CS241381B1 - Scanning systems contacts' burning protection connection with at least two contacts - Google Patents

Abstract

Wiring for contact protection sunscreen sensing systems designed to increase durability and reliability facilities using contact activities sensing systems, especially in cases where wherein the contact sensing system is located in a mechanically separable part of the device and the contact sensing system is powered via mechanically divisible separating transformer.

Description

(54) Wiring to protect the sensing system contacts from tanning with at least two contacts

The wiring to protect the contact sensing systems against sunburn is designed to increase the service life and reliability of devices using contact sensing systems to operate, especially when the contact sensing system is located in a mechanically separable part of the device and the contact sensing system is powered via a mechanically divisible separating transformer. .

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a circuit for protecting the contacts of sensing systems from tanning with at least two contacts.

At present, contact sensors are used to a very limited extent, inter alia, because in operation with a conventional power supply, the contacts burn out and the oxides formed impair the operation of the contact sensor. The sensor as a whole then becomes unreliable, ceases to switch and therefore becomes unusable, although otherwise it makes it possible to achieve a high resolution capability in a relatively simple manner, for example in the sensing heads of measuring machines. The tanning of the contacts is manifested especially in their function in the circuits with inductances and therefore it is usually necessary to avoid the inductances in circuits with contact sensors. However, when using a contact transducer, inductance cannot be avoided when the transducer status is transmitted non-contact via a split transformer via mutual inductance and the transducer is powered directly by the secondary winding of the split transformer, such as when the sensor head with the contact sensing system is for measuring machine used for active control on the machine tool.

The disadvantages of the present invention are to eliminate the tanning circuit protection of at least two contacts according to the invention, which consists of an oscillator provided with a damping resistor, the outputs of the contact sensing system being led out of one contact pair or a series-parallel combination thereof and connected parallel to the damping resistor. The damping resistor and the outputs of the contact sensing system connected thereto can be galvanically separated from the oscillator by a separating transformer which can be mechanically divisible. Furthermore, the damping resistor and the outputs of the contact sensing system connected thereto can be coupled to the isolation transformer via a capacitor.

The advantage of this type of protection is also that the protective effect of the connection can be extended by contactless transmission of contact state information of the contact sensing system, for example in an active control probe, where the mechanically separable part of the electrical circuits, e.g. and therefore requires minimal maintenance.

The drawing shows a circuit diagram according to the invention, wherein the outputs 1 of the contact sensing system are connected in parallel to the damping resistor 3. The damping resistor 3 and the connected outputs 1 of the contact sensing system are galvanically separated from the oscillator 2 by a separating transformer 7 with which they are connected via a capacitor. 8.

By connecting the contact sensing system parallel to the damping resistor 3 of the oscillator 2, when the contacts of the contact sensing system are closed, the damping resistor 3 is short-circuited and the oscillator 2 oscillates. As the contacts open slowly, their transition resistance increases continuously, whereby the influence of the damping resistor 3 gradually becomes effective and the oscillation of the oscillator 2 ceases when the contacts of the contact sensing system are still galvanically connected. With a further increase in the contact resistance between the contacts, the contacts are already de-energized and expand without load. When switching contacts, it will only oscillate oscillator 2 when there is already a galvanic connection between the contacts. In this way, sparking on the contacts is avoided.

Claims (6)

Subject Wiring for protecting the contacts of the sensing systems from tanning with at least two contacts, consisting of an oscillator provided with a damping resistor, characterized in that the outputs (11j of the contact sensing system are connected in parallel to the damping resistor (3). Wiring according to claim 1, characterized in that the outputs (1) of the contact sensing system are galvanically separated from the oscillator (2j) by a separating transformer (7). Connection according to Claims 1 and 2, characterized in that the isolation transformer (7) is mechanically divisible. Connection according to Claims 1 and 2, characterized in that the damping resistor (3) and the outputs (1) of the contact sensing system connected thereto are connected to the isolation transformer (7) via a capacitor (6). Connection according to Claims 1 to 4, characterized in that the outputs (1) of the contact sensing system are led out of one contact pair of the contact sensing system. Connection according to Claims 1 to 4, characterized in that the outputs (1) of the contact sensing system are led out of a series-parallel contact contact system contact combination.