Temperature control device of electric heater using thermo-sensitive resin and safety device thereof
First Claim
1. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
- a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR);
a sensing wire, disposed parallel to the heating wire;
a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature;
a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode,wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode;
a signal control unit, configured to generate an operation control signal to operate the SCR by receiving the temperature control signal of the temperature sensing unit and to delay the operation control signal; and
a power control unit, configured to turn the SCR on or off by receiving a signal of the signal control unit,wherein the signal control unit comprises;
a first signal unit transistor, configured to be operated by an output of the first comparator;
a delay node, connected to a first input terminal of a second comparator, the second comparator configured to output an “
on”
or “
off”
signal to the SCR;
a first signal unit resistor, connected between a collector of the first signal unit transistor and a direct current voltage source;
a second signal unit resistor, connected between the delay node and the collector of the first signal unit transistor; and
a second charging condenser, connected parallel between the delay node and the ground,whereas if the temperature control signal is a command signal to turn the SCR on, a voltage of the first input terminal of the second comparator is delayed for a duration of time, during which an electric current flowing from the direct current voltage source through the first signal unit resistor and the second signal unit resistor is charged into the second charging condenser, according to an operating signal of the first signal unit transistor.
1 Assignment
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Accused Products
Abstract
A temperature control device is disclosed that includes a heating wire being connected to an alternating current power source though a SCR, a sensing wire being disposed parallel to the heating wire, a thermo-sensitive resin insulating the heating wire and the sensing wire from each other and changing its impedance according to a change in temperature, and a temperature sensing unit outputting a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, in which the SCR is turned on or off by a sensing unit diode. The heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR.
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Citations
18 Claims
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1. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode; a signal control unit, configured to generate an operation control signal to operate the SCR by receiving the temperature control signal of the temperature sensing unit and to delay the operation control signal; and a power control unit, configured to turn the SCR on or off by receiving a signal of the signal control unit, wherein the signal control unit comprises; a first signal unit transistor, configured to be operated by an output of the first comparator; a delay node, connected to a first input terminal of a second comparator, the second comparator configured to output an “
on”
or “
off”
signal to the SCR;a first signal unit resistor, connected between a collector of the first signal unit transistor and a direct current voltage source; a second signal unit resistor, connected between the delay node and the collector of the first signal unit transistor; and a second charging condenser, connected parallel between the delay node and the ground, whereas if the temperature control signal is a command signal to turn the SCR on, a voltage of the first input terminal of the second comparator is delayed for a duration of time, during which an electric current flowing from the direct current voltage source through the first signal unit resistor and the second signal unit resistor is charged into the second charging condenser, according to an operating signal of the first signal unit transistor.
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2. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode; a signal control unit, configured to generate an operation control signal to operate the SCR by receiving the temperature control signal of the temperature sensing unit and to delay the operation control signal; and a power control unit, configured to turn the SCR on or off by receiving a signal of the signal control unit, wherein the signal control unit comprises; a first signal unit transistor, configured to be operated by an output of the first comparator; a delay node, connected to a first input terminal of a second comparator, the second comparator configured to output an “
on”
or “
off”
signal to the SCR;a first signal unit resistor, connected between a collector of the first signal unit transistor and a direct current voltage source; a second signal unit resistor, connected between the delay node and the collector of the first signal unit transistor; and a first signal unit diode, connected parallel with the second signal unit resistor, whereas if the temperature control signal is a command signal to turn the SCR off, the first signal unit transistor is turned on, and the voltage charged in the second charging condenser is discharged through the first signal unit diode so that the second comparator outputs a command signal to turn the SCR off.
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3. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode; a signal control unit, configured to generate an operation control signal to operate the SCR by receiving the temperature control signal of the temperature sensing unit and to delay the operation control signal; and a power control unit, configured to turn the SCR on or off by receiving a signal of the signal control unit, wherein the signal control unit comprises; a first signal unit transistor, configured to be operated by an output of a first comparator; a delay node, connected to a first input terminal of a second comparator, the second comparator configured to output an “
on”
or “
off”
signal to the SCR;a second control unit diode, connected between the voltage sensing node and a reference voltage input terminal of the second comparator; a first control unit resistor, connected between a second sensing terminal and the ground; and a second sensing unit resistor, connected between the direct current voltage source and the voltage sensing node, wherein if the sensing wire is broken, the voltage of the reference voltage input terminal of the second comparator is increased above a set reference voltage so that the second comparator outputs a command signal to turn the SCR off.
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4. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode; and an overheating protection unit, in which a circuit with a heating resistor serially connected to an overheating protection unit diode is connected parallel to the SCR such that a temperature fuse connected to a power source can be broken by heating the heating resistor caused by a current flown in the heating resistor when a short-circuit occurs between the heating wire and the sensing wire.
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5. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; and a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode, wherein a voltage sensing node is connected to a second power terminal of alternating current, to which ground is connected, through a first charging condenser and is configured to output a voltage to a first input terminal of a first comparator according to a change in temperature, wherein a first sensing unit diode and a first sensing unit resistor are connected in a direction opposite to a forward voltage of the SCR and serially interposed between the voltage sensing node and a first sensing terminal of the sensing wire, and the SCR is connected such that the direction of electric current flowing from a second heating terminal of the heating wire to the ground of the second power terminal becomes a forward direction in a half cycle of the alternating current, and wherein a first comparator is configured to output a temperature control signal to turn the SCR on or off by allowing a voltage of the voltage sensing node, which is charged into the first charging condenser by the sensing current, to be inputted into the first input terminal of the first comparator, whereas the heating current of the alternating current is configured to heat the heating wire by flowing through the first heating terminal→
the heating wire→
the second heating terminal→
the SCR→
the ground in the heating cycle, in which a forward voltage is formed in the SCR, and the sensing current reversely flows through the ground→
the first charging condenser→
the voltage sensing node→
the first sensing unit resistor→
the first sensing unit diode→
the first sensing terminal→
the thermo-sensitive insulation resin→
the first heating terminal→
the first power terminal in the sensing cycle, in which a reverse voltage is formed in the SCR.
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6. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode, wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode; and a sleep mode unit configured to switch a circuit such that in a normal mode, only the heating wire is used for a heating load, but in a sleep mode, both the heating wire and the sensing wire are serially connected to each other so that the heating wire and the sensing wire can be used for the heating load. - View Dependent Claims (7, 8)
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9. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a heating wire, connected to an alternating current power source though a silicon controlled rectifier (SCR); a sensing wire, disposed parallel to the heating wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; and a temperature sensing unit, configured to output a temperature control signal to turn the SCR on or off according to a change in electric current flowing through the thermo-sensitive resin, the SCR being turned on or off by a sensing unit diode; wherein the heating wire is heated by a heating current that flows in a heating cycle only, in which a forward voltage is formed in the SCR, by the SCR, and the sensing wire conducts a sensing current that flows in a sensing cycle only, in which a reverse voltage is formed in the SCR, by the sensing unit diode, wherein each one end part of the heating wire and the sensing wire is connected to the alternating current power source, and the other end parts of the heating wire and the sensing wire are connected to each other through a connection unit diode, wherein, in the heating cycle, in which the forward voltage is formed in the connection unit diode and the SCR, a positive (+) side half-wave current of the alternating current power source flows through the heating wire, the connection unit diode and the sensing wire so as to heat the heating wire and the sensing wire so that an external magnetic field is offset by the current flowing in opposite directions, and wherein, in the sensing cycle, in which the reverse voltage is formed in the connection unit diode and the SCR so that the electric current cannot flow through the heating wire and the sensing wire by the connection unit diode and the SCR, a negative (−
) side half-wave current of the alternating current power source flows through the thermo-sensitive insulation resin so that the temperature sensing unit senses a change in electric current of the negative (−
) side half-wave current flowing through the thermo-sensitive insulation resin and then generates a command signal to turn the SCR on or off. - View Dependent Claims (10, 11, 12, 13)
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14. A temperature control device of an electric heater using a thermo-sensitive insulation resin, the temperature control device comprising:
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a first heating terminal and a second heating terminal, respectively installed on either end of a heating wire; a sensing wire, disposed parallel to the heating wire, a first sensing terminal and a second sensing terminal respectively being connected to either end of the sensing wire; a thermo-sensitive resin, configured to insulate the heating wire and the sensing wire from each other and change its impedance according to a change in temperature; a silicon controlled rectifier (SCR), connected between one of the first and second heating terminals and an alternating current power source; a voltage sensing node, connected from ground through a first charging condenser to output a voltage to a first input terminal of a first comparator according to a change in temperature, the ground being connected to a second power terminal; a first sensing unit diode and a first sensing unit resistor, serially interposed between the voltage sensing node and the first sensing terminal and connected in a direction opposite to a forward voltage of the SCR; and a temperature sensing unit, configured to output a temperature control signal controlling the SCR to be turned on or off by the first comparator (U1), wherein the SCR is connected in a forward direction through the heating wire during each half cycle of the alternating current, the forward direction being a direction in which an electric current of the alternating current power source flows to the ground of the second power terminal, and the heating wire is heated by the electric current flowing through the first heating terminal→
the heating wire→
the second heating terminal→
the SCR→
the ground in a heating cycle, the heating cycle being a cycle in which a forward voltage is formed in the SCR,and wherein a voltage of the voltage sensing node is inputted into the first input terminal of the first comparator, the voltage of the voltage sensing node being charged into the first charging condenser by a sensing current that reversely flows in a sensing cycle through the ground→
the first charging condenser→
the voltage sensing node→
the first sensing unit resistor→
the first sensing unit diode→
the first sensing terminal→
the thermo-sensitive insulation resin→
the first heating terminal→
a first power terminal, the sensing cycle being a cycle in which a reverse voltage is formed in the SCR. - View Dependent Claims (15, 16, 17, 18)
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Specification