AT397719B - Test bench for heat sensors of thermometers - Google Patents

Abstract

In a test bench for heat sensors of thermometers, for example heat meters, the heat sensors connected to a cable are lowered to a predetermined depth into a medium at predefined temperature and its measured value is compared with that from a reference thermometer. In this case, at least one holding element 3 provided with a push- through opening 6 for the heat sensor is arranged on a plate 2. In order to achieve a high level of certainty for compliance with the desired immersion depth, the push- through opening 6 is arranged eccentrically with respect to a thread 9 or the like provided on the holding element 3, and a clamping part 4 can be screwed onto the thread 9, having a push-through opening 10 that has substantially the same eccentricity. <IMAGE>

Description

AT 397 719 B

The invention also relates to a test stand for heat sensors of thermometers, e.g. of WMrme counters, in which the heat sensor connected to a cable is lowered to a predetermined temperature in a medium at a predetermined depth and the measured value of which is compared with that of a reference thermometer, with at least one with a push-through opening for the on a plate or PDU s heat sensor provided with the oat body is arranged.

In the case of heat meters in particular, an exact measurement of the temperature in the inflowing and outflowing medium is essential, because only in this way, in connection with an exact flow measurement, is it possible to measure the heat precisely, which was removed from the heat transfer medium. Test stands of the type mentioned above are therefore in use, in which the displayed values are tested at different temperatures of the medium, the results also being able to be used as the basis for a calibration.

The accuracy of the results also depends on the exact adherence to the immersion depth of the heat sensor in the medium. In order to achieve a clearly determinable immersion depth, when working with the known test stands, the cable of the heat sensor is provided at a predetermined point 75 with an annular cable tie, up to which the cable and therefore the heat sensor in the. Holding body, which is also od. Dgi. itself can be formed, is used Such a way of working is not only extremely complex, but also imprecise. This is because the cable ties not only have to be applied, but also removed again after the test, and it is also easily possible for these cable ties to slip, so that the insertion or immersion depth is then no longer maintained.

The invention has set itself the goal of improving a test bench of the type mentioned in such a way that laborious manipulations in the testing of heat effects are no longer necessary and that there is also great security for maintaining the desired immersion depth. This is achieved in that the push-through opening is arranged eccentrically to a thread or the like provided on the holding body SS and a clamping part can be screwed onto the thread and has a push-through opening which has essentially the same eccentricity.

In the case of a test stand designed in accordance with the invention, the cable is gripped with one hand at the end of the insertion length, the heat element and the cable are pushed through the two coaxial through openings of the holding body and the clamping part as far as the stop, and then the clamping part is rotated in this way. This keeps the cable ready.

In order to find the coaxial position of the two through-hole openings easily, according to a further feature of the invention, the holding body and the clamping part are provided with markings which correspond when the through-openings are aligned.

The markings are expediently designed as depressions or projections. In a preferred embodiment of the invention, the push-through opening in the holding body extends obliquely to its thread axis.

It has also proven advantageous if the clamped is provided with an internal thread which is screwed onto the thread of the holding body which is flattened onto the external thread

In order to ensure that the heating element or cable slides easily when it is imported, the 4o holding body and the clamping element are expediently made of polytetrafluoroethylene.

In order to simplify the dimension of the insertion length, a length dimension can be fixedly arranged on the test bench.

The invention is described in more detail below on the basis of an exemplary embodiment shown in the drawings, but without being limited to this example. 1 shows the partially 45 top view of a plate of a test stand equipped according to the invention, FIG. 2 shows an enlarged section of a section according to the lirtte INI in FIG. 1 and FIG. 3 shows the top view in the direction of the arrow III in Fig. 2 again.

In the bores of a plate 2 provided with handles 1, holding bodies 3 are inserted, screwed in in the example, which serve to accommodate heat sensors (not shown) connected with cables. The holding bodies 3 are arranged around a bore 5 which can accommodate a reference thermometer. The plate 2 with the heat sensor used and the reference thermometer also used is placed on a vessel with a heat medium of a certain temperature, the heat sensor also being used for the reference thermometer. should be immersed equally deep in the heating medium. The accuracy of the heat sensor or connected measurement values can be checked by comparing it with the value displayed by the reference thermometer.

As can be seen in particular from FIG. 2, the holding body 3 has a push-through opening 6, the axis 7 of which extends obliquely to the central axis 8 of the holding body 3 in such a way that the upper end of the push-through opening 6 is eccentric to the holding body 3

Claims (7)

AT 397 719 B external thread 9. On this external thread 9, a clamping part 4 is screwed with its internal thread, which has a push-through opening 10. This push-through opening 10 has essentially the same eccentricity as the push-through opening 6 of the holding body 3. In the position shown in FIGS. 2 and 3. s the two push-through openings 6 and 10 coaxial, in this position a heat sensor and its cable can be easily inserted into push-through openings e and 10. As soon as the holding hand rests on the clamp 4, the latter is rotated and the cable is thus fixed. The coaxial position of the two push-through openings 6 and 10 is indicated by a marking, which in the example shown is formed by grooves 11 and 12 in the hair body 3 or clamp part 4. This io coaxial gradient can therefore be adjusted both by sight and by feeling. The device according to the invention is for different cable diameters, e.g. between about 4 mm and 8 mm. To set another cable duct knife, the clamping part 4 is unscrewed by 360 degrees, so that the two push-through openings are 6 and 10 kn apart. is Numerous modifications are possible within the scope of the invention. Thus, the thread can be replaced by an annular groove with a correspondingly engaging collar, although an increase to different cable diameters is no longer possible or is only possible with difficulty. The push-through opening 6 in the holding body 3 can also run parallel to its axis if its lower part is made stronger. 1. Test bench for heat sensors of thermometers, e.g. of WSnmezählem, in which the warmth sensors connected with a cable are lowered to a predetermined depth into a medium at a predetermined temperature and the measured value of which is compared with that of a retrial thermometer, with 2S of a plate or the like. At least one adhesive body provided with a push-through opening for the heat sensor is characterized in that the push-through opening ¢) is arranged eccentrically to a thread (9) or the like provided on the hair body (3) and a clamped »(4) on the thread (9). the through-opening (iö), which has essentially the same eccentricity, can be screwed on 30 2. Test bench for heat sensors according to claim 1, characterized in that the hair body (3) and the clamped! (4) are provided with markings (11, 12) which correspond when the through openings {6.10} are aligned. ss 3. Test stand for heat sensors according to claim 2, characterized in that the markings are designed as depressions (9, 10) or projections. 4. Test bench for heat detectors according to one of claims 1 to 3, characterized in that the through-hole (6) in the adhesive body (3) extends obliquely to the threaded axis 40 5. Test bench for heat detectors according to one of claims 1 to 4, characterized in that the clamping part (10) is provided with an internal thread which can be screwed onto the thread (9) of the holding body (3) which is designed as an external thread 6. Test stand for WarmefQhier according to one of claims 1 to 5, characterized in that the holding body (3) and the clamped ·! (4) consists of polytetrafluoroethylene 7. Test stand for heat detectors according to one of claims 1 to 6, characterized in that a length dimension is fixedly arranged on the test stand so Hiezu 1 sheet drawings 3 55th