examined by means of a CO ₂ -sensitive camera for a CO ₂ content. The assessment of the CO ₂ content of the air which is moved within the air conditioning is a good prerequisite for the protection of the vehicle occupants, who have taken place within a passenger compartment of the motor vehicle. If a critical CO ₂ content is detected, the air supply to the passenger compartment can be switched off by suitable measures. As a result, a preventive health protection for the vehicle occupants is made.

Advantageously, the camera outputs a CO ₂ -dependent signal for evaluation to a control device which actuates a valve in evaluation of the CO ₂ -dependent signal. Such a valve is a very simple and inexpensive means to interrupt the supply of air to the passenger compartment, if it is contaminated with CO ₂ , and which closes the cooling circuit.

In one embodiment, the control device closes the valve when exceeding a predetermined CO ₂ threshold by the measured CO ₂ content of the air in the air conditioner. This ensures that health-threatening limits defined by the CO ₂ threshold are not exceeded.

In a variant, the CO ₂ -dependent signal emitted by the camera is evaluated as to whether a filter disposed upstream of an evaporator cleans the air flowing into the air-conditioning system. In particular, if behind the evaporator, a CO ₂ content is measured, which is greater than the predetermined CO ₂ threshold, it can be assumed that the function of the filter is disturbed. In addition, however, a filter loading can be detected, which is particularly important for the service case, and a service technician indicates whether a new filter must be installed or not.

Further advantages, features and details will become apparent from the following description in which - where appropriate, with reference to the drawings - at least one embodiment is described in detail. Described and / or illustrated features may form the subject of the invention itself or in any meaningful combination, optionally also independent of the claims, and in particular may also be the subject of one or more separate application / s. The same, similar and / or functionally identical parts are provided with the same reference numerals.

Show it:

1 An embodiment of the motor vehicle according to the invention with an air conditioner,

2 an embodiment of the air conditioner according to 1 ,

1 shows an embodiment of a motor vehicle 1 which has air conditioning 3 having. The air conditioner 3 which are below a cockpit 5 within the motor vehicle 1 is arranged, is with a control device 7 connected, the same time for operation by the vehicle occupant in the motor vehicle cockpit 5 is arranged.

An embodiment of the air conditioning 3 is in 2 shown. The air conditioner 3 has a housing 9 in which a blower 11 is arranged, which the ambient air into the housing 9 sucks. Behind the blower 11 is a filter in the flow direction of the air 13 provided, which is an evaporator 15 is subordinate. Through the filter 13 and then through the evaporator 15 flowing air gets into an air distribution tract 17 passed, which at least one output 19 to the passenger compartment 21 of the motor vehicle 1 in which a valve 23 is arranged. In the flow direction of the air, the evaporator 15 downstream, is an infrared camera 25 positioned with a CO ₂ -sensitive narrowband filter, which is installed by their optics so that these in the direction of the evaporator 15 is aligned. This infrared camera 25 is with the control device 7 connected, which in turn in electrical connection with the first valve 23 and a second valve 27 stands, wherein the second valve 27 in one of the lines 29 the cooling circuit is arranged.

During operation of the air conditioner 3 detects the infrared camera 25 the air flow coming from the evaporator 15 exit. That of the infrared camera 25 provided image is for evaluation to the controller 7 forwarded. The control device 7 rates this image with a given threshold. Exceeds the CO ₂ content of the infrared camera 25 image representing the given CO ₂ threshold, so the controller closes 7 the valve 23 To prevent the CO2-contaminated air from the air conditioning 3 in the passenger compartment 21 of the motor vehicle 1 flows. Is the CO ₂ content, which is due to the image of the infrared camera 25 is documented, below the defined predetermined CO ₂ threshold, the valve remains 23 opened so that the conditioned air from the air conditioning 3 in the passenger compartment 21 can flow.

In addition to determining the CO ₂ content of the air conditioner 3 can by means of the infrared camera 25 at the same time the functioning of the filter 13 be checked. In addition, during operation, the filter loading can be determined by the infrared camera 25 supplied image by the controller 7 be recognized, wherein the control device 7 indicates a service case at a filter load that is close to or above the preset CO ₂ threshold, hence the filter 13 is replaced. At the same time, however, a gas test can also be carried out if, for example, a new filter 13 was built in and still a high CO ₂ content in, through the filter 13 and the evaporator 15 flowing air is detected. It can be assumed that the newly installed filter 13 not working properly.

Although the invention has been further illustrated and explained in detail by way of preferred embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention. It is therefore clear that a multitude of possible variations exists. It is also to be understood that exemplified embodiments are really only examples that are not to be construed in any way as limiting the scope, applicability, or configuration of the invention. Rather, the foregoing description and description of the figures enable one skilled in the art to practice the exemplary embodiments, and those of skill in the knowledge of the disclosed inventive concept may make various changes, for example as to the function or arrangement of individual elements recited in an exemplary embodiment, without Protected area, which is defined by the claims and their legal equivalents, such as further explanation in the description.

Claims (9)

Motor vehicle with an air conditioner, which is housed in a housing ( 9 ) a blower ( 11 ) for sucking in ambient air, wherein the blower ( 11 ) an evaporator ( 15 ), through which the sucked air flows, characterized in that the evaporator ( 15 ) a CO ₂ -sensitive camera ( 25 ) for checking the pollutant content of the air conditioning system ( 3 ) transported air is arranged downstream. Motor vehicle according to Claim 1, characterized in that the camera is an infrared camera ( 25 ) is used with a narrowband filter. Motor vehicle according to claim 1 or 2, characterized in that the camera ( 25 ) the evaporator ( 15 ) is arranged facing in the air flow. Motor vehicle according to claim 1, 2 or 3, characterized in that in front of the evaporator ( 15 ) a filter ( 13 ) for cleaning by the blower ( 11 ) sucked ambient air is arranged. Motor vehicle according to at least one of the preceding claims, characterized in that the camera ( 25 ) with a control device ( 7 ), which one of the camera ( 25 ) evaluates emitted CO ₂ -dependent signal and in evaluation of the CO ₂ -dependent signal a valve ( 23 . 27 ), which in the refrigeration circuit and in front of the air conditioning ( 3 ) is arranged. Method for determining a CO ₂ content of the air in an air conditioning system, preferably a motor vehicle, in which ambient air into the air conditioning system ( 3 ) is sucked, characterized in that in the air conditioning ( 3 ) circulating airflow by means of a CO ₂ -sensitive camera ( 25 ) is examined for a CO ₂ content. Method according to claim 6, characterized in that the camera ( 25 ) a CO ₂ -dependent signal for evaluation to a control device ( 7 ), which in evaluation of the CO ₂ content, a valve ( 23 . 27 ). A method according to claim 7, characterized in that when exceeding a predetermined CO ₂ threshold value by the measured CO ₂ content of the air in the air conditioning control device ( 7 ) the valve ( 23 . 27 ) closes. A method according to claim 7 or 8, characterized in that the from the camera ( 25 ) emitted CO ₂ -dependent signal is evaluated as to whether an evaporator ( 15 ) upstream filter ( 13 ) in the air conditioning ( 3 ) cleans incoming air.

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