DE8716868U1 - Temperature sensor - Google Patents

Description

·

BERU,... C 3830-DE

_wm γ _mm -

Description

The invention relates to a temperature sensor with an insulating molded part in which at least one thermoelectric sensor element and at least one electrical contact pin connected to it via a connecting element are accommodated, the insulating molded part consisting of an electrically insulating and heat-insulating material, while the connecting element and the contact pin are made of an electrically conductive material, and with a housing which is arranged on the insulating molded part and is in heat-conducting connection with the sensor element.

Such a temperature sensor, in which the sensor element consists of at least one temperature-dependent resistor that is connected to a contact pin via a connecting element, is available on the market.

In this temperature sensor available on the market, the insulating molded part for accommodating the sensor element, the connection elements and the contact pins is formed by first pre-molding the contact pins with an electrically insulating and heat-insulating plastic material, and then providing a final overmolding with another plastic material. The connection socket, for example in the form of a round plug socket, is arranged on the temperature sensor element overmolded in this way.

The disadvantage of such a temperature sensor is that the sensor element is exposed to strong thermal and mechanical stresses during the overmolding process to form the pre-overmolding, and the time required to arrange the sensor element, the connection elements and the contact pins in the housing during the manufacture of the temperature sensor depends on the closing time of the overmolding tool during the pre-overmolding process.

• ■ · · 4 _m9

· · I

■ &igr;&igr; a _fl

> &igr; ti

It :( Mil It)IItI

BERU

G3830-DE

The object underlying the invention is therefore to create a temperature sensor of the type mentioned above, during the manufacture of which the sensor element is not exposed to any thermal and mechanical stresses, and which can be manufactured cost-effectively through simple assembly.

This object is achieved according to the invention by

äccS oei aferä TeinperätüifüixlSi' «&bgr;&idigr;&Ggr; SingäHCjS CfSHöuTiHten Art u55 Insulating molded part consists of two prefabricated, joined half shells into which the sensor element, the connection element and the contact pin are fitted.

In the temperature sensor according to the invention, the insulating molded part is not formed by overmolding the sensor element and the contact pin, but the insulating molded part is prefabricated in the form of two half-shells into which these components can be fitted. This eliminates any thermal and mechanical stress on the sensor element during the manufacture of the temperature sensor according to the invention. In addition, assembly is significantly simplified, since the at least one sensor element with the at least one contact pin can be inserted into one of the two prefabricated half-shells, and the other half-shell can be placed on top and joined to the first. This makes it possible to manufacture the temperature sensor according to the invention in a simple, automated and cost-effective manner.

Particularly preferred embodiments and further developments of the temperature sensor according to the invention are the subject of claims 2 to 4.

A particularly preferred embodiment of the invention is described in more detail below with reference to the accompanying drawing. They show

Fig. 1 shows a partial sectional view of a known temperature sensor,

Fig. 2 is a plan view of a prefabricated half-shell with the components of an embodiment arranged therein.

• · · ♦ · ·· · « ■ t &igr;&igr;

• * t till

■ ■■ I »viii

* I Il t > &igr;

BERU Gi 3830-DE

game of the temperature sensor according to the invention,

Fig. 3 is a partial sectional view of another embodiment of the temperature sensor according to the invention,

Fig. 4 shows the electrical circuit diagram of the sensor elements in the embodiment of the invention shown in Fig. 3 and

Fig. 5 is a plan view of the two half shells in a third embodiment of the temperature sensor according to the invention.

As shown in Fig. 1, a conventional known temperature sensor consists essentially of two contact pins 3 made of an electrically conductive material. The contact pins 3 are connected via connecting elements 5 made of an electrically conductive material to a sensor element 4, which consists of two temperature-dependent electrical resistors, for example with a negative temperature characteristic.

The sensor element 4, the connection elements 5 and the contact pins 3 are embedded in an insulating molded part, which is made of two overmoldings 1, 2. The arrangement of the sensor element 4, the connection elements 5 and the contact pins 3 is carried out during the manufacture of a temperature sensor by first providing these components 3, 4, 5 with a pre-overmolding 2 made of an electrically insulating and heat-insulating plastic material. After the pre-overmolding has been formed, a finished overmolding 1 is also made of a plastic material. Finally, a housing 6 is attached to the basic element of the temperature sensor formed in this way, which is connected to the sensor element 4 in a heat-conducting manner. The sensor element 4 is embedded in a heat-conducting paste 7 between the housing and the sensor element.

In Fig. 2, a first embodiment of the temperature sensor according to the invention is shown, wherein one of the half shells of the insulating molded part is removed, and the second half shell 8 with the components arranged therein

·

BERU.. . . G 3830-DE

shown in a top view.

As shown in Fig. 2, two contact pins 3 made of an electrically conductive material are fitted into one of the prefabricated half-shells 8, which are connected via connecting elements 5 also made of an electrically conductive material to a sensor element 4, which can consist, for example, of two temperature-dependent electrical resistors with, for example, negative temperature characteristics. Recesses are provided in the half-shells in which a spring 10 can be accommodated, which can be compressed via a plunger element 11. The outer housing 6, which is connected to the sensor element 4 in a heat-conducting manner, is placed on this component. A circular recess 9 is provided in the two half-shells 8, which serves to accommodate a pin for connecting the two half-shells 8. Both half -shells 8 are connected to one another via this pin to form the closed insulating molded part §, onto which the housing 6 is placed. The arrangement of the contact pins 3 is such that these contact pins 3 partially protrude outwards beyond the insulating molded part consisting of the half-shells 8;. The thermal contact with the medium to be measured is via the housing 6 and the thermal paste to the sensor element 4. In the second embodiment shown in Fig. 3—

In the example of the temperature sensor according to the invention, the contact pins 3, the connection elements 5 and the sensor element 4 are fitted into a half-shell 8 and two such half-shells 8 are joined together. A housing 6 is arranged on the insulated molded part formed by joining the two half-shells 8. The second embodiment of the temperature sensor according to the invention shown in Fig. 3 differs from the first embodiment shown in Fig. 2 in _that no

Dowel pins are not provided for joining the half shells 8, but elements for joining them in one piece are molded onto the half shells 8 themselves. These elements

· &igr;&zgr;&igr; ,,.

BESU G 3830-DE

For example, these can be angry orate pens that are in |

Recesses in the other half shell engage and §

can snap into place there. if

Fig. 4 shows the electrical circuit diagram of the two Γ.

resistors 13 sensor element is shown. The _&eacgr;

Contact pins 3 are indicated schematically. As shown in Fig. 4 E

As shown, the resistors 13 are parallel and connected to :

one page. ^

In the third embodiment shown in Fig. 5,

According to the invention, the two half-shells 8 are not j|

separated, but in one piece with a

provided hinge 12. The insulating molded part ff

can be closed in the third embodiment thereby f|

that one half-shell 8 can be bent at the hinge \.

12 is arranged above the other half shell 8 and both ]

Half shells 8 are joined together. I

The production of the above-described examples |

The temperature sensor according to the invention is located in the p

following way: }

The sensor element 4, the connection elements 5 and the contact pins 3 are arranged in one of the two half-shells 8, whereby the arrangement is such that these components j fit into recesses and molded parts provided for this purpose.
Then the second half shell 8
placed on the hinge 12 or arranged over the first half-shell 8 by bending it at the hinge 12 and both half-shells j are joined together by means of the connecting pin or the j. connecting devices formed on it. If necessary, this g pre-assembled unit can be provided with an external overmoulding 14 ". Finally, the housing is placed on the
The structural unit formed in this way is placed and placed over the
the spring 10 mounted connecting element 11 with the sensor 4
contacted* i

The temperature sensor according to the invention can be |

This way it is easy to assemble and therefore cost-effective §

Since a direct overmolding of the sensor element §

a a

BERTJ G 3830-DE

-S-

If this is not provided for, the sensor element is treated carefully during the production of the temperature sensor and is not exposed to excessive mechanical and thermal stress.

Claims (3)

European Postgraduate Diplomas - European Diplomas in Medicine DR- RSLNAT. ROLF E. WlLHH-MS DH. RHL NACHH-MUT KIlIAN DtPL-PHYS-ECKART X)HLMANN EduartS-Schfiräti-Strasse D-SOOO Munich SO Telephone (063> 652091 Tetex 523467 (wflp-d) Telegrainme Patrans Munciien FaxGtll/GD (089} 651620S G 3&30-DE BERÜ Ruprecht GmbB. & Co. KG 7140 Ludwigsburg Temperature sensor Protection claims 1. Temperature sensor with an insulating molded part in which at least one thermally electrical sensor element and at least one electrical contact pin connected to it via a connecting element are accommodated, the insulating molded part being made of an electrically insulating and heat-insulating material, while the connecting element and the contact pin are made of an electrically conductive material, and with a housing which is arranged on the insulating molded part and is in heat-conducting connection with the sensor element, thereby characterized in that the insulating molded part consists of two prefabricated, joined half-shells (8) into which the sensor element (4), the connection element (5) and the contact pin {3} are fitted. · · SB 1 BERU G 3830-DE 2- Temperaturruhler Bach. Claim. 1, characterized in that the two half-shells (8) are connected to one another at the sensor element end via a hinge (12). 3. Temperature sensor according to claim 2, characterized in that the half-shells (8) and the hinge (12) are formed in one piece from an insulating material. 4* Temperature flicker according to: one of the preceding characterized in that two contact pins (3) are provided, which with their free ends protrude from the housing and the sensor element (4) consists of two ! resistors with temperature-dependent resistance values, which are each connected to the contact pins (3) via a connection element (5)-