DE19519834A1 - Measuring system contact design for simultaneous contacting and fixing system - Google Patents

Abstract

The fixing system is formed in the manner of a quick locking arrangement and the contact element (3) in the fixed position of the measuring system (1), lies on the carrier (5) under spring loading at the contact surface (7) of the carrier. The fixing system is designed as a bayonet connection. One part of the bayonet connection is arranged at the measuring system (1) and the other part at the carrier. The fixing system includes at least one clamp, lockable with spring loading, in an opening in the carrier (5). A positioning system can be mutually arranged at the measuring system and the carrier.

Description

The invention relates to a measuring mechanism contact in which a measuring mechanism with at least one contact element with a min at least a carrier having a contact surface by means of an attachment Stigungsmittel is connectable.

Measuring devices can be attached and contacted in different ways with the possibility of the attachment and the making electrical contacts separately or in one operation to be able to make. An example of the latter possibility he results from DE 40 39 625 A1. There you will find contact sleeves Ver application that is used to screw in a contact at the same time leading fixing screws are formed. But also this contacting and fastening required in one operation special contact sleeves, for the manufacture of which he uses special tools are required, as well as a certain amount of assembly work, because in the Usually the measuring mechanisms are fastened with four screws.

The object of the invention is to establish contact and attachment simple contact elements with less installation effort possible.

This task is based on a measuring device contacting the initially described type solved according to the invention in that at the Outside of the measuring mechanism, the contact element arranged and as is a resilient element that the fastener after Kind of a quick release fastener is formed and that the contact element in the specified position of the measuring mechanism on the carrier rests under the spring tension on the contact surface of the carrier.

By forming a mounting option like a The quick-release lock eliminates the assembly effort, for example required for screwing in four screws. One or several resilient contact elements can due to their springiness Compensate for any dimensional tolerances and do not require any special manufacturing costs, since they are, for example, as simple resilient tongues can be formed, the Festle gene of the measuring mechanism on the carrier inevitably under spring pressure the associated contact area come into contact and so one Establish safe electrical contact. With this invention The usual design, such as fest, is no longer necessary screw, press or solder.

According to a preferred embodiment, the fastening means be designed as a bayonet catch, one part of the bayo nice closure on the measuring mechanism and the other part on the carrier is formed. This enables the measuring mechanism to be fastened quickly possible on the carrier, with the contact arranged on the outside elements the electrical contacting automatically with this Ar entrance hallway.

A simple and effective contact is also according to one the design of the invention possible in that the Befe Stigungsmittel at least one resilient in an opening in the carrier includes snap bracket. Here, common Klam  mers are used, such as those used to attach Cladding parts or trim strips in motor vehicles are common.

To make sure that with these simple fasteners The measuring mechanism can also be attached at the exact location provided , it is advantageous if an interlocking positioning is provided directions on the measuring mechanism and the carrier is provided. In the event of the use of a bayonet lock, it is recommended that the positioning device through a projection on the contact element and an adapted recess is formed in the carrier.

In the case of using brackets to attach the measuring factory it is more convenient if the positioning device through one or more positioning pins arranged on the measuring mechanism and corresponding openings are formed in the carrier.

The invention is described below using exemplary embodiments explained in more detail. The drawing shows:

Fig. 1 a mounted on a carrier measuring mechanism, partly in section;

FIG. 2 shows a top view of the arrangement according to FIG. 1;

Figure 3 is an enlarged view of a spring element and a section of the carrier.

Fig. 4 is a partial section through a contact element and the carrier in the assembled state;

Figure 5 is a perspective view of a measuring mechanism with a fastener.

Fig. 6 is a representation of a carrier in the area of the fastening supply point for the measuring mechanism; and

Fig. 7 shows another embodiment for the attachment and contacting of the measuring mechanism on a carrier.

According to FIGS. 1 and 2 is designated 1 measuring element on an electrically conductive shaped housing 2 with con tact elements 3 in the form of resilient tongues provided that come with corresponding contact pads 4 on a as a circuit board ausgebil Deten beams 5 biased into contact when the measuring mechanism is fixed on the carrier 5 by means of a central, in Fig. 1 only schematically indicated fastening means 6 .

Sitioning Figs. 3 and 4 show details of the contacting and Po. From these diagrams it can be seen that the con tact element is formed as an obtuse-angled bent tongue 3, a is fastened with its one leg 3 at meter 1 and its bent legs 3 b obliquely downward via the measuring mechanism 1 projects, as shown in particular from Fig. 4 emerges in order to be able to compensate for any dimensional tolerances when the contact element 3 rests on a contact surface 7 on the carrier 5 . To position the measuring mechanism 1 , the contact elements 3 on the free leg 3 b have projections 8 which engage in corresponding recesses or bores 9 of the carrier 5 and thus fix the measuring mechanism in the desired position when it is fastened to the carrier 5 by a fastener-like fastening means is set.

An example of such a fastener is shown in FIGS. 5 and 6 and consists of a bayonet lock, the egg ner part 10 is fixed in a central position on the underside of the measuring mechanism 1 be, while the other part in the form of an opening 11 in the carrier 5 is formed. The part 10 has a central pin 12 and two bolts 13 projecting at right angles thereto, while the part 11 in the carrier 5 comprises a central bore 14 and two slot-like recesses 15 extending therefrom, which are adapted to the bolts 13 . To attach the measuring mechanism 1 to the carrier 5 , the measuring mechanism is placed in such a way that the pin 12 and the bolts 13 engage in the central bore 14 or the slot-like recesses 15 , after which the measuring mechanism is rotated. Since the contact elements 3 are designed as spring elements, they bring about a firm fit of the measuring mechanism on the support 5 and come into contact with the contact surfaces 7 , which simultaneously serve as positioning aids for the measuring mechanism 1 according to FIG. 4.

Fig. 7 shows a further fixing possibility of the measuring unit 1 on the carrier 5. In this embodiment, on the underside of the measuring mechanism 1 in a central location, a bracket 16 is angeord net, which is resiliently inserted into a through hole 17 of the carrier 5 and can be locked there. A positioning device is used to position the measuring mechanism 1 on the carrier 5 , which comprises a pin 18 arranged on the underside of the measuring mechanism 1 and a corresponding bore 19 in the carrier 5 . Accordingly, the size and weight of the measuring mechanism 1 , of course, several such brackets 16 can be provided.

Claims (6)

1. Measuring mechanism contact, in which a measuring mechanism with at least one contact element with a, having at least one contact surface support can be connected by means of fastening means, characterized in that on the outside of the measuring mechanism ( 1 ) the contact element ( 3 ) is arranged and designed as a resilient element is that the fastening means ( 10 , 16 ) is designed in the manner of a quick-release fastener and that the contact element ( 3 ) in the fixed position of the measuring mechanism ( 1 ) on the carrier ( 5 ) under spring tension on the contact surface ( 7 ) of the carrier ( 5 ) rests. 2. Measuring mechanism contact according to claim 1, characterized in that the fastening means is designed as a bayonet lock ( 10 , 11 ), one part ( 10 ) of the bayonet lock on the measuring mechanism ( 1 ) and the other part ( 11 ) on the carrier ( 5 ) is trained. 3. Messwerkkontaktierung according to claim 1, characterized in that the fastening means comprises at least one in an opening in Publ ( 17 ) in the carrier ( 5 ) spring clips ( 16 ). 4. measuring mechanism contacting according to one of claims 1 to 3, characterized by a nested positioning device ( 8 , 9 ; 18 , 19 ) on the measuring mechanism ( 1 ) and on the carrier ( 5 ). 5. Messwerkkontaktierung according to claim 4, characterized in that the positioning device is formed by a projection ( 8 ) on the contact element ( 3 ) and an adapted recess ( 9 ) in the carrier ( 5 ). 6. measuring mechanism contacting according to claim 4, characterized in that the positioning device by one or more on the measuring mechanism ( 1 ) arranged positioning pin ( 18 ) and speaking openings ( 19 ) in the carrier ( 5 ) is formed.