Wirelessly-chargeable stretch-resistant light-emitting or heat-emitting structure
First Claim
1. A wirelessly-chargeable stretch-resistant light-emitting structure, which is adapted to be used in an article, a charging device being coupled to the article, the charging device comprising a transmitter circuit and a power source connected to the transmitter circuit, the power source supplying electrical power to the transmitter circuit, the electrical power being converted by the transmitter circuit into an alternate-current signal, the wirelessly-chargeable stretch-resistant light-emitting structure comprising:
- a woven member, which is mounted to the article;
at least two conductive twisted cables, each of which comprises at least one stretch-resistant wire and at least one conductive wire twisted together, the two conductive twisted cables being woven in the woven member;
at least one light-emitting element, which is arranged inside the woven member, the light-emitting element comprising a light emission section and at least two conductive pins, the light emission section emitting light projecting out of the woven member, the two conductive pins being respectively and securely in electrical engagement with the conductive wires of the two conductive twisted cables; and
a receiver circuit, which is electrically connected to the conductive wires of the two conductive twisted cables and comprises a rechargeable battery, the transmitter circuit transmitting the alternate-current signal to the receiver circuit, the receiver circuit receiving and converting the alternate-current signal to electrical power, which is stored in the rechargeable battery to be subsequently supplied to the light-emitting element.
2 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides a stretch-resistant light-emitting or heat-emitting structure. The wirelessly-chargeable stretch-resistant light-emitting structure includes a woven member, conductive twisted cables, a light-emitting element, and a receiver circuit. The woven member is mounted to the article. Each conductive twisted cable includes a stretch-resistant wire and a conductive wire twisted together. The conductive twisted cables are woven in the woven member. The light-emitting element, which is arranged inside the woven member, includes a light emission section and two conductive pins. The conductive pins are respectively and electrically connected to the conductive wires of the conductive twisted cables. The wirelessly-chargeable stretch-resistant heat-emitting structure includes a carrying member, an electrical heating element mounted to the carrying member, conductive twisted cables that are in electrical connection with the electrical heating element, and a receiver circuit that is in electrical connection with the conductive twisted cables. The carrying member is woven in the article.
425 Citations
26 Claims
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1. A wirelessly-chargeable stretch-resistant light-emitting structure, which is adapted to be used in an article, a charging device being coupled to the article, the charging device comprising a transmitter circuit and a power source connected to the transmitter circuit, the power source supplying electrical power to the transmitter circuit, the electrical power being converted by the transmitter circuit into an alternate-current signal, the wirelessly-chargeable stretch-resistant light-emitting structure comprising:
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a woven member, which is mounted to the article; at least two conductive twisted cables, each of which comprises at least one stretch-resistant wire and at least one conductive wire twisted together, the two conductive twisted cables being woven in the woven member; at least one light-emitting element, which is arranged inside the woven member, the light-emitting element comprising a light emission section and at least two conductive pins, the light emission section emitting light projecting out of the woven member, the two conductive pins being respectively and securely in electrical engagement with the conductive wires of the two conductive twisted cables; and a receiver circuit, which is electrically connected to the conductive wires of the two conductive twisted cables and comprises a rechargeable battery, the transmitter circuit transmitting the alternate-current signal to the receiver circuit, the receiver circuit receiving and converting the alternate-current signal to electrical power, which is stored in the rechargeable battery to be subsequently supplied to the light-emitting element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15)
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14. The wirelessly-chargeable stretch-resistant light-emitting structure as claimed in 1, wherein the receiver circuit comprises a receiver induction coil, a secondary receiving resonant circuit, and an AC/DC rectification and filtering regulation circuit, the receiver induction coil receiving an alternate-current signal transmitted from the transmitter circuit, the secondary receiving resonant circuit being connected to the receiver induction coil, the secondary receiving resonant circuit providing resonance to the alternate-current signal received by the receiver induction coil, the AC/DC rectification and filtering regulation circuit being connected to the secondary receiving resonant circuit, the AC/DC rectification and filtering regulation circuit performing rectification and regulation of the alternate-current signal that is subjected to resonance by the secondary receiving resonant circuit so as to convert the alternate-current signal into electrical power, the AC/DC rectification and filtering regulation circuit being connected to the rechargeable battery so as to store the electrical power obtained by the performance of the AC/DC rectification and filtering regulation circuit to the rechargeable battery.
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16. A wirelessly-chargeable stretch-resistant heat-emitting structure, which is adapted to be used in an article, a charging device being coupled to the article, the charging device comprising a transmitter circuit and a power source connected to the transmitter circuit, the power source supplying electrical power to the transmitter circuit, the electrical power being converted by the transmitter circuit into an alternate-current signal, the wirelessly-chargeable stretch-resistant heat-emitting structure comprising:
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at least one carrying member, which is woven in the article; at least one electrical heating element, which is mounted to the carrying member; at least two conductive twisted cables, each of which comprises at least one stretch-resistant wire and at least one conductive wire twisted together, the conductive wires of the two conductive twisted cables each having an end electrically connected to the electrical heating element; and a receiver circuit, which is electrically connected to an opposite end of each of the conductive wires of the conductive twisted cables and comprises a rechargeable battery, the transmitter circuit transmitting the alternate-current signal to the receiver circuit, the receiver circuit receiving and converting the alternate-current signal to electrical power, which is stored in the rechargeable battery to be subsequently supplied to the electrical heating element. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 26)
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25. The wirelessly-chargeable stretch-resistant heat-emitting structure as claimed in 16, wherein the receiver circuit comprises a receiver induction coil, a secondary receiving resonant circuit, and an AC/DC rectification and filtering regulation circuit, the receiver induction coil receiving an alternate-current signal transmitted from the transmitter circuit, the secondary receiving resonant circuit being connected to the receiver induction coil, the secondary receiving resonant circuit providing resonance to the alternate-current signal received by the receiver induction coil, the AC/DC rectification and filtering regulation circuit being connected to the secondary receiving resonant circuit, the AC/DC rectification and filtering regulation circuit performing rectification and regulation of the alternate-current signal that is subjected to resonance by the secondary receiving resonant circuit so as to convert the alternate-current signal into electrical power, the AC/DC rectification and filtering regulation circuit being connected to the rechargeable battery so as to store the electrical power obtained by the performance of the AC/DC rectification and filtering regulation circuit to the rechargeable battery.
Specification