CS231317B1 - Connection of regulator of input pover of load according to valuve of its resistence - Google Patents

Abstract

The power regulator wiring is established for electrothermal equipment. Power Sien it is equipped with a mains supply and further equipped with first power Siena, which is connected to the load via the load transformer primary winding and an over-reel with the end of the primary winding transformer. Second power terminal The Siene is then connected to the center of the primary transformer windings. Secondary output the transformer winding is a conversion input the output of which is the power input Siena.

Description

The invention relates to the connection of a load power regulator according to its resistivity and to a method of controlling the amount of electrical power of the load in a manner which ensures that the load resistance is equal to the setpoint and thus assuming a clear relationship between the load resistance and its temperature. value.

The power input is controlled by closed-loop control circuits, which also require a sensor of a controlled value, sensor signal processing circuits and a setpoint source to operate. In the case of temperature control, a control device such as a thermocouple, thermostat or compensation box is required to stabilize the junction end of the thermocouple, an amplifier amplifying useful DC voltage and effectively suppressing interference, and an adjustable voltage normal.

This situation greatly simplifies the connection of the load power regulator according to the size of its resistor according to the invention, wherein the power member equipped with the power supply is further provided with a first power member terminal which is connected via load to the start of the primary transformer winding. The second power member terminal is then connected to the center of the transformer primary winding. The transformer secondary winding output is the input of the converter whose output is the input of the power element.

The converter is equipped with a reference input, which is connected to the mains lead, in case the load is connected to the mains in the positive and negative halfwaves of the power supply.

The advantage of the controller according to the invention is its simplicity, since the sensor and the circuits for processing its signal are completely omitted from the control circuit, since the sensor itself is the load itself. The liquid setpoint source is replaced by a single resistor. From the point of view of the control process, the minimum time constant of the temperature sensor thus credited is very advantageous.

In the accompanying drawing, a schematic representation of a controller according to the invention for a furnace control, wherein the power member 1 is equipped with one thyristor and its phase control circuit, the input of which forms the input 15 of the power member 6, is schematically illustrated. The power supply line 2 is single-phase, its neutral conductor in the power member 1 is directly connected to the first terminal 2 of the power member 6, the phase conductor of the mains supply 2 3 * ^{3 is} connected by the second power member terminal 6 of the thyristor.

and

The first terminal 2 of the power member 6 is connected via a load 1 to the start of the primary winding 2 of the transformer. 10. Load 2 3a platinum winding of laboratory furnace. To achieve the full power of the furnace it is sufficient to supply it with a one-way rectified force voltage. The first terminal of the power element 6 is connected by a resistor 2 to the end of the primary winding g of the transformer

10. Resistor g has the character of adjustable resistor normal. The center of the primary winding 2 of the transformer 12 is connected to the second terminal 6 of the power member 6. Transformer 62 is a current differential transformer. The outlets of its secondary winding are the output of the transformer, which is connected to the input of the converter. In the exemplary embodiment described, transducer 12 is a cascade wiring of a one-way peak rectifier and integrator. The output £ of the converter £ 2 is then coupled to the input 2 2 of the power member £.

11 it is necessary to load 2 connected to the network in the positive and negative půlvlnách supply voltage, the converter 12 must be provided with a reference input 16 would be connected with power supply 2 ³ must be sensitive to the phase of the mains voltage.

In the exemplary embodiment of the controller according to the invention, the power element 6 also applies to the load 2 voltage pulses corresponding to the nominal voltage of the load. At the exit 11 trans- I formatter IQ appears pulses whose polarity and velikoet corresponds to the difference between the actual la desired load resistance 2 · If the size of the load resistance 2 indicates a lower temperature and load size 2> ® ^not what is requested, the value of the voltage on output £ £ converter £ 2 ·>

at rest level. The first time the setpoint is exceeded causes the polarity of the inductive pulses to change

23) 317 output at ifit transformer ii. The output i of the converter i £ appears different from the original quiescent value and the thyristor phase controls in the power Si and the change in the opening angle of the thyristor will reduce the power consumption of the load.

Various alternative solutions of load power regulators according to the magnitude of its resistance according to the invention are possible, the detailed arrangement of which depends on the use of the type of power Si i.

An example of a practical embodiment is the implementation of a controller according to the invention, whose power Si i performs phase control of the power input of the load according to the DC voltage applied to the input 15 of the power Si i.

The load regulator according to its resistance according to the invention can be used with all the above mentioned advantages in all electrothermal adjustments in which it is expedient to control the temperature of the heating element.

Claims (2)

SUBJECT OF THE INVENTION Wiring of a load power regulator according to the size of its resistance formed by a power conductor, a transformer and a converter, characterized in that the power Sien (1) provided with a power supply (2) has its first terminal (3) connected via the load (5) (7) the transformer primary winding (10) and through the resistor (6) with the transformer primary winding (10) end (8) and its second terminal (4) the power strand (1) is connected to the transformer primary winding (9) center (9) ), whose output (II) is connected to the input (13) of the converter 02), whose output (14) is connected to the input 05) of the power Si0). 2. The connection according to claim 1, characterized in that the reference input (16) of the converter (12) is connected to the power supply (2) of the power main (1).