DE10316352A1 - Climate control installation, especially for a motor car, has a sensor placed in the air-conducting housing near the evaporator in order to detect any leaks of coolant gas - Google Patents

Abstract

Climate control installation with a coolant circuit has a sensor placed in the air-conducting housing (1) for measuring the coolant concentration in the air around the coolant evaporator. An independent claim is made for a method for operating a climate control installation in which a sensor in the air-conducting housing measures a coolant concentration. Its signal is evaluated by a control unit and if the signal exceeds an applicable threshold a leak in the coolant evaporator (5) is detected.

Description

The The invention relates to an air conditioning system with a refrigerant circuit according to the preamble of claim 1 and a method for operating the air conditioning system.

air conditioning show for cooling of spaces a refrigerant compressor and a refrigerant evaporator on. The refrigerant evaporator is arranged in an air guide box, passed through the air and is distributed in the room to be air-conditioned. The supplied air flows through the Refrigerant evaporator, extracting heat from the air can be.

In usually the air guide housing is fresh running fed from the environment. Alternatively, the air baffle recirculated air can also be supplied from the room to be air-conditioned, which means, for example, that it is faster in very warm fresh air cooling down of the room is reached.

As refrigerant a number of substances are known for use in air conditioning systems, for example various hydrocarbons, ammonia, sulfur dioxide, Carbon dioxide, isobutane and many more.

Some of these substances indicate human health effects on or are at least unpleasant in terms of smell.

The The invention has for its object an air conditioning system with a Refrigerant circulation according to the generic term it to specify claim 1, in which the concentration of refrigerant which monitors the air conditioning the room and prevents leaks of refrigerant is recognized.

This The object is achieved by the Features solved in the characterizing part of claims 1 and 9.

Therefore is in the air duct housing a monitor of the refrigerant concentration Sensor is arranged.

On the air baffle is an air inlet opening formed by the air guide housing in a fresh air mode Fresh air is supplied from the environment of the room to be air-conditioned. In a recirculation mode, the room to be air-conditioned is recirculated air removed and returned to the room to be air-conditioned. The Recirculation mode serves to avoid the inflow of fresh air containing pollutants the faster cooling and / or dehumidification of the room to be air-conditioned. In a mixed air mode, the air guide housing flows in Mixture of fresh air and recirculated air.

there it is provided according to the invention that the sensor in the air duct housing in front of the refrigerant evaporator is.

In A further development of the invention provides that are in the air guide housing in the direction of air flow usually an air filter, the refrigerant evaporator and a Heater heat exchanger arranged. The sensor between is considered to be particularly advantageous the air filter and the evaporator. Alternatively, the air filter also be arranged in the fresh air intake.

In A further advantageous development of the invention is provided that a control unit is assigned to the air conditioning system, the Sensor with the control unit connected is

In another one advantageous development of the invention provides that in the refrigerant circuit immediately before the refrigerant evaporator and immediately after the refrigerant evaporator valves are arranged through which the refrigerant evaporator from the refrigerant circuit can be separated. In the event of a pressure drop, the valves can automatically close as a valve are used, or electromagnetic valves are used, the one from the control unit detected leak in the refrigerant circuit closed by the control unit become.

As refrigerant carbon dioxide is provided, with a carbon dioxide sensor as the sensor is used.

The Air conditioning system according to the invention is intended for use in a vehicle, especially in a passenger car.

According to the procedure to operate the air conditioning system, a signal is generated by the sensor that proportional to the refrigerant concentration in the air baffle is. The signal from the sensor is evaluated by the control unit. exceeds of the signal an applicable limit is set by the control unit to a Leakage in the refrigerant evaporator recognized.

In An advantageous development of the invention is provided that when the control unit detects a leak, the too air-conditioning room is flushed with fresh air

The Refrigerant circulation is powered by a refrigerant compressor driven. When a leak is detected, the refrigerant compressor is switched off the control unit deactivated, causing the refrigerant circuit comes to a standstill.

in the further, when a leak is detected by the control unit, the Refrigerant circulation immediately before the refrigerant evaporator and arranged immediately after the refrigerant evaporator Valves closed. This can at most do that in the refrigerant evaporator refrigerant from the refrigerant circuit escape.

The air guide points as air outlet openings several flaps distributing the conditioned air, which by the control unit to be controlled. When the air conditioning is deactivated, the flaps closed to prevent the leakage of refrigerant in the air conditioning To avoid space.

to It is intended to reduce the power consumption of the air conditioning system that at one in the air guide housing in the air flow direction in front of the refrigerant evaporator arranged sensor, the sensor when operating the air conditioning in Fresh air mode is switched off.

The Applicable limit value is the ratio of Fresh air adapted to recirculating air, which the air duct over the Air inlet opening supplied becomes.

In A further advantageous development of the invention is provided that an error message is detected when the refrigerant evaporator leaks from the control unit is generated.

In A last advantageous development of the invention is provided that the sensor is checked for functionality by the control unit. at a malfunction Fresh air mode is activated on the sensor, with recirculation mode and mixed air operation can no longer be activated. moreover generates the control unit another error message that is on the malfunctioning sensor points.

A such trained and operated air conditioning system with a refrigerant circuit guaranteed that the room to be air-conditioned even if a defect occurs in the refrigerant circuit not with refrigerant is charged.

in the the following is the air conditioner according to the invention based on an embodiment shown and explained in connection with a figure.

It shows:

the Figure is a schematic representation of the refrigerant evaporator comprising air guide the air conditioning.

at an air conditioning system for air conditioning the passenger compartment of a passenger car is used as a refrigerant Carbon dioxide used. Carbon dioxide is a gas that human Organism strongly affected when inhaled in high concentrations becomes.

The natural Carbon dioxide content in the air between 0.04 and 0.07 percent by volume. From a carbon dioxide concentration 0.1 percent by volume exceeds the comfort limit, whereby lack of concentration and fatigue may occur. From a carbon dioxide concentration of 0.2 volume percent in the Breathing air increased the respiratory rate. The maximum permissible carbon dioxide concentration in a workplace is 0.5 volume percent.

Is working the air conditioner in fresh air mode, the passenger compartment is only fresh air fed from the environment. If the air conditioning works in recirculation mode, the passenger compartment only air taken from the passenger compartment is supplied. In addition, the air conditioning a mixture of fresh air and recirculated air can be supplied in mixed air mode.

kick on the one in the air duct arranged refrigerant evaporator a leak, carbon dioxide will enter the passenger compartment of the vehicle Motor vehicle blown. Tests have shown that the carbon dioxide concentration in fresh air operation cannot exceed 0.5 percent by volume. However, can in recirculation mode in the event of a sudden complete Drainage in the refrigerant circuit located carbon dioxide in the air duct in the passenger compartment Carbon dioxide concentration of several volume percent can be achieved.

To the Determining the carbon dioxide concentrations is in the air guide housing Carbon dioxide sensor arranged. The carbon dioxide sensor generates a for refrigerant concentration proportional signal and is connected to a control unit assigned to the air conditioning system. The signal from the sensor is evaluated by the control unit. exceeds of the signal from the sensor has an applicable limit the control unit for a leak in the refrigerant evaporator closed.

If the air conditioning system is in mixed air mode, the limit value is adjusted to the ratio of fresh air to recirculated air that is fed to the air duct via the air inlet opening. Will the air inlet opening of the air baffle ever If half of the circulated air and fresh air are supplied, the limit value is reduced to approximately half the value that is sufficient in pure circulating air mode to detect a leak in the refrigerant circuit.

The figure shows the exact location of the carbon dioxide sensor 7 in the air baffle 1 , The location is selected so that there is sufficient flow to and around the carbon dioxide sensor 7 with the circulating air circulating in the recirculation mode is guaranteed. The air baffle 1 includes starting from the air inlet opening 2 an air filter 4 , the refrigerant evaporator 5 and a heat exchanger 6 , Immediately on the refrigerant evaporator 5 there are two electromagnetic valves in the refrigerant circuit 9 arranged through which the refrigerant evaporator 5 can be separated from the refrigerant circuit by the control unit.

The carbon dioxide sensor 7 is between the air filter 4 and the refrigerant evaporator 5 arranged, the carbon dioxide sensor 7 through the air filter 4 is protected against pollution.

It is clear that the carbon dioxide sensor 7 in fresh air mode even if there is a significant leak in the refrigerant evaporator 5 cannot measure increased carbon dioxide concentrations because the carbon dioxide sensor 1 in fresh air mode, of course, only fresh air flows around it. The arrangement of the carbon dioxide sensor 1 in front of the refrigerant evaporator 5 is possible because the carbon dioxide concentrations in fresh air operation never exceed 0.5 percent by volume. If the air conditioning system works in fresh air mode, the carbon dioxide sensor is 7 deactivated to reduce the power consumption of the air conditioning system.

Basically, the carbon dioxide sensor 7 also in the air flow behind the refrigerant evaporator 5 to be ordered. However, this would be the measured value of the carbon dioxide concentrations from the position of the carbon dioxide sensor 7 versus the position of the leak in the refrigerant evaporator 5 dependent. If the leak occurred directly at the carbon dioxide sensor 5 high carbon dioxide concentrations would be detected even with a small leak. There would be a significant leak spaced from the carbon dioxide sensor 7 would occur in fresh air mode due to the approximately laminar flow in the air guide housing 1 no leak was detected either.

A leak in the refrigerant circuit can therefore occur in front of the refrigerant evaporator 5 arranged carbon dioxide sensor 7 can only be detected by the control unit in recirculated air mode or in mixed air mode, in which carbon dioxide escaping into the passenger compartment is sucked in again and in the air inlet opening 2 of the air baffle 1 is fed again.

The air baffle 1 has several flaps that distribute the conditioned air as air outlet openings 8th whose setting angle is controlled by the control unit. If the air conditioning is completely deactivated, which is usually only the case with parked cars, the flaps are 8th of the air baffle 1 closed.

If the control unit detects a leak in the refrigerant evaporator 5 detected, the air conditioning system is immediately switched to fresh air mode. For this all flaps 8th opened to ensure that the passenger compartment is flooded with fresh air as completely as possible. The refrigerant compressor is also deactivated. In addition, the electromagnetic valves 9 that are in the refrigerant circuit directly before and after the refrigerant evaporator 5 are arranged, shot. This can at most do that in the refrigerant evaporator 5 carbon dioxide in the passenger compartment.

By the control unit an error message is also generated, which is displayed on the dashboard of the Motor vehicle is brought to the display.

The carbon dioxide sensor 7 the control unit continuously checks its function. In the event of a malfunction in the carbon dioxide sensor 7 Fresh air mode is activated and the control unit generates another error message. All error messages can also be called up in an error memory of the control unit.

The Passenger cells of passenger cars are very much when the vehicle doors are closed tightly closed. Are in a standing passenger car with deactivated internal combustion engine with closed doors and Windows people in the passenger compartment, the will at regular intervals Determined carbon dioxide concentration in the passenger compartment. The presence of people can, for example, by a device for person recognition detected and communicated to the control unit assigned to the air conditioning system become. Independently The carbon dioxide concentration can also be detected by a person generally determined at regular intervals become.

To do this, first with the flaps closed 8th and measured the carbon dioxide concentration without air flow in order to determine a possible leak in the refrigerant circuit. The flaps are then used to determine the carbon dioxide concentration in the passenger compartment 8th opened and the air conditioning is activated in recirculation mode. If a carbon dioxide concentration exceeding the limit value is then measured, the Passenger cell flushed with fresh air without the control unit not recognizing a leak in the refrigerant circuit.

By The air conditioning system designed and operated in this way becomes concentration reliably monitored in the air supplied to the room to be air-conditioned. The room to be air-conditioned becomes even if a leak occurs in the refrigerant circuit, especially in the refrigerant evaporator, not with refrigerant loaded.

Claims (17)

Air conditioning system with a refrigerant circuit, with a refrigerant evaporator connected to the refrigerant circuit ( 5 ), with the refrigerant evaporator ( 5 ) comprehensive air duct housing ( 1 ), characterized in that in the air guide housing ( 1 ) a sensor monitoring the refrigerant concentration is arranged. Air conditioning system according to claim 1, characterized in that on the air guide housing ( 1 ) an air inlet opening ( 2 ) is designed, in which - fresh air mode fresh air, - recirculation mode recirculating air from a room to be air-conditioned, - mixed air mode a mixture of fresh air and recirculating air into the air duct housing ( 1 ) flows in. Air conditioning system according to claim 1 or 2, characterized in that the sensor in front of the refrigerant evaporator ( 5 ) is arranged. Air conditioning system according to one of claims 1 to 3, characterized in that in the air guide housing ( 1 ) an air filter in the air flow direction ( 4 ), the refrigerant evaporator ( 5 ) and a heat exchanger ( 6 ) are arranged, and that the sensor between the air filter ( 4 ) and the refrigerant evaporator ( 5 ) is arranged. Air conditioning system according to one of claims 1 to 4, characterized in that that a control unit is assigned to the air conditioning system, and that the sensor with the control unit connected is. Air conditioning system according to one of claims 1 to 5, characterized in that in the refrigerant circuit immediately before the refrigerant evaporator ( 5 ) and immediately after the refrigerant evaporator ( 5 ) Valves ( 9 ) are arranged. Air conditioning system according to one of claims 1 to 6, characterized in that the refrigerant is carbon dioxide, and that the sensor is a carbon dioxide sensor ( 7 ) is. Air conditioning for use in a vehicle, in particular in a passenger car. Method for operating the air conditioning system according to one of the preceding claims, characterized in that a signal proportional to the refrigerant concentration in the air guide housing ( 1 ) is generated that the signal of the sensor is evaluated by the control unit and that if the signal is exceeded via an applicable limit value by the control unit for a leak in the refrigerant evaporator ( 5 ) is recognized. A method according to claim 9, characterized in that when the control unit detects a leak, the too air-conditioning room is flushed with fresh air. A method according to claim 9 or 10, characterized in that that the refrigerant cycle from a refrigerant compressor is driven, and that when a leak is detected by the control unit the refrigerant compressor is deactivated. Method according to one of Claims 9 to 11, characterized in that when the control unit detects a leak, the valves () arranged in the refrigerant circuit ( 9 ) getting closed. Air conditioning system according to one of claims 9 to 12, characterized in that the air guide housing ( 1 ) as air outlet openings several flaps distributing the conditioned air ( 8th ) has that the flaps ( 8th ) are controlled by the control unit and that when the air conditioning is deactivated, the flaps ( 8th ) getting closed. Method according to one of claims 9 to 13, characterized in that in an air guide housing ( 1 ) with one in the air flow direction upstream of the refrigerant evaporator ( 5 ) arranged sensor when the air conditioning system is operated in fresh air mode, the sensor is switched off. Method according to one of claims 9 to 14, characterized in that that the applicable limit value for mixed air operation accordingly the relationship from fresh air to recirculated air. Method according to one of claims 9 to 15, characterized in that that when a refrigerant evaporator leak is detected by the control unit an error message is generated. Method according to one of claims 9 to 16, characterized in that the function of the sensor is checked by the control device, that fresh air operation is activated in the event of a malfunction on the sensor, and that a further error message is generated by the control device.