DE2556783C3 - Measuring point switch with magnetically controllable adhesive contacts for multi-point measurements on rotating parts - Google Patents

Description

existing sensors are scanned, which in turn are connected to the input of the counter.

According to an advantageous embodiment of this solution, the circumferential part of the switch is small similar building blocks divided, which are evenly distributed along the circumference of cylindrical bodies can be attached.

According to the invention, a second solution to the same object is that adhesive contacts are used as magnetic protective gas contacts in such a way that they are arranged on one part of a transmission with a ratio different from 1: 1 and by permanent magnets attached to the other part of the transmission are closed, according to the opposite polarity during the rotation of their reiati- ι ^r> ven movement towards each other and opened. so it is to operate in place of a fixed electromagnet uses a bewpgliches system of permanent magnets of the adhesive contacts. This excitation system is the means of transmission as a function of the angular position The object to be measured is moved relative to the contacts in such a way that after each rotation through a certain angle the previously closed contact is opened and the next is closed In the direction of the magnet, the contact is set to the closed or open state.

In an advantageous embodiment of this second solution, the rotating test object on the one hand and the excitation system on the other hand are coupled to one another via two gear wheels; Further, the to be attached to the shaft of the object to be measured with the gear wheel mounted thereon contacts in two halves partially a bar.

The advantage obtained by this invention is that the actuated contact for at least one full turn remains closed, so that rapidly changing or angle-dependent measurands w can be detected SEN gaps.

A special advantage of the first-mentioned approach is that further contacts are closed can be opened without opening the previously closed. So it is possible to contact the 4-, Switching on and off a circulating battery supply for passive transducers to use the Extend the service life of the battery by switching it off during measurement breaks.

Another advantage of the former solution -, <) weges is the possibility of simple attachment to shafts of any diameter without specially made Adapters.

The second solution has the advantage that for the operation of the changeover switch neither on the rotor nor on « any electrical control circuits or power supply devices are required on the stator side are.

Two embodiments are illustrated in the drawings and will be loaded _fa o written in more detail below. It shows

Fig. 1 the control of circumferential adhesive contacts by a fixed electromagnet,

Fig. 2 the control of circumferential adhesive contacts by a system of permanent magnets, which with- ", We move by means of gears relative to the contacts.

Magnetically controllable protective gas contacts, so-called Recd contacts. are also called detention contacts available in the stores. The tongue material of these adhesive contacts is a hard magnetic material. A Magnetic field pulse magnetized in the longitudinal direction of the tongues with a certain minimum duration and minimum amplitude the tongues and brings the contact to close. When the external magnetic field disappears, the field caused by the remanence is sufficient to keep the contact closed. However, if the field caused by remanence is compensated for by an external, oppositely directed field Field, the contact opens and remains open when the outer field subsequently disappears; because the magnetic flux is interrupted by the air gap between the tongues, and that on the tongues acting forces are small. The pulse used for opening may, however, have a maximum amplitude do not exceed, otherwise magnetization will take place in the opposite direction and the contact would close again immediately. The miniaturized version of commercially available adhesive reed contacts with a glass body length of only 15 mm enables a design of the switch that hardly any more space claimed as that of a corresponding electronic changeover switch.

According to Fig. 1 are on the shaft 1 of the rotating Part of the adhesive contacts 2 attached evenly distributed along the circumference. Move the contacts passes an electromagnet 3 one after the other during the rotation of the test object. For better The ends of the contact tubes, including the outer ones, are used to initiate the magnetic field Tongue connections embedded in soft magnetic pole pieces 4. To avoid a magnetic short circuit of the To prevent both pole shoes from being in the vicinity of shaft 1 is between the shaft on the one hand and on the other hand, a magnetically poorly conductive intermediate layer 5 attached to the pole pieces, which also serves as a mounting base. On the shaft 1 there are counting marks 6 in two tracks attached. In one lane there is only a single mark indicating the location of that contact at which counting should start.

In the other lane, a label is assigned to each additional contact. The brands are of two Sensors 7 scanned. When passing the individual marks, a counter 8 is preset to one Value that corresponds to the number of the contact to be actuated. Then one in the other lane When the number of marks corresponding to the presetting has passed, the counter issues a transmission message. Is there a command to close or If the preselected contact opens, the carry is sent via a gate circuit to an amplifier passed on, the corresponding current pulse in one of the two oppositely arranged Windings of the electromagnet 3 generated.

In Fig. 2, the adhesive contacts 2 are arranged in the bores of a gear 9 evenly distributed along the circumference. The gear wheel sits on the shaft 1 of the rotating part, it can be dismantled into two halves to enable it to be attached even if the end of the shaft is inaccessible. In the example shown in Fig. 2, it is a tooth ^r ad with 20 teeth and H) adhesive contacts. With the gear 9 there is another: gear 10 in engagement; the latter has 22 teeth. Two of these 22 teeth have axially parallel bores, in those themselves

Rod-shaped permanent magnets II with mutually opposite directions Polarity and different strength. The distance between the magnets is the same the grid in which the contacts are arranged. In the direction of rotation entered in FIG first the previously closed contact by approaching the weaker of the two magnets opened. After approx. A tenth of a revolution of the measuring object, the next contact is made by approaching it closed on the stronger magnet and stays closed for about a full turn. That In this case, switching takes place after "/", revolutions. Instead of that shown in FIG Arrangement of two gears can also be a combination of gears and toothed belts be used.

Literature considered

1. Rohrbach, Chr .: Manual for electrical measurement of mechanical quantities, Chapter E 5, VDI-Verlag Düsseldorf 1967.

2. Rohrbach, Chr .: Possibilities for measuring moving parts, VDI reports No. 144. 1970, Pp. 5-11.

3. Measuring device catalog 75. Philips, pp. 324-334.

4. Donato. V. and S. P. Davis: Radio Telemetry for Strain Measurements in Turbins. Sound and Vibration, Vol. 7 (1973). Pp. 28-34.

5. Valentich, J .: Radio Telemetry in Experimental Stress Analysis, Experimental Mechanics. Dec 1971, pp. 569-576.

6. Pratt, A. J. S .: Telemetry of Engine Rotor Test Data. 2 '"' International Symposium on air breathing engines, Sheffield 1971.

7. Brochure from Aerotherm, Mountain View, Calif .: Wireless Data Couplers, 1972.

8th N N .: Telemetry - the bridge from the measuring point to the measuring station, Elektronik-Zeitung, September 5th. 1975, pp. 8-22.

9. Gerresheim, M .: Measurement method for determining temperatures in rolling tires, ATM (1973), No. 1, pp. 7-10.

1 sheet of drawings

Claims (8)

1 claims: 1. Measuring point switch for multi-point measurements on rotating parts with magnetic controllable protective gas contacts which circulate with the test object, characterized in that that adhesive contacts are used as magnetic protective gas contacts in such a way that these moves past a fixed electromagnet (3) during rotation and accordingly whose polarity can be closed or opened and that the excitation of the electromagnet via a presettable counter (8) by means of counting marks (6) is controlled which, the respective Contacts (2) assigned accordingly, also attached to the rotating part (1) are and are scanned by fixed sensors (7), which in turn are connected to the input of the Counter (8) lie. 2. measuring point switch according to claim 1, characterized in that the on the test object or the part of the switch to be attached to the shaft is divided into several similar building blocks running along the circumference of cylindrical Bodies can be attached evenly distributed. 3. measuring point switch according to claim 1, characterized by a two-pole or multi-pole Structure in which two or more contacts are arranged adjacent and actuated at the same time will. 4. Measuring point switch for multi-point measurements on rotating parts with magnetic controllable protective gas contacts which circulate with the test object, characterized in that that adhesive contacts are used as magnetic protective gas contacts in such a way that they are on the a part (9) of a transmission (9, 10) with a ratio different from 1: 1 is arranged and permanent magnets (11) attached to the other part (10) of the gearbox of opposite polarity during rotation due to their relative movement to each other closed, and opened. 5. measuring point switch according to claim 4, characterized by two mutually engaging Gears, namely a gear (9) attached to the test object or its shaft (1) along with it the circumference made holes to accommodate the contacts (2) and another gear (10) with holes to accommodate rod-shaped permanent magnets (11). 6. measuring point switch according to claim 4, characterized in that the permanent magnets (11) are attached to a toothed belt, which is attached to a measuring object (1) Gear (9) on which the contacts (2) are attached, engages. 7. measuring point switch according to claim 5 and 6, characterized in that the measurement object or the gear (9) to be attached to the shaft (1) can be dismantled into two halves. 8. measuring point switch according to claim 4, characterized by a two-pole or multi-pole Structure in which two or more contacts are arranged adjacent and actuated at the same time will. The invention relates to measuring point switch for multi-part measurements on rotating parts magnetically controllable protective gas contacts, which rotate with the test object, which are used can be used especially for experimental stress analysis with strain gauges and for Measurement of temperature distributions with thermocouples on engines, turbines, wheel axles, cement rotary kilns etc. Measuring point switches serve the purpose of connecting several measuring points one after the other with a common one to connect further channel. Bring a measuring point switch to the rotating part on, the transfer of the measured values from the object to be measured to the stationary measuring or recording device be single-channel. There are many applications for rotating changeover switches of this type Aggravating boundary conditions: The components of the changeover switch must be small, light and robust, they should not cause an imbalance, and they should also at high temperatures and strong accelerations work reliably. The transfer of the information needed to operate the changeover switch is also problematic any necessary supply energy as well as the j Transmission of control signals because of galvanic connections the rotating part are often difficult to manufacture. The selection of the components used for the construction of the measuring point switch depends on on the above-mentioned environmental conditions, in particular the ambient temperature range. Electromechanical contacts can be used in conjunction with slip ring, mercury or Transformer rotary joints measuring systems without Γι realize circulating electronics; the upper limit temperature can therefore be significantly higher than with the otherwise very powerful measuring systems with electronic channel multiplication. In the current state of the art, electromagnetic contacts were used for measurements rotating parts have so far only been used in special cases, since the problem of control is not satisfactory was resolved. The actuation of all-round shielding gas contacts by a fixed permanent ■ r, ermagneten has the disadvantage that the contacts each are only closed in a small angular range, so that the observation can be changed quickly and / or angle-dependent variables is only possible to a limited extent. With long-term tests at high speed, quickly reached the end of the service life of the contacts, since the contacts switch with every revolution. The invention is based on the object of providing contacts that are attached to a rotating part, by means of a fixed device individually the -, ·; To be operated one after the other and for at least hold closed one full turn. This object is achieved in a first solution with a measuring point switch of the type mentioned at the beginning according to the invention solved in that as a magnetic bo inert gas contacts adhesive contacts are used in such a way that it moves past a fixed electromagnet during the rotation of the measurement object and are closed or opened according to its polarity, the excitation of the _h j magnet is controlled via a presettable counter by means of counting marks, which, assigned to the respective contacts, are also attached to the rotating part and are