HEATING STRUCTURE AND METHOD FOR PREVENTING THE OVERHEAT OF HEATING LINE
First Claim
1. A heating structure for preventing the overheat of a heating line, comprising:
- a heating line, including a heating wire, a sensing line, an insulation-and-meltable layer located between the heating wire and the sensing line, and a cladding layer covering the outer peripheries of the sensing line and the insulation-and-meltable layer;
an over-current protection element, respectively connected to a first end of the heating wire and an alternating current power'"'"'s first polarity, where a first node is provided between the first end of the heating wire and the over-current protection element, and the sensing line'"'"'s first end is coupled to the first node;
a switch, respectively connected to a second end of the heating wire and a second polarity of the alternating current power;
a trigger circuit, connected with the switch and used for triggering the switch to be in conduction condition; and
a processor, connected with the trigger circuit and used for controlling the switch to be in conducting state, where the processor is connected with a second end of the sensing line, so that the processor is able to control the trigger circuit to let the alternating current in a half-wave form pass through the heating wire under normal condition;
when abnormal signals are detected, the processor is able to let the alternating current pass through the heating wire in a full-wave form in order to increase the current and disconnect the over-current protection element to stop the heating.
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Accused Products
Abstract
A heating structure and method for preventing overheat of a heating line, where the heating line includes a sensing line and a heating wire in parallel connection. The sensing line has one end connected with a processor. The heating wire has one end connected sequentially with an over-current protection element and an alternating current power'"'"'s one polarity and has another end connected sequentially with a switch and the alternating current power'"'"'s another polarity. The processor controls the trigger circuit to trigger the switch to be in conducting condition. Thereby, under normal condition, the heating of the heating wire is in half-wave form. When abnormal signals from the sensing line are detected by the processor, the switch is controlled to let the alternating current pass through the heating wire in full-wave form to increase the current instantaneously and disconnect the over-current protection element to stop the heating.
70 Citations
16 Claims
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1. A heating structure for preventing the overheat of a heating line, comprising:
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a heating line, including a heating wire, a sensing line, an insulation-and-meltable layer located between the heating wire and the sensing line, and a cladding layer covering the outer peripheries of the sensing line and the insulation-and-meltable layer; an over-current protection element, respectively connected to a first end of the heating wire and an alternating current power'"'"'s first polarity, where a first node is provided between the first end of the heating wire and the over-current protection element, and the sensing line'"'"'s first end is coupled to the first node; a switch, respectively connected to a second end of the heating wire and a second polarity of the alternating current power; a trigger circuit, connected with the switch and used for triggering the switch to be in conduction condition; and a processor, connected with the trigger circuit and used for controlling the switch to be in conducting state, where the processor is connected with a second end of the sensing line, so that the processor is able to control the trigger circuit to let the alternating current in a half-wave form pass through the heating wire under normal condition;
when abnormal signals are detected, the processor is able to let the alternating current pass through the heating wire in a full-wave form in order to increase the current and disconnect the over-current protection element to stop the heating. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for preventing the overheat of a heating line, where the heating line includes a heating wire, a sensing line, an insulation-and-meltable layer located between the heating wire and the sensing line, and a cladding layer covering the outer peripheries of the sensing line and the insulation-and-meltable layer;
- the heating wire has a first end in serial connection with an over-current protection element and an alternating current power'"'"'s first polarity;
the heating wire has a second end in serial connection with a switch and the alternating current power'"'"'s second polarity; and
the switch is triggered to be in conducting condition by a trigger circuit that is controlled by a processor;
the method comprising steps of;step a. triggering the trigger circuit by the processor so as to let the alternating current pass through the heating wire in a half-wave form to begin the heating of the heating wire; step b. turning to step e, if the switch is broken and in short circuit condition; step c. turning to step f, if any abnormal signals from the sensing line are detected by the processor; step e. letting the alternating current in a full-wave form pass through the switch and the heating wire in order to increase the current and disconnect the over-current protection element to stop the heating; step f. controlling the switch by the processor to let the alternating current in a full-wave form pass through the heating wire in order to increase the current and disconnect the over-current protection element to stop the heating. - View Dependent Claims (14, 15, 16)
- the heating wire has a first end in serial connection with an over-current protection element and an alternating current power'"'"'s first polarity;
Specification