EP0035699A2 - Position measuring device with sockets for electrical connection - Google Patents

Abstract

This position measuring device has an electrically conductive grid (2) as the measuring graduation, which is firmly attached to an insulated metallic scale body (1). The grid (2) is electrically connected to the external electrical system of the measuring device via contact sockets (7). The contact sockets (7) are mounted in the scale body (1) in a torsion-proof and extract-proof manner with the aid of insulating bodies (5 and 5 ') and do not protrude beyond the surfaces of the scale body (1). The grids (2) are electrically connected to the sockets (7) by means of soldering lugs (8) (FIG. 1).

Description

The invention relates to a position measuring device according to the preamble of claim 1.

Measuring devices of this type are known. With the connection technology of such measuring devices deal z. B. DE-AS 12 63 327, DE-AS 12 98 299 and DE-GM 19 85 138.

In DE-AS 12 63 327 and in DE-GM 19 85 138 the connection of the electrically conductive measuring grid in the form of a conductor is made with the aid of cables which are soldered to the grid and led out through holes to the back of the carrier body, or around them to the back be performed.

In DE-AS 12 98 299, some of the connections are already made in conductor technology on the back of the carrier body and open there into connections. Some of these connections are located on recesses that are offset from the surface of the material measure.

Such connections have disadvantages, since cable connections from the measuring grid to the connection are mechanically sensitive and the connection sockets can be torn out when changing the contact pin. The connection sockets can also not be provided with a screw connection, since there is no provision against rotation.

It is the object of the invention to avoid the existing disadvantages in the connections to electrically conductive grids and to provide a measuring device with contact sockets which can be connected securely, in which the loosening of the contacts does not lead to damage to the measuring grids and which results in the production of Simplify measuring device.

This object is achieved by the features specified in the characterizing part of claim 1.

The further design options are indicated by the features of the subclaims.

• 1.) Sicherer Sitz der Kontaktbuchse auch beim Wechsel des Anschlußstiftes,
• 2.) Sicherung gegen Verdrehen der Buchse, dadurch auch Schraubanschluß möglich,
• 3.) galvanisieren der Kontaktbuchse (vergolden) möglich, da eine Durchgangsbohrung vorgesehen ist,
• 4.) es besteht keine Gefahr, daß es bei der Montage oder beim Betrieb der Meßeinrichtung zu einer Beschädigung der Anschlußstellen kommt, da die Kontaktbuchsen nicht über die Oberflächen der Bauteile hinausragen,
• 5.) elektrischer Anschluß auch von der Rückseite der Bauteile möglich.

The advantages of the embodiment according to the invention are:

• 1.) Secure seating of the contact socket even when changing the connecting pin,
• 2.) Securing against rotation of the socket, thereby also screw connection possible,
• 3.) galvanizing of the contact socket (gold plating) possible, since a through hole is provided,
• 4.) there is no risk of damage to the connection points during assembly or operation of the measuring device, since the contact sockets do not protrude beyond the surfaces of the components,
• 5.) electrical connection also possible from the back of the components.

The invention will be explained in more detail with the aid of the drawing using an exemplary embodiment.

A metallic scale body 1 carries on its surface a measuring graduation 2 made in the form of an electrical conductor etching technique in the form of an electrically conductive grid. The mode of operation of measuring devices with such measuring divisions is adequately described in the prior art mentioned, so that it does not have to be discussed in more detail. The measuring graduation 2 is isolated from the scale body 1. In the scale body 1 there are slot-shaped recesses 3 and 3 'which are connected to through holes 4 in such a way that there are gradations due to the different dimensions. In this out Savings 3 and 3 'a part 5 and 5' of a two-part insulator is used. The insulating body part 5 is produced using plastic injection molding technology and has prismatic recesses 6, into which form-fitting contact sockets 7 are inserted. The contact sockets 7 carry prismatic lugs 7 'into which the prismatic recesses 6 are fitted in such a way that a soldering lug 8 can be attached between the lugs 7' and the bottom of the recesses 6 and is in electrical connection with the measuring graduation 2. The electrical connection is made by soldering 9. The insulating body part 5 'molded from plastic has conical recesses 10 on its outer region. The contact sockets 7 can be flared at their ends opposite the prismatic lugs 7 ', so that the expanded conical jacket 7''pulls the two insulating body parts 5 and 5' together in the recesses 3 and 3 'after the insertion such that loosening of the Contact socket 7 by rotation or by pulling out perpendicular to the scale body 1 is not possible without destroying the contact socket 7. The through hole 11 arranged in the contact socket 7 serves to receive a contact pin, which establishes the electrical connection to the evaluation electronics or to supply the measuring device. With a corresponding design of the bore 11, a screw connection is also possible. The contact socket 7 can also be galvanically gold-plated in the through hole 11, which contributes considerably to improving the electrical contact. The measuring graduation 2 is provided with a protective lacquer layer to protect against negative influences.

Claims (7)

1.) Position measuring device with contact sockets for electrical connections to electrically conductive grid on surfaces of relatively movable components - for example in the form of a material measure and a scanning plate of length or Winhelmeßeinrichtung - for direct contacting of the grid to the connections, characterized in that at least one contact socket (7) positively with the help of an insulating body (5, 5 ') in one of the components (1) against rotation and pull-out - the surfaces of the component (1) not outstanding - is fixed and electrically connected to the grid (2). 2.) Position measuring device with contact sockets according to claim 1, characterized in that the insulating body (5, 5 ') is secured against rotation in an elongated hole (3, 3') in the measuring scale (1) or the scanning plate, and has approaches which serve as a safeguard against pulling out of the insulating body (5, 5 ') from the material measure (1) or the scanning plate perpendicular to the grid plane. 3.) Position measuring device with contact sockets according to claim 1 and 2, characterized in that the contact sockets (7) in prismatic recesses (6) of the insulating body (5, 5 ') are arranged against rotation, and that the protection against pulling the contact bushings (7) out of the insulating body (5, 5 ') perpendicular to the grid plane is provided by lugs (7') and expansion (7 ") of the contact bushings (7). 4.) Position measuring device with contact sockets according to claim 1, characterized in that each of the contact sockets (7) has a through hole (11). 5.) Position measuring device with contact sockets according to claims 1 and 4, characterized in that the through holes (11) are designed as tapered bores. 6.) Position measuring device with contact sockets according to claims 1 and 4, characterized in that the through holes are designed as threaded bores. 7.) Position measuring device with contact sockets according to claims 1 and 4, characterized in that the contact sockets (7) are galvanically gold-plated.

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