DE19737949A1 - Temperature sensor for mounting between ribs of heat exchanger - Google Patents

Abstract

The sensor (3) produces electrical signals dependent on the surface temperature of the heat exchanger ribs. An elastic holding part (4) is provided to clamp the temperature sensor against the ribs. The sensor may have a dovetail groove (7) corresponding to a dovetail spring (6) in the elastic holding part.

Description

The invention relates to an assembly between lamella len a heat exchanger provided temperature sensor with a sensor element for generating electrical Signals depending on a surface temperature of the slats.

Such temperature sensors are used in heat exchangers example of automotive air conditioning, often turned on sets and inserted between two slats for assembly. The sensor element is usually in a tubular Housing of the temperature sensor arranged. The housing has here a diameter that is slightly larger than the distance between the slats so that the La mell to the outside when installing the temperature sensor to bend. Then the temperature sensor is force held conclusively in the heat exchanger.

A disadvantage of the known temperature sensor is that he plastically deformed the fins of the heat exchanger because  the fins made of a material with high heat conductivity, such as copper or aluminum, are manufactured and therefore very low spring properties have ten. This is a reliable bracket of the temperature sensor by a frictional connection between the slats not guaranteed. Furthermore, by the plastic deformation of the slats is a heat transfer hindered to the temperature sensor.

To avoid plastic deformation of the slats, you might think the temperature sensor is elastic to design. However, the sensor element itself is incom compressible or for heat conduction to the sensor element an incompressible mineral material sen. Therefore, the temperature sensor cannot be elastic be designed.

The invention is based on the problem of a tempera to design the door sensor of the type mentioned at the beginning, that it is securely fastened in the heat exchanger and reliable heat transfer from the fins to enables the temperature sensor.

According to the invention, this problem is solved by an ela static, to bias the temperature sensor against one of the slats provided holding part.

As a result, the holding part during assembly in the heat rope shear elastically deformed so that a plastic deformation Avoidance of the slats by the temperature sensor becomes. The temperature sensor according to the invention can be therefore securely fasten in the heat exchanger, whereby a particularly safe heat transfer from the slats to the temperature sensor is guaranteed. Furthermore leaves the temperature sensor according to the invention as the be Known temperature sensor by simply plugging it in  mount the heat exchanger and in the event of a defect simply against a new temperature sensor on the same Replace point in the heat exchanger without making any changes heat transfer from the fins to the tempera door sensor is to be feared. Since the tem temperature sensor by simply plugging in the heat exchanger is reliably attached, also designed its installation on hard to reach or not visible positions in the heat exchanger are particularly easy.

One could think of the holding part as a resilient mess mer, and one of the slats between the tem clamp the temperature sensor and the clamp. Hereby however, the lamella, especially in the event of vibrations, exposed to high mechanical loads. The inventor The temperature sensor according to the invention can be used for particularly ge wrestle loads of the slats reliably in the heat Attach the exchanger when the holding part and the tempera door sensor for support against each other Slats are formed. Through this design the mechanical loads on the heat exchanger due to the ver temperature sensor according to the invention on two fins Splits. A possibly slight plastic ver The slats are shaped by the elasticity of the hal partially balanced.

The holding part is designed according to an advantageous Further development of the invention is particularly cost-effective if it is made of a rubber-elastic material. Of the The temperature sensor according to the invention is thereby the friction and adhesion of the holding part to the lamella held.

The temperature sensor according to the invention is particularly: held reliably in the heat exchanger when holding part has a profile at its free end. There  the slats often anyway for air conduction and air supply vortex with openings or bent tabs can see, the holding part through the profile claws. Suitable as profiling for example, a wave or sawtooth shape of the holder part.

The end facing away from the holding part of the invention Temperature sensor has a particularly good heat transfer to the adjacent slat when the temperature sensor an elliptical or lenticular cross section points. This design leads to a broadening of the area of the temperature sensor adjacent to the lamella sors. Furthermore, punctiform, mechani Avoid loads on the slat.

The holding part is reliable with the invention Temperature sensor connected when a housing of the tempera tursensors a dovetail groove and the holding part has a dovetail feather. This is the stop partially positively attached to the temperature sensor.

The temperature sensor according to the invention is designed particularly inexpensive if the plastic housing in Injection molding process is made, and if the to the Housing adjacent area of the holding part of the art is overmoulded.

Tilting of the temperature sensor according to the invention assembly in the heat exchanger can be done easily Avoid two holding parts arranged side by side. A Another advantage of this design is that the temperature sensor at three points between the slats len is kept, so that faulty assembly almost is excluded.

The invention permits numerous embodiments. For There are two more to clarify its basic principle of shown in the drawing and are below described. This shows in

Fig. 1 a according to the invention, between the fins of a heat exchanger mounted temperature sensor in a sectional view,

Fig. 2 shows the temperature sensor of FIG. 1 in a sectional view taken along the line II-II,

Fig. 3 shows a further embodiment of the temperature sensor according to the Invention.

Fig. 1 shows a housing 5 according to the invention, a heat exchanger clamped Tempera tursensor between two slats 1, 2, 3 having a holding part 4 having an elliptically shaped in cross section. The holding part 4 has a dovetail spring 6 , with which it is positively secured in a dovetail groove 7 of the housing 5 . The housing 5 of the temperature sensor 3 is biased by the made from a rubber-elastic holding part 4 against one of the slats 1 . The holding part 4 is supported for this on the opposite slat 2 . As a result, the temperature sensor 3 is held securely between the fins 1 , 2 . Furthermore, a reliable heat transfer from one La melle 1 to the housing 5 of the temperature sensor 3 is guaranteed. The housing 5 is for holding a Sensorele element 8 and for heat conduction from the housing 5 to the sensor element 8 with a mineral material 9 poured out.

Fig. 2 shows the temperature sensor 3 according to the invention from Fig. 1 in a sectional view along the Li never II-II. The holding part 4 has on its area adjacent to the La melle 2 a sawtooth profile 10 . Part of the profiling 10 penetrates into a recess 11 in the lamella 2 . Such recesses II are often incorporated into the slats 1 , 2 for air guidance or swirling. As a result, the tempera ture sensor 3 is held by adhesion of the holding part 4 to the La melle 2 and positively by the penetration of the pro lation 10 in the recess 11 . The Sensorele element 8 has led out from the temperature sensor 3 , provided for connection to a measuring or control unit, not shown, connecting wires 12th

Fig. 3 shows a further embodiment of a temperature sensor 13 according to the invention in a cross section. The temperature sensor 13 has two holding parts 14 , 15 arranged next to one another, which prevent the temperature sensor 13 from tilting during assembly between the lamellae 1 , 2 shown in FIG. 1. A Ge housing 16 of the temperature sensor 13 is made of plastic by injection molding. At the housing 16 adjacent areas of the holding parts 14 , 5 are molded from the plastic material of the housing 16 .

Claims (8)

1. For mounting between fins of a heat exchanger provided temperature sensor with a sensor element for generating electrical signals as a function of a surface temperature of the fins, characterized by an elastic, for biasing the temperature sensor ( 3 , 13 ) against one of the fins ( 1 ) formed holding part ( 4 , 14 , 15 ). 2. Temperature sensor according to claim 1, characterized in that the holding part ( 4 , 14 , 15 ) and the temperature sensor ( 3 , 13 ) for supporting against each other, the fins ( 1 , 2 ) are formed. 3. Temperature sensor according to claim 1 or 2, characterized in that the holding part ( 4 , 14 , 15 ) is made of a rubber-elastic material. 4. Temperature sensor according to at least one of the preceding claims, characterized in that the holding part ( 4 , 14 , 15 ) has a profile ( 10 ) at its free end. 5. Temperature sensor according to at least one of the preceding claims, characterized in that the tempera ture sensor ( 3 , 13 ) has an elliptical or lenticular cross section. 6. Temperature sensor according to at least one of the preceding claims, characterized in that a housing ( 5 ) of the temperature sensor ( 3 ) has a dovetail groove ( 7 ) and the holding part ( 4 ) has a dovetail spring ( 6 ). 7. Temperature sensor according to at least one of the preceding claims, characterized in that the housing 16 ) is made of plastic by injection molding, and that the area of the holding part ( 14 , 15 ) adjacent to the housing ( 16 ) is extrusion-coated with the plastic. 8. Temperature sensor according to at least one of the preceding claims, characterized by two juxtaposed holding parts ( 14 , 15 ).