DE2515295C3 - Device for measuring the temperature of a granular or pasty mix - Google Patents

Description

The invention pelts a device for measuring the temperature of a körnipen OOE ^r pasty material to be mixed during mixing in a vessel equipped with mixing shafts forced mixer or kneader with one or more thermocouples and slip rings to the decrease of the measuring signal.

For mixing of granular or viscous plastic masses compulsory mixers or kneaders are with one Trough-shaped space for receiving the material to be mixed and shovel-like space on one or more mixing shafts arranged mixing tools known, wherein the shafts are mounted outside of the mixer trough. To the There are devices on the walls of the mixer trough for heating the material to be mixed, such as steam pipes and chambers arranged for heating fluids or electrical heating elements because of the poor heat transfer between the trough walls and the mix are operated with a considerable excess temperature, so that the temperature of the trough walls is unsuitable as a measurable variable for determining the temperature of the mix is. It is used to measure the mix temperature known as temperature sensors sheathed thermocouples through holes in the trough walls in the To introduce mixing room. In particular, temperature sensors arranged in the area of the trough walls cover one another when mixing pasty masses relatively quickly with a heat exchange with crust affecting the mix. In addition to the crust formation, the measurement is also carried out by the the heat flow emanating from the heating surfaces is falsified, so that with a temperature sensor close to the wall Determined temperature from the one immersed in the mix after the mixer was shut down The true mix temperature measured by the thermocouple deviates considerably, whereby the amount of Temperature differences in time and place is not constant. For less temperature-sensitive mixes such temperature differences are generally without adverse effects for temperature-sensitive persons Mixtures, for example components with a high or low vapor pressure Containing decomposition temperature, however, causes a critical mix temperature to be exceeded a deterioration in the quality of the goods, which could result in further processing or the use of the Mixture can be made difficult or even impossible. Arranged in the wall area of the mixing trough For the reasons mentioned, temperature sensors are also not suitable, for example for a given one Heating program to deliver control signals regulating the output of the heating devices.

It is known e.g. B. by the DT-OS 23 57 409, the Inside temperature of rotary kiln with thermocouples to measure, which protrude from the furnace shell into the interior of the furnace. The thermal voltage is thereby over special Slip rings assigned to the elements are tapped. In trough mixers leads because of the low thermal conductivity the more or less relaxed Gernisch and the poor heat transfer in the front Jacket or heat flow emanating from the walls of the mixing trough leads to an error in the temperature measurement. Because with this type of arrangement in compulsory mixers, the sensors are exposed to considerable forces are, the protective sheaths must be made correspondingly massive, whereby the measurement error additionally is enlarged.

The invention is based on the object of avoiding the disadvantages of the known temperature sensors and the difference between the actual mix temperature and the one in the mix immersing temperature sensor to continuously reduce measured temperatures in such a way that Damage to the mix quality excluded and a temperature control appropriate to the mix the heating devices become possible.

To achieve the object, a device of the type mentioned is proposed which at least a jacketed one protruding into the turbulent zone of the mixing chamber and into a recess in the mixing shaft Includes engaging thermocouple and arranged on the stub shaft outside of the mixer trough Slip rings for acceptance and a transducer to amplify the measuring signal and measuring cable between Thermocouples and transducers, which are at least one between the recess and the stub shaft extending bore of the mixing shaft are performed.

The jacket surrounding the thermocouple is preferably knife-shaped and after a Another preferred embodiment is the gap-shaped space between the thermocouple and the jacket filled with a substance having a high thermal conductivity.

The mixing shaft is used to accommodate the thermocouple, which is expediently arranged normal to the mixing shaft provided with a special recess in which the element together with the protective jacket is inserted and positively connected to the shaft by screws, wedge or conical connections, the connection optionally provided with an additional seal being the recess shields against the ingress of mix. If mixing tools are arranged on the mixing shafts, this can be done Thermocouple expediently instead of a mixing tool in the designated hole cder together with the mixing tool, the shaft of which with a

Provided bore for receiving the thermocouple extending radially from the shaft into the mixing chamber is to be introduced. In the latter case, the shaft serves as a jacket for the thermocouple. The length of the Thermocouple is appropriately sized so that the measuring point to achieve a favorable Heat transfer protrudes into the area with the greatest mix turbulence. Due to the turbulent flow it also prevents the mix from sticking to the jacket. The mixing shaft is equipped with one or more provided axial bores extending from the thermocouple or recesses to the Wellensiumpf extend outside of the mixer trough and through which the thermocouple with the on the Shaft stub arranged slip rings connecting measuring cables are guided. For the measurements it is It is advantageous to amplify the measuring signal before the decrease and for this purpose on the shaft stub to arrange a transmitter whose auxiliary voltage is also supplied via slip rings.

The jacket serving to protect the thermocouple is preferably knife-shaped, with the greatest width extends in the direction of rotation: Such a shape creates a small section modulus achieved with a relatively large heat-exchanging surface To improve the heat transfer it is also an advantage to fill the space between the jacket and the thermocouple with a high thermal conductivity material, e.g. B. with a metal powder to fill.

A major advantage of the device according to the invention is the avoidance of temperature measurement falsifying incrustations of the measuring sensor, as deposits are formed in the turbulent mixed material zone are always sheared off the shell by the stream of mix. The constant circulation of the mix also ensures good heat transfer, so that temperature changes practically without time delay can be measured correctly and the measurement signals used to control the heating device can be.

The invention is explained below using a drawing as an example:

In the drawing, 1 is a mixer trough with heating devices 2, a mixing shaft 3 and the drive 4. The mixing shaft 3 is provided with mixing tools 5 and a recess 6 into which the thermocouple 7 engages with the jacket R and through the conical connection 9 with the mixing shaft 3 are connected. From the recess 6, the axial bore 10 extends to the shaft stub 11 on which the measuring transducer Yl and the grinding pnge 13 and 14 are arranged. Through the bore 10 measuring cables 15 are led from the thermocouple 7 to the transducer 12 The slip rings 13 are used to supply tiner auxiliary voltage for the transducer, the amplified measurement signal is taken from the slip rings 14 and via program controller or the like, not shown in the drawing, a device for controlling the Heating power supplied

1 sheet of drawings

Claims (3)

Patent claims: 1. Device for measuring the temperature of a granular or pasty mix during S the mixing process in a compulsory mixer or kneader with a mixer shaft or several thermocouples and slip rings for picking up the measurement signal, characterized in that, that at least one jacketed thermocouple protruding into the turbulent zone of the mixing chamber in a recess of the Mixing shaft engages, slip rings for acceptance on the shaft stub outside the mixer trough and a transducer for amplifying the measuring signal! 5 gnals are arranged and measuring cables between thermocouples and transducers in at least an axial bore of the mixed shaft extending between the recess and the stub shaft are led. μ 2. Device according to claim 1, characterized in that that the jacket surrounding the thermocouple is knife-shaped. 3. Device according to one of the preceding claims, characterized in that the space between the jacket and the thermocouple with a substance that has a high thermal conductivity is filled.