DE1920778A1 - Remote adjustable temperature controller - Google Patents

Description

"Remotely adjustable temperature controller" The invention relates to a remotely adjustable temperature controller Temperature controller, its setpoint adjustment via a control line with the help a control voltage or a control current is adjustable.

Such a remotely adjustable temperature controller is, for example used in automatic charge control for electrical heat storage heaters. In the case of the known controller, an electrically heated one is used to adjust the setpoint Bimetal used. Such a bimetal is relatively inexpensive, it has the disadvantage, however, that a certain, still relatively large, value for the control Heat output can hardly be undercut.

The invention aims to reduce the control power and to increase the reliability of the controller.

According to the invention this is achieved in that a Inert gas contact is used, which is either one of the Sbeuersspannung or the Control current dependent electromagnetic field as well as one on the temperature dependent magnetic field. The temperature-dependent magnetic field can be generated by a permanent magnet, the spatial by a temperature sensor is movable.

But it can also be powered by a thermocouple Coil surrounding the inert gas contact can be generated. The magnetic influence of the spatially adjustable permanent magnet on the protective gas contact is activated by suitable Shaping of pole pieces of the permanent magnet on the required relationship to the Adjusted the temperature of the sensor tube. As a control voltage, if a galvanic Isolation is geannscht, an alternating voltage can be used, with rectifiers The conversion into the required DC voltage takes place at each temperature controller.

The invention is based on two exemplary embodiments with the aid of the drawing explained in more detail.

Fig. 1 shows a temperature controller with a temperature dependent movable permanent magnetic field, while in Fig. 2 a working with a thermocouple Regulator-is shown.

In the arrangement as shown in FIG. 1, a protective gas contact 1 is in series with a charging contactor 2, which the charging circuit of a storage furnace, not shown switches. The inert gas contact is closed in the rest position. Inert gas contact and charging contactor are connected to a voltage source (not shown).

The protective gas contact know via a relay winding 3 or with a Rotary solenoids 4 are operated. However, the operation can also be achieved through cooperation the excitation winding and the rotary magnet.

In this case, both effects must add up.

The rotary magnet is attached to an axis 7 and can with the help a thermocouple can be adjusted.

The thermal sensor is pushed into the storage heater and exists from a sensing tube 9 with a relatively high coefficient of thermal expansion and a temperature dependent transmission wire 10 connected to the axis 7 firmly connected lever 8 engages.

On the other arm of the lever E, a tension spring 11 acts as a Return spring is used. The rotary magnet 4 is at its pole ends with pole pieces 5 and 6 provided, which have such a shape that one of the rotation of the magnet proportional magnetic effect on the inert gas contact is achieved. the Relay winding is on a control line 12, which is connected to the outside temperature proportional voltage is applied.

The relay winding 3 is therefore practical at low outside temperatures not aroused. At higher outside temperatures, however, the excitation can become so strong that that contact 1 is opened.

In the position shown, the inert gas contact 1 is closed, that is, the hot storage furnace (not shown) is heated. That in the heat storage heater a pushed sensor tube 9 expands, so that the displacement of the right End of the pipe a pivoting of the lever 8 in the direction of the arrow causes. The rotary magnet 4 is adjusted accordingly and depending on the setting a more or less large magnetic component is effective on the inert gas contact will. The effects of the relay coil 3 and the magnet 4 add up and that The magnetic field generated by the relay coil and magnet 4 opens at a certain size Inert gas contact. When the heat storage heater cools down, the magnet is activated by the Tension spring 11 turned back.

Fig. 2 shows an embodiment without moving parts. In place of the Sensing tube is a thermocouple with a hot contact point 13 and a cold contact point 14 stepped. The contact point 13 with the feed rods is inserted into the storage heater, not shown. The thermal current flows Via a winding 12 that surrounds the protective gas contact and generates the core temperature magnetic field proportional to the furnace. The magnetic excitation of the inert gas contact is composed of the effects of winding 12 and winding 3.

The temperature controller according to the invention is particularly advantageous because the required control power can be reduced, the application of Inert gas contacts increase the reliability of the temperature controller. The influencing the inert gas contact through a magnet can also be done in any other way take place. The magnet can, for example, be more or less the protective gas contact to be approached.

5 pages description 6 patent claims 2 sheets of drawings with 2 Fig.

Claims (6)

Patent claims: 1. Remote adjustable temperature controller, its setpoint adjustment via a control line with the aid of a control voltage or a control current is adjustable, characterized by a protective gas contact (1) as a regulator contact, the one dependent on the control voltage or the control current electromagnetic Field as well as a temperature-dependent magnetic field. 2. Remotely adjustable temperature controller according to claim 1, characterized in that that the temperature-dependent magnetic field is generated by a permanent magnet (4) which is displaceable by a temperature sensor (9, 10). 3. Remote adjustable temperature controller according to claim 1, characterized in that that the temperature dependent magnetic field in one of one Thermocouple-fed coil is generated. 4. Remote adjustable temperature regulator according to claim 1 and 2, characterized characterized in that the magnetic influence of the spatially adjustable permanent magnet (4) on the inert gas contact (1) by appropriately shaping pole pieces (5, (;) adjusted to the required relationship to the temperature of the sensor tube (9) will. 5. Remote adjustable temperature controller according to claim 1 and 3, characterized characterized in that the coil connected to the Tnermoelement is the protective gas contact surrounds. 6. Remote adjustable temperature controller according to claim 1 and 2, characterized characterized in that an alternating voltage is used as the control voltage and with Rectifiers on each temperature controller convert it into the required DC voltage he follows.