DE2757014C3 - Precision thermometer for measuring small changes in temperature - Google Patents

Description

The invention relates to a precision thermometer for measuring small temperature changes, consisting of a rod-shaped body, in the lower end portion of which serves as a sensor chamber for Measuring liquid is formed by means of a capillary-like tube with one at the upper end portion of the rod-shaped body arranged expansion tank is connected.

It is known to measure small temperature differences in different temperature ranges as Precision thermometers, so-called Beckmann thermometers, are to be used. These are mercury thermometers that in the upper part have differently shaped extensions into which a part of the mercury is brought can be. Furthermore, according to US-PS 13 50 158 a liquid thermometer is known, which consists of a liquid-filled There is a sensor that is connected to an upper compensation vessel by means of a capillary. With But this thermometer is a metrological acquisition of temperature changes of only extremely small dimensions are not possible, since the measuring capillary of the thermometer is so long would have to be designed so that handling of the thermometer during use or transport would be practical is impossible.

The object of the invention is to provide a precision thermometer that with conventional Dimensions the measurement of very small temperature changes and a simple one due to its simple structure Assembly or disassembly as well as operation allows.

According to the invention, the object is achieved in that parallel to the one with a filler neck equipped expansion tank is designed as a bypass a measuring capillary made of transparent material, one end portion of which by means of a three-way valve with the pipe and the other end portion with a formed on the end face of the expansion tank capillary is connected by the Using a bypass enables an extreme spread of the measuring range, so that too Smallest temperature changes can be detected with greater accuracy than with the known Thermometers is possible Due to its simple structure, the precision thermometer is easy to use and not prone to failure.

Further developments of the invention are described in the subclaims.

An embodiment of the invention is shown in the drawing which has a precision thermometer in shows a side view in section

The precision thermometer 10 consists of a rod-shaped hollow body 11, in the lower End section 12 a chamber 14 for measuring fluid is formed thieves chamber 14 is by means of a Tube 15 with a small opening cross-section with a

zo on the upper end portion 13 of the hollow body 11 arranged expansion tank 16 connected. At the Front side 16a of the expansion tank 16 is a filler neck 17 formed with a screw connection can be locked.

The pipe 15 consists of two pipe sections 15a, 15Zj, of which the pipe section 15a is connected to the chamber 14 and the pipe section 156 is connected to the expansion tank. A three-way valve 18 is arranged between the pipe sections 15a, 156. The three-way valve 18 is connected to the pipe sections 15a, 15b by means of sliding sleeves 24, 25. For this purpose, a capillary stub 20 is formed on the end face 16a of the expansion tank 16, on the free end portion of which the measuring capillary 21 is fastened by means of a sliding sleeve 22.
The measuring liquid 25 can be connected via the three-way valve 18 to both the expansion tank 16 and the measuring capillary 21 by setting the valve body 19 accordingly. During the temperature equalization, which takes place immediately after the precision thermometer 10 has been installed in a container with the fluid to be tested, the three-way valve 18 is set to the equalization position. This means that the flow in the pipe 15 from the pipe section 15a into the pipe section 15 or vice versa is not interrupted.

When the temperature has been equalized, the three-way valve 18 is brought into the measuring position during the measurement, for which purpose the pipe section 15a is blocked by rotating the valve body 19 by 90 °. As a result, the measuring liquid 25 in the chamber 14 is only connected to the measuring capillary 21. The sensitivity of the precision thermometer 10 can be determined by the volume of the measuring liquid 25 and the cross section of the measuring capillary 21. If the cross section of the measuring capillary 21 is very small in relation to the volume of the measuring liquid 25, which expands with temperature changes, a high sensitivity and thus display accuracy of the precision thermometer 10 is guaranteed.
By choosing the sensor length accordingly,

·> ■> lie mean temperature change of the fluid in one I ank 9 in the area of the sensor both for vertical cylindrical tanks and for horizontal tanks determine. By appropriate selection of the measuring liquid

ability 25, the ζ. B. diesel oil. DgL can be as well It is the formation of the ratio of the volume of the measuring liquid and the cross section of the measuring capillary possible to record very small temperature changes, which can be smaller than '/ κ »" C. With corresponding Training is also a mean temperature change with the precision thermometer 10 of the fuel in a tank 9 to be determined. In addition, the precision thermometer 10 is expandable because in connection with an accurate level measuring device with the precision thermometer 10, for example a tank leak test can be carried out.

Because of the simple structure of the precision thermometer 10, it can be easily adapted to different objects to be measured. Particularly when the measuring capillary 21 is to be replaced, it has proven to be advantageous if the measuring capillary 21 is not connected by means of sliding sleeves but by means of screw connections to the connecting piece 27 arranged on the three-way valve 18 and the capillary connecting piece 20 formed on the end face 16a of the expansion tank 16 It is also possible to connect the three-way valve 18 to the pipe sections 15a, \ 5b by means of screw connections. The measuring capillary consists of transparent material such. B. Glass.

1 sheet of drawings

Claims (2)

Patent claims: 1. Precision thermometer for measuring small temperature changes, consisting of a rod-shaped body, in the lower end section of which a chamber serving as a sensor for measuring liquid is formed, which is connected by means of a capillary-like tube to a compensating tank arranged at the upper end section of the rod-shaped body, characterized in that, that parallel to the expansion tank (16) provided with a filler neck (17) as a bypass (26) a measuring capillary (21) made of transparent material is formed, one end section of which is connected to the pipe (15) by means of a three-way valve (18) and the other end section is connected to a capillary stub (20) formed on the end face (i6a) of the expansion tank (16). 2. Precision thermometer according to claim 1, characterized in that the measuring capillary (21) by means of sliding sleeves (22, 23) with a connecting piece (27) arranged on the three-way valve (18) and the capillary nozzle (20) is connected. 2. Precision thermometer according to claim 1, characterized in that the measuring capillary (21) by means of screw connections with a connector (27) arranged on the three-way valve (18) and the Capillary nozzle (20) is connected.