DE3908589A1 - Temperature sensor for heating and air-conditoning installations - Google Patents

Abstract

In a temperature sensor for heating and air-conditioning installations, especially in motor vehicles, having a housing which has an inlet opening and an outlet opening for a medium, and having a measuring element in the housing which is connected via connecting wires to connectors, for better thermal decoupling of the measuring element from temperature influences from the environment of the temperature sensor, the housing is designed at least double-walled over a predetermined region adjacent to the inlet opening and has at least one inner through-flow channel and at least one outer through-flow channel with inlet openings, the measuring element being arranged in the inner through-flow channel.

Description

The invention relates to a temperature sensor for heating and air conditioning, especially in motor vehicles, with a Housing that has an inlet opening and an outlet opening for a medium, and with a measuring element in the Housing that is connected to plugs via connecting wires.

From German published patent application DE-OS 36 20 246 a temperature sensor is known which has a measuring element, that can be, for example, an NTC resistor and that over Connection wires are connected to plugs. The housing of the Temperature sensor has an inflow opening and Outflow opening for the ambient air.

To get the most accurate measurement possible for the temperature of the To get ambient air, e.g. the indoor air of a Motor vehicle can be a constant airflow over passed the measuring element.

The outflow opening of the housing of the temperature sensor can here, as from the German published application DE-OS 35 19 466 is known to be connected to a supply air duct, of a blower with an interior of a vehicle connects.

As known from the German patent DE-PS 35 41 263 the outflow opening of the temperature sensor can also be connected directly to a fan to create an air flow to get over the measuring element.

In addition, the generation of an air stream can also be done in this way be achieved that the measuring element, a separate fan is assigned, as from the Patents Abstracts of Japan, volume 6, No. 236 (M-173) 1114 of November 25, 1982,  referring to JP-A-57-1 34 315, is known.

In these known solutions mentioned turns out to be disadvantageous that often by heat transfer from the Housing on the measuring element a falsification of the measured value the temperature. This is particularly the case if the temperature sensor, as is common, e.g. arranged in the dashboard area of a motor vehicle which is e.g. through sunlight, through in the Electrical devices located near the temperature sensor such as. Car radios can heat up considerably and this Transfer the temperature to the housing of the temperature sensor can. The same disadvantage arises if that Vehicle e.g. at very cold temperatures for a long time was not operated and the environment of the temperature sensor has reached a low temperature above that Housing wall of the housing of the temperature sensor on the Can radiate measuring element. This can lead to the Regulation of a heating and air conditioning system based on the incorrect measured temperature values not as desired occurs, which lead to malfunctions and loss of comfort can.

The invention has for its object a To create temperature sensors that are simple and inexpensive is and its measuring element better and more effective than at the known solutions of temperature influences from the Environment of the temperature sensor is thermally decoupled.

The object is achieved in that the housing has a predetermined area adjacent to the inflow opening is at least double-walled and at least one inner flow channel and at least one outer Flow channel with inflow openings and that Measuring element is arranged in the inner flow channel.  

It is advantageous that the housing has a predetermined, at least the area adjacent to the inflow opening is double-walled and at least one inner Flow channel and at least one outer flow channel having inflow openings and that the measuring element in the inner flow channel is arranged because thus on simple and inexpensive way of thermal Decoupling of the measuring element from the outer housing wall is achieved, which ensures that at one large temperature difference between the air to be measured and the environment of the temperature sensor which e.g. the Dashboard area of a motor vehicle can be a Heat radiation from the housing to the measuring element is largely avoided and thus a falsification of the Measured value is minimized, whereby an exact control of a Heating and air conditioning under all circumstances is ensured.

Further advantageous refinements and developments of Subject of the invention emerge from the subclaims.

The fact that the connecting wires, the holding elements for the Are measuring element, there is a particularly cost-effective and simple construction of the temperature sensor, because complex Holding devices for the measuring element are not required are and at the same time it is ensured that the Measuring element a fixed position in relation to the attachment point in the housing of the temperature sensor.

It is advantageous that the housing consists of a basic part and an at least double-walled air guiding part is built up and that the air guide is detachable Fasteners is connected to the base part because thus simple and inexpensive to manufacture and Mountability of the temperature sensor is guaranteed and for any repairs and / or Maintenance work an easy disassembly of the Temperature sensor is ensured.  

The fact that the base part of the air guide facing first stop and that the Air guiding part a second facing the base part Stop has the advantage that the Temperature sensors in a simple and inexpensive way safe and secure in the breakthrough of a Fastening wall can be attached.

It is advantageous that the air guide as at least double-walled, hollow-cylindrical part is formed and that the base part as a hollow cylindrical part is formed because the manufacturability of the Temperature sensor is as inexpensive and simple as possible.

The fact that the connecting elements as locking elements trained, there is the advantage of a simple and quick assembly.

It is advantageous that the connecting elements as Threaded elements are formed because so simple and cost-effective way to adjust the distance of the first Stop from the second stop to the thickness of the Fastening wall is reached, in the breakthrough of which Temperature sensor should be mounted and also the Security of the connection of the temperature sensor to the Wall is increased.

The fact that connection elements in or on openings in the Connect the housing to the connector wires, there is the advantage of a simple and inexpensive Connection between the connecting wires of the measuring element and the plugs. At the same time, the connection elements ensure a Sealing the openings in the housing so that none External air can be sucked in.

It is advantageous that the inflow openings of the at least an inner flow channel on the front of the Housing or the air guide are arranged and that the  Inflow openings of the at least one outer Flow channel on the side wall of the housing or of the air guide are arranged so that the Inflow openings in the direction of the mounting wall point, because thus in a simple and inexpensive way is achieved that the at least one inner Air flow flowing through flow channel no air components contains by the temperature of the mounting wall or the area around the installation location of the temperature sensor are influenced and can lead to the fact that the measured value is falsified for the air to be measured, whereby the Regulation of heating and air conditioning malfunctions can have.

It is advantageous that the flow channels have several Have inflow openings because of a swirl the sucked air can take place, whereby the measured value of the Temperature can have a higher constancy.

The fact that a screen in front of the inflow openings is arranged, there is the advantage that the Temperature sensor flush and therefore inconspicuous in z. B. one Instrument panel can be arranged.

The fact that the measuring element is an NTC resistor or PTC resistance, the advantage of a simple one and inexpensive construction.

An embodiment of the invention is in the drawings shown and is described in more detail below.

It shows

Fig. 1 in a sectional view an embodiment of the temperature sensor according to the invention,

Fig. 2 shows a sectional view of another embodiment of the temperature sensor according to the invention.

The same or equivalent components in the figures are included provided with the same reference numerals.

The temperature sensor in Fig. 1 consists of a housing ( G ) which, for. B. can be made of plastic. In the embodiment shown here, the housing ( G ) consists of a base part ( T ) and an air guide part ( L ). In another embodiment, the housing ( G ) can also be made in one piece.

The base part ( T ) has a hollow cylindrical shape and has an opening at its first end for receiving the air guide part ( L ). At its second end, the base part ( T ) has the outflow opening ( A ), which is connected in one piece to the base part ( T ). In another exemplary embodiment, the outflow opening ( A ) can also be inserted into the peripheral surface of the base part ( T ). The second end of the base part ( T ) also has openings for receiving connection elements ( C ). The connecting elements ( C ) each connect a connecting wire ( D ) to the measuring element ( M ) with a plug ( S ). If the measuring element ( M ) is designed as an NCT resistor or as a PTC resistor, the measuring element ( M ) has two connecting wires ( D ), each of which is connected to a plug ( S ) via a connecting element ( C ). The plugs ( S ) can be designed as flat plugs as shown in the figure or, as not shown here, can be designed as round plugs. The connection between the plugs ( S ) and the connecting wires ( D ) can be made by soldering, riveting or clamping.

The connecting wires ( D ) have a strength which, even without complex holding devices, enables the measuring element ( M ) to be arranged in a fixed position in the housing ( G ) with respect to the fastening point.

The air guiding part ( L ) here consists of a double-walled hollow cylinder which has a number of inflow openings ( E ) on its side facing away from the base part ( T ). Due to the double-walled design, the air guide part ( L ) has an inner flow channel ( K 1 ) and an outer flow channel ( K 2 ). The throughflow channels ( K 1 , K 2 ) are connected to the inflow openings ( E ) and end openly in the cavity formed by the base part ( T ).

The measuring element ( M ) is held by the connecting wires ( D ) in such a way that the measuring element ( M ) is arranged in the inner flow channel ( K 1 ).

In another exemplary embodiment, the air guiding part ( L ) can also have a larger number of walls and a larger number of inflow openings ( E ).

The connection between the air guide part ( L ) and the base part ( T ) takes place via connecting elements ( V ). In the example shown here, the connecting elements ( V ) consist of a screw connection. In another embodiment, in particular when the housing ( G ) of the temperature sensor has a non-circular cross-sectional area, the connecting elements ( V ) can also be designed as latching elements.

In order to enable the temperature sensor to be fixed in position in the opening in a fastening wall, the base part ( T ) has a first stop ( N 1 ) facing the air guide part ( L ) and the air guide part ( L ) has a second stop facing the base part ( T ) ( N 2 ), which enables the temperature sensor to be clamped in the opening in a housing wall.

The attachment of the temperature sensor can be done here Not shown embodiment also on a outer housing wall arranged snap connection.  

In the following an application example of the inventive temperature sensor for heating and Air conditioning systems described.

If the temperature sensor according to the invention is used, for example, to measure the temperature of the interior air in a motor vehicle, the temperature sensor is usually installed in the area of the dashboard. An air flow is conducted past the measuring element ( M ) via the inflow openings ( E ) and the outflow opening ( A ) in order to be able to determine the temperature of the indoor air as precisely as possible. In order to avoid that when there is a large temperature difference between the location of the temperature sensor and the air to be measured, the measured value is falsified by heat radiation from the housing ( G ) to the measuring element ( M ), the measuring element ( M ) surrounded by a double-walled housing ( G ). The measuring element ( M ) is located in the inner flow channel ( K 1 ) through which the indoor air flows. In order to avoid heat radiation on the measuring element ( M ), the outside air channel ( K 2 ) is also flowed through by the indoor air. This ensures that the temperature of the part of the housing ( G ) which is in contact with the surroundings of the temperature sensor cannot be transferred to the measuring element ( M ), or can be transferred only minimally by heat radiation, thereby largely avoiding falsification of the measured value .

Is a screen in front of the inflow openings ( E ), an inconspicuous and flush installation of the temperature sensor in, for. B. a dashboard possible.

Fig. 2 shows another embodiment of the temperature sensor according to the invention. Also in the temperature sensor shown in FIG. 2, the housing ( G ) consists of a base part ( T ) and an air guide part ( L ), which are detachably connected to one another via connecting elements ( V ).

The measuring element ( M ), the connecting wires ( D ), the connecting elements ( C ) and the plug ( S ) are designed as described in FIG. 1, but not shown in FIG. 2.

The base part ( T ) has an outflow opening ( A ), a first stop ( N 1 ) and connecting elements ( V ). The air guide part ( L ) is double-walled here and has at least one inner flow channel ( K 1 ) with at least one inflow opening ( E ), which is arranged on the end face ( R ) of the air guide part ( L ), and has at least one outer flow channel ( K 2 ), which has at least one inflow opening ( E ). The inflow opening ( E ) or the inflow openings ( E ) are arranged on the side wall of the air guiding part ( L ). The air guide ( L ) also has a second stop ( N 2 ) which faces the base ( T ). As shown in Fig. 2, there is thus the possibility to connect the temperature sensor easily and safely with a mounting wall ( I ), the z. B. can be part of a dashboard of a motor vehicle.

The inflow openings ( E ) of the at least one outer throughflow channel ( K 2 ) point in the direction of the fastening wall ( I ). This ensures that at high temperature differences between the air to be measured, the z. B. the interior air of a motor vehicle and the environment of the temperature sensor, the z. B. the mounting wall ( I ), the measuring element ( M ) is only supplied with air that is not influenced by the temperature of the immediate vicinity of the temperature sensor, since this is discharged through the outer flow channels ( K 2 ) and not to the inflow openings ( E ) of the inner flow channels ( K 1 ) can reach. It is thus ensured even with large temperature differences between the air to be measured and the environment of the temperature sensor that the control of the heating and air conditioning systems, which depends on the measured air temperature value, functions properly.

In addition, there are the same advantages as described in Fig. 1.

Claims (12)

1. Temperature sensor for heating and air conditioning systems, in particular in motor vehicles, with a housing which has an inflow opening and an outflow opening for a medium, and with a measuring element in the housing which is connected to plugs via connecting wires, characterized in that the housing ( G ) over a predetermined area adjacent to the inflow opening ( E ) is at least double-walled and has at least one inner throughflow channel ( K 1 ) and at least one outer throughflow channel ( K 2 ) with inflow openings ( E ) and that the measuring element ( M ) is arranged in the inner flow channel ( K 1 ). 2. Temperature sensor according to claim 1, characterized in that the connecting wires ( D ) are the holding elements for the measuring element ( M ). 3. Temperature sensor according to claim 2, characterized in that the housing ( G ) from a base part ( T ) and an at least double-walled air guide part ( L ) is constructed and that the air guide part ( L ) releasably via connecting elements ( V ) with the base part ( T ) is connected. 4. A temperature sensor according to claim 3, characterized in that the base part ( T ) has a first stop ( N 1 ) facing the air guide part ( L ) and that the air guide part ( L ) has a second stop ( N 2 ) facing the base part ( T ). having. 5. Temperature sensor according to claim 4, characterized in that the air guide ( L ) is designed as an at least double-walled, hollow cylindrical part and that the base part ( T ) is designed as a hollow cylindrical part. 6. Temperature sensor according to claim 3 or claim 5, characterized in that the connecting elements ( V ) are designed as latching elements. 7. Temperature sensor according to claim 5, characterized in that the connecting elements ( V ) are designed as threaded elements. 8. Temperature sensor according to claim 2, characterized in that connection elements ( C ) in or on openings in the housing ( G ) connect the connecting wires ( D ) to the plugs ( S ). 9. Temperature sensor according to claim 3 or claim 5, characterized in that the inflow openings ( E ) of the at least one inner flow channel ( K 1 ) on the end face ( R ) of the housing ( G ) or the air guide part ( L ) are arranged and that Inflow openings ( E ) of the at least one outer throughflow channel ( K 2 ) are arranged on the side wall of the housing ( G ) or the air guiding part ( L ) in such a way that the inflow openings ( E ) point in the direction of the fastening wall ( I ). 10. Temperature sensor according to one of the preceding claims, characterized in that the flow channels ( K 1 , K 2 ) have a plurality of inflow openings ( E ). 11. Temperature sensor according to one of the preceding claims, characterized in that a screen is arranged in front of the inflow openings ( E ). 12. Temperature sensor according to claim 1, characterized in that the measuring element ( M ) is an NTC resistor or a PTC resistor.