DE7200323U - DEVICE FOR TEMPERATURE MONITORING AND / OR TEMPERATURE MEASUREMENT - Google Patents

Description

Device for tea maintenance and / or temperature measurement

The innovation relates to a device for partial operation monitoring and / or Temperature measurement at places accessible to Sahirer by means of an in one The sensing element located on the sleeve and one located at a distance from the Metetell Hefielnrlohtung.

A device for temperature monitoring on an »axle or shaft bearing. Here, a sensing element is located inside a sleeve provided with an external thread. The sensing element is in contact with the sleeve, as a result of which part of the Wm created at the measuring point over the Fheeme and the sleeve is discharged to the housing. This falsifies the measurement result. There is also a device for monitoring the temperature of machines known in which a sensing element is cast in a housing. By this configuration must also remove amounts of heat from the sensing element, whereby the yeast result is adversely affected.

The task of the innovation is to provide a device for temperature monitoring and / or temperature measurement in hard-to-reach places see below sohaffen, whereby the warmth, which is readily available at the place of origin, is almost lossless Hessing device is transferred.

This object is achieved according to the invention in that between the jacket an elongated sensing element and the bore of the sleeve surrounding the sensing element, there is a radially circumferential gap. The sensing element touches the measuring point at one end; at the other end there is the measuring device tied together. The gap isolates the sensing element against heat losses, whereby, even with very elongated sensing elements, there is only a slight falsification of the measurement result on the measuring device. Turn

7200323 Jft ₃ .72

SKF KUOEIIAGEEtFABRIKQI GMBH Sheet - 2 -

This configuration also makes it possible to use the outer diameter of the sleeve to keep it very low and to avoid weakening of the component in which the sensing element is installed. The space between the jacket of the sensing element and the bore of the sleeve can, according to the innovation, also be filled with air or gas or be evacuated. For this purpose, appropriate Seals provided.

In an advantageous embodiment of the innovation, the sensing element pierces one end face of the sleeve in the vicinity of the measuring point. This is located the sensing element is in direct contact with the measuring point. The frontal The space of the sleeve around the sensing element is heated just as strongly by the measuring point as the sensing element itself, so that the measurement result is not falsified this can occur.

In a further advantageous embodiment of the innovation, guide rings are used for the sensing element in the sleeve. This guide length can made of plastic or some other heat-conductive material. They prevent the sensing element from breaking, especially when exposed to vibrations,

It is also used to brace the assembly of the device according to the invention advantageous if the jacket of the sleeve is provided with a thread.

Especially for temperature monitoring on axle or shaft bearings is a with the sensor in touch contact heating coil provided, the. is used to check the puncture of the probe.

] In a further advantageous embodiment of the innovation, the measuring sensor pressed against the measuring point by means of springs.

'Further advantages and features of the innovation emerge from the figures, the

are described below.

SKP KaOELIAQEIlEAERIKBN GMBH sheet

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It shows:

Pig. 1 an inventive device for temperature monitoring and / or temperature measurement,

Pig. 2 is a sectional view of an innovation according to the invention

Temperature sensor with a sensing element and a sleeve,

3 shows a further exemplary embodiment of a temperature » feeler and

Fig. 4 shows a temperature sensor with a heating coil for Function check.

FIG. 1 shows a plummer block housing 1 with a roller bearing 2 located therein. The roller bearing has an inner ring 3 * rolling elements 4 and an outer ring 5. A temperature sensor is used to measure the temperature of the outer ring of the rolling bearing 6 screwed into the plummer block housing 1 with a thread 7. A sensing point 8 touches the outer ring 5 of the roller bearing 2. The temperature sensor 6 consists of a screwed-in sleeve 9 and a head part 10. From the head part 10 measuring lines 11 go to a display device, not shown. Figure 2 shows the temperature sensor 6 from FIG. 1 in a representation. In the sleeve 9 there is a sensing element 13, which with its front end - the sensing point 8 - touches the dumbbell of the outer ring 5. There is an air gap between the dumbbell 12 of the PUhlelementes I3 and the bore 14 of the sleeve 9 14 a. In the head part 10 of the sleeve is a Temperaturmefisonde, z. B. a Temperaturaohalter 15 provided. At the end of the head part 10 there is one Abdeoksoheibe 16. As can be clearly seen from the figures, in accordance with the innovation Temperature monitoring device separates the sensing device from the temperature measurement probe. Since the latter takes up a lot of space, is it is not possible to place them in hard-to-reach places on the yeast. Of the Temperature sensor 6 is very slim and can easily be used without weakening the component be introduced into this. Since the sensing element 13 over its entire length

SKP KOGEIIAGEKFKBRIKEN (StBB.

Sheet - 4 -

is surrounded by an air gap 14a «it transmits the at the Fühlstslle 8 measured heat to the temperature measuring probe relatively quickly and without loss 15. When using a sensing element with good thermal conductivity the temperature at the measuring probe 15 follows the temperature at the sensing point 8 with only a slight time delay.

Figure 3 shows another Ausuaesbelspiel the innovation., By means of Spring 17, the sensing element 13 is pressed against the jacket of the outer ring 5 here. The spring is supported on the support flanges 18 and 19 »Both Support flanges also serve to support the sensing element radially 13. Support flange 19 is firmly connected to sensing element 13 and mounted displaceably in the bore 14 of the sleeve 9. Support flange l8 is firmly connected to the sleeve 9; In its bore 20, the sensing element 13 slides. Depending on the stress on the sensing element, several would come Support flanges 18, 19 may be provided along the feeler element 13.

FIG. 4 shows a sensing element with a heating coil 21. For functional testing this heating coil 21 is heated whereupon the temperature measuring device gives a signal. Sine is such a function test device particularly advantageous to use in axle bearings of rail vehicles.

72003233013.72

SKP BDGEEIA (SiHEABRIKEN QtBR

1 Plummer block housings 2 roller bearing 3 Inner ring * Rolling elements 5 Outer ring 6th itaBpemturfitaer 7th Gewiade 8th Ftiilstelle 9 Sleeve 10 Headboard 11th Accompaniments 12th dumbbell 13th FOaele «nt 14th Bohxung \ I » air gap 15th Tte «peratm» eBsonde 16 Cover panel 17th feather 18th Support ring 19th Stütsflanseh 20th drilling 21 Heating coil

j 72003233 (13.71

Claims (6)

SKP KUOELLAOERFAERIKENf OMBH Sohwninfurt, January 4, 1972 Protection claims 1. Device for temperature monitoring and / or temperature measurement inaccessible places by means of a located in a sleeve FUhlelementes and a measuring device located at a distance from the measuring point, characterized in that between the dumbbell (12) one elongated FUhlelementes (15) and the bore (14) of the sensing element surrounding sleeve (9) a radially circumferential gap (l4a) is present. 2. Apparatus according to claim 1, characterized in that the sensing element (13) pierces an end face of the sleeve (9) in the vicinity of the hot point (5). 3. Device according to claims 1 to 2, characterized in that guide flanges (18, 19) for the sensing element (IJ) in the sleeve (9) are. 4. Device according to claims 1 to 3 »characterized in that the The jacket of the sleeve (9) is provided with a thread (7). 5 · Device according to claims 1 to 4, characterized in that one with the sensing element (13) in touch contact heating coil (21) is provided. 6. Device according to claims 1 to 5, characterized in that the The sensing element (13) can be pressed against the hot point (5) by means of springs (17).