RU2007129727A - TEMPERATURE REGULATOR, METHOD OF TEMPERATURE REGULATION AND USED HEATING WIRE - Google Patents

Claims (34)

1. A temperature controller that does not emit electromagnetic waves for a heating cable, comprising: a temperature control unit connected to the heating cable, which includes the first and second electric heating wires arranged in parallel, and a negative temperature coefficient (NTC) thermistor, used to compare the voltage of the temperature signal generated by the first electric heating wire with the reference voltage , and generating a temperature control signal; and controlled rectifier unit, designed to return the heating current from the end of the second electric heating wire connected to the power source, through the second and first ends of the first electric heating wire to the side of the power source, which is carried out while providing conductivity under the action of the control signal of the temperature control unit, moreover, the state of absence of the magnetic field of the electric heating wires is realized by compensating for oppositely directed magnetic fields during temperature and heating measurements. 2. A temperature controller that does not emit electromagnetic waves according to claim 1, further comprising a temperature signal voltage control unit for adjusting a temperature measurement voltage that is applied to the first end of the first electric heating wire. 3. The temperature controller that does not emit electromagnetic waves, according to claim 2, in which the temperature control unit contains: a reference voltage generation unit for generating a reference voltage; a comparison and measurement unit for comparing the voltage of the temperature signal with the reference voltage and generating an excitation signal, carried out in the case when the voltage of the temperature signal exceeds the reference voltage; a delay block for unlocking signals configured to start with the excitation signal of the comparison unit and designed to delay the unlock signal for a predetermined time; and an output unit for unlocking signals for generating unlocking signals after a time by which the delaying unit of the unlocking signal delays the unlocking signal. 4. The temperature controller that does not emit electromagnetic waves according to claim 2, in which the controlled rectifier unit comprises a reversible heating current rectifier connected between the second end of the first electric heating wire and the second electric heating wire. 5. The temperature controller, not emitting electromagnetic waves, according to claim 4, in which the controlled rectifier unit is placed so that its anode is connected to the first end of the first electric heating wire parallel to the voltage signal voltage regulation unit, and the cathode is connected to a power source, and further contains a controlled rectifier, unlocked by the control signal of the temperature control unit. 6. A temperature controller that does not emit electromagnetic waves, according to claim 2, in which the voltage signal voltage control unit comprises: a resistor whose first end is connected to a power source; and a variable resistor for adjusting the temperature measurement voltage connected between the second end of the resistor and the first end of the first electric heating wire. 7. A temperature controller that does not emit electromagnetic waves, according to claim 2, in which the voltage signal voltage control unit comprises: the first and second resistors connected in series with one another; and a variable resistor connected between the first resistor and the second resistor; as well as a third resistor, the first end of which is connected to a power source, and the second end to a movable contact of a variable resistor; moreover, the first end of the first resistor is connected to the first electric heating wire, the first end of the second resistor is connected to the second electric heating wire on the same side, and the input impedance is matched by fitting the resistance of the variable resistor. 8. A temperature controller that does not emit electromagnetic waves, according to any one of claims 2 to 4, in which the temperature control unit and the control electrode of the controlled rectifier are connected to each other by means of an optocoupler silicon controlled rectifier (SCR). 9. The temperature controller that does not emit electromagnetic waves, according to claim 2, in which the temperature control unit contains: a discharge resistor connected in series with the control electrode of a controlled rectifier; a rectifier diode connected in series with a discharge resistor; a capacitor connected in parallel between the resistor in the bias circuit of the control electrode and the rectifier diode; comparison zener diode; input current limiting resistor of the control electrode; SCR, in which the anode is connected to the capacitor, and the control electrode is connected to the input current limiting resistor of the control electrode; a resistor in the bias circuit of the SCR control electrode, connected in parallel with the input current limiting resistor of the control electrode and the SCR control electrode; and charge current limiting resistor connected in parallel between the SCR anode and capacitor. 10. A temperature controller that does not emit electromagnetic waves, according to claim 9, in which: the control electrode of the controlled rectifier is isolated using an optocoupler SCR; on the side of the light-emitting element, the optronic SCR is connected in series with the discharge resistor, and on the photodetector side, the optic SCR is connected between the control electrode and the anode of the controlled rectifier in series with the gate resistor. 11. The temperature controller that does not emit electromagnetic waves, according to claim 1 or 2, additionally containing a device for protection against reverse overcurrent, which contains: a first diode connected in parallel with the first electric heating wire in a direction opposite to the direction of the heating current; a zener diode connected in parallel with the reversing rectifier of the heating current; and a second diode connected in parallel with the second electric heating wire in a direction opposite to the direction of the heating current; moreover, in the case of overcurrent generation as a result of a short circuit of the controlled rectifier, the reverse overcurrent protection device opens the fuse. 12. A temperature controller that does not emit electromagnetic waves, according to claim 1 or 2, further comprising: a ground light indicator connected to a first end of a second electric heating wire that is grounded; and a visual inspection point for preventing the generation of a surface electric field of the electric heating wire by setting the earth light indicator to the off position. 13. A method of controlling temperature without emitting electromagnetic waves for a heating cable, comprising: a temperature measuring step of measuring a voltage of a temperature signal generated from a second end of a first electric heating wire opposite to a first end of a heating cable connected to a power source; the step of temperature control, which consists in generating a control signal, carried out in the case when the generated voltage of the temperature signal exceeds the reference voltage; and the heating step, which consists in allowing current to flow from the first end of the second electric heating wire, which is connected to the power source, through the first and second ends of the first electric heating wire in the direction of the power source. 14. The method of temperature control without emitting electromagnetic waves according to item 13, further comprising the step of regulating the voltage of the temperature measurement applied to the first end of the first electric heating wire. 15. The method of regulating temperature without emitting electromagnetic waves according to item 13, in which the step of regulating temperature includes the steps of: reference voltage generation; comparing the voltage of the temperature signal with the reference voltage and generating an excitation signal, carried out in the case when the voltage of the temperature signal exceeds the reference voltage; delaying the unlocking signal for a certain delay time, carried out under the influence of the excitation signal; and generating a trigger signal after a delay time. 16. A heating cable with a temperature measurement that does not emit electromagnetic waves, containing: a first electric heating layer connected to one end of the power source; a thermistor layer deposited around the first electric heating layer; a second electric heating layer wound around the circumference of the thermistor layer and connected from the side of its first end to the second end of the power source; and an insulating layer designed to insulate the thermistor layer and the second electric heating layer and surrounding these layers from the outside. 17. A heating cable with temperature measurement that does not emit electromagnetic waves, according to clause 16, in which the first electric heating layer contains: core core passing through the central part of the first electric heating layer; and an electric heating wire wound in a spiral around the circumferential surface of the core core and connected to one of the ends of the power source, the conductivity being provided through this electric heating wire. 18. A temperature measuring heating cable that does not emit electromagnetic waves according to claim 17, further comprising a conductive coating layer interposed between the second electric heating layer and the insulating layer as a result of applying this second electric heating layer to and around the circumferential surface. 19. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 17 or 18, wherein the second electric heating layer comprises: metal film; moreover, this metal film is wound in a spiral around the circumferential surface of the thermistor layer. 20. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 17 or 18, wherein the second electric heating layer comprises: metal shielding element; moreover, this metal shielding element is made around the circumferential surface of the thermistor layer. 21. The heating cable with a temperature measurement that does not emit electromagnetic waves, according to clause 16, in which the first electric heating layer contains an electric heating conductor, the first end of which is connected to one end of the power source. 22. The temperature-sensitive heating cable, which does not emit electromagnetic waves, according to claim 21, further comprising a conductive coating layer interposed between the second electric heating layer and the insulating layer as a result of applying this second electric heating layer to and around the circumferential surface. 23. A heating cable with a temperature measurement that does not emit electromagnetic waves, according to item 21 or 22, in which the second electric heating layer contains: metal film; moreover, this metal film is wound in a spiral around the circumferential surface of the thermistor layer. 24. A heating cable with a temperature measurement that does not emit electromagnetic waves, according to item 21 or 22, in which the second electric heating layer contains: metal shielding element; moreover, this metal shielding element is made around the circumferential surface of the thermistor layer. 25. A heating cable with temperature measurement, not emitting electromagnetic waves, containing: a first electric heating layer connected to one end of the power source; a thermistor layer deposited around the first electric heating layer; a second electric heating layer wound around the circumference of the thermistor layer and connected from the side of its first end to the second end of the power source; and a conductive coating layer for insulating the thermistor layer and the second electric heating layer and surrounding these layers from the outside. 26. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 25, wherein the conductive coating layer is made of conductive synthetic material and completely surrounds the thermistor layer and the second electric heating layer so that the thermistor layer and the second electric heating layer do not exit to the outer surface. 27. A heating cable with temperature measurement, not emitting electromagnetic waves, according to claim 25, wherein the first electric heating layer comprises: core core passing through the central part of the first electric heating layer; and an electric heating wire wound in a spiral around the circumferential surface of the core core and connected to one of the ends of the power source, the conductivity being provided through this electric heating wire. 28. A heating cable with a temperature measurement that does not emit electromagnetic waves, according to claim 25, wherein the first electric heating layer comprises an electric heating conductor, the first end of which is connected to one end of the power source. 29. A heating cable with temperature measurement, not emitting electromagnetic waves, according to item 27 or 28, in which the second electric heating layer contains: metal film; moreover, this metal film is wound in a spiral around the circumferential surface of the thermistor layer. 30. A heating cable with a temperature measurement that does not emit electromagnetic waves, according to item 27 or 28, in which the second electric heating layer contains: metal shielding element; moreover, this metal shielding element is made around the circumferential surface of the thermistor layer. 31. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 17, further comprising a first unidirectional rectifier, the second end of the electric heating wire of the first electric heating layer being connected to this first unidirectional rectifier and thus provides voltage generation from the second end electric heating wire. 32. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 21, further comprising a first unidirectional rectifier, the second end of the electric heating conductor of the first electric heating layer being connected to this first unidirectional rectifier and thus provides voltage generation from the second end electric heating conductor. 33. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 27, further comprising a first unidirectional rectifier, the second end of the electric heating wire of the first electric heating layer being connected to this first unidirectional rectifier and thus provides voltage generation from the second end electric heating wire. 34. A heating cable with a temperature measurement that does not emit electromagnetic waves according to claim 28, further comprising a first unidirectional rectifier, the second end of the electric heating conductor of the first electric heating layer being connected to this first unidirectional rectifier and thus provides voltage generation from the second end electric heating conductor.