DE661633C - Temperature meter - Google Patents

Description

Temperature meter The invention is based on a temperature meter, in which the electrical resistance of a number in, a sleeve arranged one behind the other Limbs due to the effects of the thermal expansion of a body on these limbs Pressure is changed and in which the change in resistance in an electrical Circuit-induced change in current strength forms a measure of the temperature.

In the case of the known temperature meters of this type, two have been hitherto Uses limbs that expand as the temperature rises and as the temperature falls contracted according to the temperature. The effect of such a device depends on the differential expansion between the two members. As soon as now one of these members has a slightly different coefficient of expansion than the other, the measurements became inaccurate at different temperatures. This after-ax will solved by the present invention. It consists in the fact that with a temperature meter, As described at the outset, the sleeve to be used from a Material with a positive coefficient of thermal expansion consists and in a half is arranged with the coefficient of thermal expansion zero.

Compared to the known arrangements, this device has the advantage that the change in the pressure exerted on the resistor is solely due to thermal expansion This sleeve takes place and thus the measurements are accurate at all temperatures.

The present invention is further developed in that the Resistance column between a plug at the free end of the expansion sleeve and an adjustable contact is arranged which is resistant to temperature fluctuations behaves neutrally.

Furthermore, according to the invention, the expansion sleeve is screwed into its holder, and one of the terminals forms the extension of the resistance column supporting contact member.

The invention is shown in the drawing, for example, and although Fig. i shows a longitudinal section through the temperature meter according to the invention, namely in use with a furnace.

Fig. A schematically shows the electrical connections with the in a furnace built-in temperature meter.

With i o a sleeve is referred to, which has suitable dimensions and has a circular cross-section. This sleeve is mounted in a body z i. The sleeve i o is made of metal, which has a positive coefficient of expansion Has. The sleeve is tightly closed at one end by a plug i z while the sleeve is built into the holder at the other end. This holder exists made of a material with the coefficient of thermal expansion N u11. It is provided with a closure 13 through which the adjustable contact member 14 through--. is led, which is also against temperature fluctuations behaves neutrally. Egg; Number of carbon members 15 are within -the; Sleeve io between the plug 12 and d> em; Contact member 14 arranged. The carbon members 15 are opposite the sides, # vandungen the sleeve io z. B. isolated by micanite 16.

The removable closure 13 is also made of neutral against temperature fluctuations Material and is in the halves i i through. Thread unscrewed so that a final pressure on the coal column 15 by means of the closure piece B of a collar 18 and this contact member 14 can be exercised. An insulation bushing 19 and one made of insulating material b @ estehender Collars 2o are provided to isolate the contact member 14 and around the links 15 to be hermetically sealed to the outside during use. Suitable clamps 23, 24 are arranged in the contact member 14, while a clamp 25 on the body i i is provided. In this way, the temperature meter can be used with a suitable Electricity source 26 are connected. There are also lightings provided, z. B. a voltmeter 27 and a rheostat 28 to maintain a constant voltage, if a temperature indicated by the temperature meter is to be read off.

If the sleeve i o is made of metal, then the sleeve itself is used as a conductor used to carry the current from the contact piece 12 to the terminal 25. Is the sleeve but from a non-body, e.g. B. silica, then a suitable one Line provided through which the current from the contact piece 12 to the terminal 25 to be led.

A suitable electrical indicating instrument, e.g. B. a galvanometer 29, is arranged, the scale of which is preferably divided into temperature degrees in order to to be able to read the temperature displayed by the temperature meter immediately. Suitable lines are provided to form a circuit in which .the electricity source 26, the carbon column 15 and the GalvanOmetCr 29 are located, while a switch 3 o is arranged to selectively open this circuit , or to close.

The mode of operation of the temperature meter is as follows: As soon as the Temperature in a heating chamber 17 increases, in which z. B. the temperature meter is located, then the sleeve expands i o. This puts the ultimate pressure on the column of coal 15 decreases and the electrical resistance increases.

s =. This increase in electrical resistance (1) causes a decrease in the current flowing through the circuit and causing a corresponding movement of the pointer of the galvanometer 29, which in this way shows the temperature directly. A decrease in the temperature in the heating chamber 17 causes contraction the sleeve i o. The final pressure on the column of coal 15 is increased. This sinks the resistance of the circuit. A stronger current flows through the circuit, and the drop in temperature in chamber 17 is monitored directly by the galvanometer 29 displayed.

A column of carbon 15 can also be used within the sleeve find where the metal links alternate with the carbon links 15. Instead of this Construction, these links can also consist entirely of metal plates between the contact pieces 12 and 14 are arranged.

Claims (3)

PATENT CLAIMS: i. Temperature meter for which the @electrical resistance a number in a sleeve arranged one behind the other members by the as a result the thermal expansion of a body is changed by the pressure exerted on the limbs and that caused by this change in resistance in your electrical circuit The change in current intensity is a measure of the temperature, characterized in that that the sleeve (i o) made of a material with a positive coefficient of thermal expansion and arranged in a holder (i i) with a coefficient of thermal expansion of zero is. 2. Temperature meter according to claim-i, characterized in that the resistance column (15) between a plug (12) at the free end of the expansion sleeve (i o) and an adjustable contact (14) is arranged which is resistant to temperature fluctuations behaves neutrally. 3. Temperature meter according to claim i, characterized in that the expansion sleeve (i o) is screwed into its halves (i I) and one of the terminals the extension of the contact member supported against the resistance column (14) is.