CN202074462U - Strain resistant light and heat emitting structures with bidirectional wireless charging and discharging function - Google Patents

Abstract

Strain resistant light and heat emitting structures are both applied to products worn by people, are both provided with first sending and receiving circuit devices and conduction stranded wires stranded and wound with strain resistant lines and leads, and both have resonance energy sending and receiving operations with charging and discharging devices for charging and discharging, wherein the charging and discharging devices are provided with second sending and receiving circuit devices. The strain resistant light emitting structure further includes a braided fabric combined on a product and a light emitting assembly arranged in the braided fabric, the conduction stranded wires are braided in the braided fabric, and the light emitted by the light emitting assembly can be emitted out of the braided fabric. The strain resistant heat emitting structure includes a carrier braided on a product and a heat emitting assembly arranged on the carrier, and the heat emitting assembly, the conduction stranded wires and the first sending and receiving device are communicated with each electrically. Therefore, except for the functions of emitting light and heat, the products further have the functions of bidirectional wireless charging and discharging, strain and tear resistance, capabilities of being washed with water and being bent, etc.

Description

But anti-pull-type luminous, the heat radiating structure that double-direction radio discharges and recharges

Technical field

The utility model is about a kind of anti-pull-type luminous, heat radiating structure, but but be meant especially a kind of double-direction radio discharge and recharge, can be applicable on the product for human body wearings, have anti-ly draw, anti-pull, can wash and the bending function, hold concurrently and can also be luminous, anti-pull-type luminous, the heat radiating structure that generates heat.

Background technology

Desire on the product (for example: clothes, overcoat, shirt, vest, underwear, trousers, skirt, cap, gloves, swimming suit, swimming cap, diving suit, socks, earmuff and Bao Bao and knapsack etc.) that can dress for human body, set up illuminated component with luminous or set up generating component with warming, knownly rarely seenly on overcoat and cap, be provided with luminescence component, to increase atmosphere, entertaining or beautiful effect at night.

Only because the above-mentioned product of dressing for human body must often wash, also will inevitably often pull, bending, and the well known practice that causes illuminated component only is set merely is not inconsistent demand already, often because of wash or often pull, bending and cause supply line to rupture.

Moreover, this luminescence component required electric power when using, adopt mostly as rechargeable batteries such as Ni-MH battery or lithium batteries, this rechargeable battery mainly is to be charged by a charging device, and this charging device needs to be connected in wired mode with socket, be passed to this rechargeable battery with the required electric energy that will charge by the Wireline binding, make its scope of application limited, reduce ease of use.

Therefore, but but but how to design a kind of double-direction radio and discharge and recharge, have and anti-ly draw, anti-ly pull, can wash and bending function and anti-pull-type luminous, the heat radiating structure that can also the utility model double-direction radio luminous, heating discharges and recharges, be a big problem for solution that this creator desires most ardently.

The utility model content

But the anti-pull-type ray structure that provides a kind of double-direction radio to discharge and recharge is provided the purpose of this utility model, the special construction that is discharged and recharged by conduction twisted wire and double-direction radio designs, but anti-ly draw to have, anti-ly pull, can wash and the bending function, and can also double-direction radio discharge and recharge and make luminescence component luminous.

For achieving the above object, but the anti-pull-type ray structure that the double-direction radio that the utility model provides discharges and recharges comprises a charge and discharge device, and this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type ray structure comprises: a braid; At least two conduction twisted wires, respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and this two conduction twisted wire is knitted in this braid; At least one luminescence component, this luminescence component is located in this braid, this luminescence component has an illuminating part and at least two conductive feet, and this illuminating part issued light penetrates outside this braid, and this two conductive feet electrically contacts with this two lead that conducts twisted wire respectively regularly each other; And one first received circuit arrangement, is electrically connected at the lead of this two conduction twisted wire, this first and second receive circuit arrangement toward each other.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively the lead of this conduction twisted wire is the anti-lead that draws material.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively this conductive feet of this luminescence component have one with the corresponding locating slot of this conduction twisted wire respectively, respectively this conduction twisted wire is positioned in the locating slot of this conductive feet respectively.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively this conductive feet of this luminescence component has a location division, and respectively this conduction twisted wire is positioned the respectively location division of this conductive feet.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively the location division of this conductive feet is an inserting hole, respectively this conduction twisted wire is interspersed in the inserting hole of this conductive feet respectively regularly.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively this conduction twisted wire is coated with an insulating barrier, respectively this conductive feet of this luminescence component has a cutting tip, respectively the cutting tip of this conductive feet pierce through the conduction twisted wire insulating barrier and regularly with insulating barrier in lead electrically contact.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, comprising a controller and a switch, receive circuit arrangement for this first and comprise one first supply unit, this controller, switch and first supply unit all are electrically connected at the lead of this two conduction twisted wire, and this controller is controlled the illumination mode of this luminescence component.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this at least two conduction twisted wire comprises the conduction twisted wire of at least one control usefulness, and the conduction twisted wire of this control usefulness is electrically connected at this controller by its lead.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, comprising an external piece, a connector and a switch, this connector and switch all are electrically connected at the lead of this two conduction twisted wire, this external piece is provided with described first with one first supply unit and receives a circuit arrangement and a controller in order to control luminescence component illumination mode, this external piece also have one be electrically connected at this controller and with the corresponding corresponding connector of this connector, this external piece is then electrically communicated with the butt joint each other of this connector by this correspondence connector.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this at least two conduction twisted wire comprises the conduction twisted wire of at least one control usefulness, and the conduction twisted wire of this control usefulness is electrically connected at this controller by its lead.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein respectively this conduction twisted wire is coated with an insulating barrier, and respectively this conduction twisted wire kinks together each other.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first receipts circuit arrangement comprises one first storage power supply power apparatus and one first resonant circuit device; And this second receipts circuit arrangement is corresponding with this first receipts circuit arrangement, receives circuit arrangement for this second and then comprises one second resonant circuit device and one second storage power supply power apparatus; Wherein: this first storage power supply power apparatus, described connector then electrically connect with this first storage power supply power apparatus; This first resonant circuit device electrically connects with this first storage power supply power apparatus; This second resonant circuit device, the position is in the corresponding section of the position of first resonant circuit device; This second storage power supply power apparatus electrically connects with this second resonant circuit device.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first storage power supply power apparatus includes: a first control circuit device; One first oscillating circuit device electrically connects with this first control circuit device; And one first driving circuit device, electrically connect with this first oscillating circuit device.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first storage power supply power apparatus comprises one first supply unit, this first supply unit is electrically connected at this first control circuit device.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device has at least two mos field effect transistor (MOSFET).

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device is at least one mos field effect transistor (MOSFET) actuator state.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device stops actuator state for all mos field effect transistor (MOSFET).

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this second storage power supply power apparatus includes: one second driving circuit device electrically connects with this second resonant circuit device; One second oscillating circuit device electrically connects with this second driving circuit device; And a second control circuit device, electrically connect with this second oscillating circuit device.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this second storage power supply power apparatus comprises a second source device, this first supply unit is electrically connected at this second control circuit device.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device has at least two mos field effect transistor (MOSFET).

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device is at least one mos field effect transistor (MOSFET) actuator state.

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device stops actuator state for all mos field effect transistor (MOSFET).

But the anti-pull-type ray structure that described double-direction radio discharges and recharges, wherein this charge and discharge device can be located, and described location then is clamping, bind, bonding and mutual one of them of adsorbing.

But the anti-pull-type heat radiating structure that the double-direction radio that the utility model provides discharges and recharges also comprises a charge and discharge device, and this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type heat radiating structure comprises: at least one carrier; At least one heat generating component, this heat generating component are arranged on this carrier; At least two conduction twisted wires, respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and lead one end of this two conduction twisted wire is electrically connected at this heat generating component; And one first received circuit arrangement, and the lead that is electrically connected at this two conduction twisted wire is end in addition, this first and second receive circuit arrangement toward each other.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein the lead of this conduction twisted wire is the anti-lead that draws material.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this carrier has a temperature-uniforming plate, and this heat generating component is contacted with this temperature-uniforming plate.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges comprising a switch, is received circuit arrangement for this first and is comprised one first supply unit, and this switch and the first supply unit utilization are conducted twisted wire and electrically be serially connected with this heat generating component.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, comprising a controller, this switch, first supply unit and controller utilization are conducted twisted wire and electrically are serially connected with this heat generating component.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, comprising an external piece, a connector and a switch, this connector and switch all utilize the conduction twisted wire and electrically are serially connected with this heat generating component, this external piece be provided with described have first of one first supply unit receive circuit arrangement and one with the corresponding corresponding connector of this connector, this correspondence connector electrically communicates with this first supply unit, and this external piece is then electrically communicated with the butt joint each other of this connector by this correspondence connector.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this external piece comprises a controller, the corresponding connector of this external piece and first supply unit electrically communicate with this controller.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first receipts circuit arrangement comprises one first storage power supply power apparatus and one first resonant circuit device; And this second receipts circuit arrangement is corresponding with this first receipts circuit arrangement, receives circuit arrangement for this second and then comprises one second resonant circuit device and one second storage power supply power apparatus; Wherein: this first storage power supply power apparatus, described connector then electrically connect with this first storage power supply power apparatus; This first resonant circuit device electrically connects with this first storage power supply power apparatus; This second resonant circuit device, the position is in the corresponding section of the position of first resonant circuit device; This second storage power supply power apparatus electrically connects with this second resonant circuit device.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first storage power supply power apparatus includes: a first control circuit device; One first oscillating circuit device electrically connects with this first control circuit device; And one first driving circuit device, electrically connect with this first oscillating circuit device.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first storage power supply power apparatus comprises one first supply unit, this first supply unit is electrically connected at this first control circuit device.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device has at least two mos field effect transistor (MOSFET).

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device is at least one mos field effect transistor (MOSFET) actuator state.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this first resonant circuit device stops actuator state for all mos field effect transistor (MOSFET).

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this second storage power supply power apparatus includes: one second driving circuit device electrically connects with this second resonant circuit device; One second oscillating circuit device electrically connects with this second driving circuit device; And a second control circuit device, electrically connect with this second oscillating circuit device.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this second storage power supply power apparatus comprises a second source device, this first supply unit is electrically connected at this second control circuit device.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device has at least two mos field effect transistor (MOSFET).

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device is at least one mos field effect transistor (MOSFET) actuator state.

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this second resonant circuit device stops actuator state for all mos field effect transistor (MOSFET).

But the anti-pull-type heat radiating structure that described double-direction radio discharges and recharges, wherein this charge and discharge device can be located, and described location then is clamping, bind, bonding and mutual one of them of adsorbing.

But the anti-pull-type heat radiating structure that double-direction radio of the present utility model discharges and recharges, the special construction that is discharged and recharged by conduction twisted wire and double-direction radio designs, but anti-ly draw to have, anti-ly pull, can wash and the bending function, and can also double-direction radio discharge and recharge and allow the heat generating component heating.

Description of drawings

Figure 1A is applied to front schematic view on the product for the utility model.

Figure 1B is applied to schematic rear view on the product for the utility model.

Fig. 2 A, 2B, 2C are circuit block diagram of the present utility model.

Fig. 3 is the stereogram of the conduction twisted wire in the utility model.

Fig. 3 A is the A-A profile of the utility model according to Fig. 3.

Fig. 4 is the schematic perspective view of the anti-pull-type ray structure of the utility model.

Fig. 4 A is the B-B profile of the utility model according to Fig. 4, also discloses controller (6) and first receipts circuit arrangement (8) of being electrically connected at conduction twisted wire (3) among the figure in the lump.

Fig. 4 B is the utility model is set up locating slot according to Fig. 4 A an enforcement illustration.

Fig. 5 is in the anti-pull-type ray structure of the utility model, and luminescence component is located at the two enforcement illustrations that conduct between the twisted wires.

Fig. 5 A is the utility model is set up locating slot according to Fig. 5 an enforcement illustration.

Fig. 6 is in the anti-pull-type ray structure of the utility model, uses the enforcement illustration of another kind of luminescence component.

Fig. 7 is in the anti-pull-type ray structure of the utility model, uses the enforcement illustration of this another kind luminescence component and increase cutting tip.

Fig. 8 is in the anti-pull-type ray structure of the utility model, comes external first schematic diagram of receiving circuit arrangement (8) and controller (6) by connector.

Fig. 9 comes external first schematic diagram of receiving circuit arrangement (8) and controller (6) in the anti-pull-type heat radiating structure of the utility model (being incorporated into product) by connector.

Figure 10 A, 10B are respectively the occupation mode schematic diagram of the anti-pull-type ray structure of the utility model when being applied to clothes and trousers.

Primary clustering symbol description in the accompanying drawing:

1 product, 2 luminescence components, 21 illuminating parts, 22 conductive feet, 221 locating slots, 222 location divisions, 223 cutting tips, 3 conduction twisted wires, 31 anti-backguys, 32 leads, 33 insulating barriers, 4 carriers, 40 heat generating components, 5 braids, 6 controllers, 61 switches, 7 external pieces, 71 connectors, 72 corresponding connectors are received circuit arrangement for 8 first, 80 first storage power supply power apparatus, 811 mos field effect transistor, 81 first resonant circuit devices, 82 first control circuit devices, 83 first oscillating circuit devices, 84 first driving circuit devices, 85 first supply units, 9 charge and discharge devices are received circuit arrangement for 91 second, 9111 mos field effect transistor, 910 second storage power supply power apparatus, 911 second resonant circuit devices, 912 second control circuit devices, 913 second oscillating circuit devices, 914 second driving circuit devices, 915 second source devices, 92 power elements, Y01 first electric power, Y02 first direct current signal, Y03 first AC signal, Y04 first FM signal, Y05 first resonant energy, Y06 the 3rd FM signal, Y07 the 3rd AC signal, Y08 the 3rd direct current signal, Y09 the 3rd electric power, Y11 second electric power, Y12 second direct current signal, Y13 second AC signal, Y14 second FM signal, Y15 second resonant energy, Y16 the 4th FM signal, Y17 the 4th AC signal, Y18 the 4th direct current signal, Y19 the 4th electric power.

The specific embodiment

But the anti-pull-type ray structure that the double-direction radio that the utility model provides discharges and recharges, it comprises a charge and discharge device, this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type ray structure comprises: a braid, at least two conduction twisted wires, at least one luminescence component and one first receipts circuit arrangement.Respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and this two conduction twisted wire is knitted in this braid; This luminescence component is located in this braid, and this luminescence component has an illuminating part and at least two conductive feet, and this illuminating part issued light penetrates outside this braid, and this two conductive feet electrically contacts with this two lead that conducts twisted wire respectively regularly each other; Receive the lead that circuit arrangement is electrically connected at this two conduction twisted wire for this first, this first and second receive circuit arrangement toward each other.With except can discharging and recharging and luminous by double-direction radio, but also with can anti-ly drawing, anti-ly pulling, can wash and the function of bending etc.

But the anti-pull-type heat radiating structure that the double-direction radio that the utility model provides discharges and recharges, also comprise a charge and discharge device, this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type heat radiating structure comprises: at least one carrier, at least one heat generating component, at least two conduction twisted wires and one first receipts circuit arrangement.This heat generating component is arranged on this carrier; Respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and lead one end of this two conduction twisted wire is electrically connected at this heat generating component; Receive lead that circuit arrangement is electrically connected at this two conduction twisted wire end in addition for this first, this first and second receive circuit arrangement toward each other.With except can by double-direction radio discharge and recharge and generate heat so warming, but also with can anti-ly drawing, anti-ly pulling, can wash and the function of bending etc.

In order further to understand feature, characteristics and the technology contents of the utility model, see also following about detailed description of the present utility model and accompanying drawing, accompanying drawing only provide with reference to and the explanation usefulness, non-in order to the restriction the utility model.

But anti-pull-type luminous, the heat radiating structure that the double-direction radio that the utility model provides discharges and recharges is on the product (for example: clothes, overcoat, shirt, vest, underwear, trousers, skirt, cap, gloves, swimming suit, swimming cap, diving suit, socks, earmuff and Bao Bao and knapsack etc.) that is applied to dress for human body.

See also Figure 1A, shown in the 1B, what but the utility model double-direction radio discharged and recharged is anti-pull-type luminous, heat radiating structure all can be applied to described product (product as shown in the figure is a clothes) 1 with one～most quantity, and in order to and the utility model between the charge and discharge device 9 that discharges and recharges each other be with this product 1 location (as clamping, bind, bind or adsorb mutually etc.), this charge and discharge device 9 comprises that described anti-pull-type ray structure and anti-pull-type heat radiating structure are and charge and discharge device 9 sends just like second shown in Fig. 2 A receipts circuit arrangement 91, receive a resonant energy and discharge according to this, charging.

＜anti-pull-type ray structure 〉

Shown in Figure 1A～1B, 2A～2C and 4～4A, those anti-pull-type ray structures are located at the both shoulders and the back side of product 1 respectively, respectively this anti-pull-type ray structure comprises a braid 5, at least two conduction twisted wires 3, at least one luminescence component 2 and first receipts circuit arrangement 8, described luminescence component 2 can be light emitting diode (LED) or Organic Light Emitting Diode (Organic Light-Emitting Diode is called for short OLED).

Conduction twisted wire 3 wherein sees also shown in Fig. 3, the 3A, and respectively this conduction twisted wire 3 has at least one anti-backguy 31 and at least one lead 32 that kinks each other together; Preferably, respectively this lead 32 also can be the anti-lead that draws material, but and also have anti-ly draw, anti-pulling and the effect of bending.

Luminescence component 2 wherein, shown in Fig. 4 A, respectively this luminescence component 2 has an illuminating part 21 and at least two conductive feet 22, this two conductive feet 22 electrically contacts with this two lead 32 that conducts twisted wire 3 respectively regularly each other, comprise as for the fixed form of conductive feet 22 with conduction twisted wire 3: welding, piece punching press and some glue etc., and first receipts circuit arrangement 8 also is electrically connected at this conduction twisted wire 3.

By the combination of said structure, the anti-pull-type ray structure of the utility model can be received circuit arrangement 8 and charge and discharge device 9 and obtains electric power according to first.

See also Fig. 2 A and in conjunction with shown in Figure 1, the utility model circuit block diagram comprises: first second receipts circuit arrangement 91 receiving circuit arrangement 8 and be located at charge and discharge device 9 being located at product 1, wherein, this first receipts circuit arrangement 8 is electrically connected at described two leads 32 that conduct twisted wires 3 and (shown in Figure 1A, 1B, only omitted lead 32 among the figure and do not given drafting; In addition, too complicated for avoiding explanation, " being electrically connected at conduction twisted wire 3 " after this will only be described, and no longer lead 32 be given unnecessary details out).Receiving circuit arrangement 8 for this first comprises: one first storage power supply power apparatus 80 and one first resonant circuit device 81, this first storage power supply power apparatus 80 can provide one first electric power Y01, and converts this first electric power Y01 to one first FM signal Y04.Preferably, this first storage power supply power apparatus 80 also includes: a first control circuit device 82, one first oscillating circuit device 83 and one first driving circuit device 84.At first, this first storage power supply power apparatus 80 is to provide this first electric power Y01 with one first supply unit 85 (as rechargeable battery), and this first control circuit device 82 is to convert this first electric power Y01 to one first direct current signal Y02.This first oscillating circuit device 83 is to electrically connect with this first control circuit device 82, and this first oscillating circuit device 83 receives this first direct current signal Y02 and converts one first AC signal Y03 to.This first driving circuit device 84 is to electrically connect with this first oscillating circuit device 83, and this first driving circuit device 83 receives this first AC signal Y03 and converts this first FM signal Y04 to.

Please arranging in pairs or groups again and consult shown in Fig. 2 B, is the preferred embodiment circuit diagram of first resonant circuit device 81 and second resonant circuit device, 911 corresponding matching.This first resonant circuit device 81 electrically connects with this first storage power supply power apparatus 80, and preferably, this first resonant circuit device 81 has the electric connection of at least two mos field effect transistor 811 (MOSFET) and forms the semibridge system power circuit; When this first resonant circuit device 81 in an opening, this opening is at least one mos field effect transistor 811 (MOSFET) actuator state, this moment, this first resonant circuit device 81 was an emission state, and this first resonant circuit device 81 will receive this first FM signal Y04 and convert one first resonant energy Y05 to.

See also shown in Fig. 2 A, this second receipts circuit arrangement 91 is corresponding with this first receipts circuit arrangement 8, receives circuit arrangement 91 for this second and includes: one second resonant circuit device 911 and one second storage power supply power apparatus 910.This second resonant circuit device 911 is corresponding sections in first resonant circuit device, 81 positions, position, preferably, please in conjunction with consulting shown in Fig. 2 B, this second resonant circuit device 911 has at least two mos field effect transistor 9111 (MOSFET) and electrically connects formation semibridge system power circuit.This moment, this second resonant circuit device 911 was in a closed condition, this closed condition stops actuator state for all mos field effect transistor 9111 (MOSFET), this moment, this second resonant circuit device 911 was an accepting state, and this second resonant circuit device 911 will receive this first resonant energy Y05 and convert one the 3rd FM signal Y06 to.This second storage power supply power apparatus 910 is and this second resonant circuit device 911 electrically connects, and this second storage power supply power apparatus 910 can receive the 3rd FM signal Y06, and converts the 3rd FM signal Y06 to one the 3rd electric power Y09 and store.

Preferably, this second storage power supply power apparatus 910 also includes: one second driving circuit device 914, one second oscillating circuit device 913 and a second control circuit device 912, this second driving circuit device 914 electrically connects with this second resonant circuit device 911, and this second driving circuit device 914 receives the 3rd FM signal Y06 and converts one the 3rd AC signal Y07 to.This second oscillating circuit device 913 is to electrically connect with this second driving circuit device 914, and this second oscillating circuit device 913 receives the 3rd AC signal Y07 and converts one the 3rd direct current signal Y08 to.This second control circuit device 912 is to electrically connect with this second oscillating circuit device 913, and these second control circuit device 912 receptions the 3rd direct current signal Y08 converts the 3rd electric power Y09 to and is stored in a second source device 915 (as rechargeable battery).

Certainly, this second resonant circuit device 911 is in an opening, this opening is at least one mos field effect transistor 9111 (MOSFET) actuator state, this moment, this second resonant circuit device 911 was an emission state, and this first resonant circuit device 81 is in a closed condition, this closed condition stops actuator state for all mos field effect transistor 811 (MOSFET), and this moment, this first resonant circuit device 81 was an accepting state.Be with this second source device 915 (as rechargeable battery) to provide one second electric power Y11 by this second storage power supply power apparatus 910 this moment, and this second control circuit device 912 converts this second electric power Y11 to one second direct current signal Y12.This second oscillating circuit device 913 receives this second direct current signal Y12 and converts one second AC signal Y13 to, and this second driving circuit device 914 receives this second AC signal Y13 and converts one second FM signal Y14 to.And this second resonant circuit device 911 is an emission state, and this second resonant circuit device 911 will receive this second FM signal Y14 and convert one second resonant energy Y15 to.And this first resonant circuit device 81 is an accepting state, and this first resonant circuit device 81 will receive this second resonant energy Y15 and convert one the 4th FM signal Y16 to.This first driving circuit device 84 receives the 4th FM signal Y16 and converts one the 4th AC signal Y17 to.This first oscillating circuit device 83 receives the 4th AC signal Y17 and converts one the 4th direct current signal Y18 to, and these first control circuit device 82 receptions the 4th direct current signal Y18 converts one the 4th electric power Y19 to and is stored in this first supply unit 85.Really can reach the effect that product 1 (have first and receive circuit arrangement 8) and charge and discharge device 9 (have second and receive circuit arrangement 91) double-direction radio discharge and recharge thus.

See also Fig. 4,4A and in conjunction with Figure 1A, anti-pull-type ray structure first embodiment of the utility model shown in the 1B, braid 5 be combine with product 1 (for example: sewing be knitted on the product 1 or product 1 in) together, be the both shoulders and the back side that is incorporated into product 1 as shown in the figure, be knitted in the braid 5 as for conduction twisted wire 3,2 of luminescence components are located in the braid 5, and the conductive feet 22 that makes luminescence component 2 electrically contact with conduction twisted wire 3 and energy is luminous, illuminating part 21 issued lights of luminescence component 2 penetrate outside braid 5, the shoot mode of described light is except that can be by being provided with the hole body (not marking component symbol) that exposes for illuminating part 21 in the corresponding position of braid 5 as shown in the figure, also can allow braid 5 the corresponding position count looser (figure does not show) and be beneficial to the ejaculation of light.

Thus, but conduction twisted wire 3 and the anti-pull-type ray structure that is provided with the electricity of this conduction twisted wire 3 can have and anti-ly draw, anti-ly pull, can wash and the bending function, and can also conduct electricity and make luminescence component 2 luminous.

See also anti-pull-type ray structure second embodiment of the utility model shown in Fig. 4 B, preferably, respectively the respectively lower edge of this conductive feet 22 of this luminescence component 2 has a locating slot 221, respectively this locating slot 221 is with respectively should conduction twisted wire 3 corresponding, and this conduction twisted wire 3 respectively can be positioned in the locating slot 221 of this conductive feet 22 respectively.And the luminescence component 2 as shown in Fig. 4 A and Fig. 4 B is to be electrically connected on the two conduction twisted wires 3, the lower edge of conductive feet 22 is contacted with on the conduction twisted wire 3, and the lead 32 of conduction twisted wire 3 electrically contacts with conductive feet 22.

See also anti-third and fourth embodiment of pull-type ray structure of the utility model shown in Fig. 5 and Fig. 5 A, 2 of luminescence components wherein are electrically connected between the two conduction twisted wires 3, make the lateral margin of conductive feet 22 be contacted with the side of conducting twisted wire.Preferably, the lateral margin of conductive feet 22 has a locating slot 221 (Fig. 5 A), and locating slot 221 is also corresponding with conduction twisted wire 3, conduction twisted wire 3 can be positioned in the locating slot 221 of conductive feet 22, and the lead 32 of conduction twisted wire 3 also electrically contacts with conductive feet 22.

See also anti-pull-type ray structure the 5th embodiment of the utility model shown in Figure 6, wherein the conductive feet 22 of luminescence component 2 has a location division 222, location division 222 as shown in the figure is an inserting hole, conduction twisted wire 3 can be interspersed in this inserting hole and locate, conduction twisted wire 3 can be positioned in the location division 222 of conductive feet 22, and the lead 32 of conduction twisted wire 3 also electrically contact with conductive feet 22.

See also anti-pull-type ray structure the 6th embodiment of the utility model shown in Figure 7, wherein respectively this conduction twisted wire 3 is coated with an insulating barrier 33, the conductive feet 22 of luminescence component 2 has a cutting tip 223, the cutting tip 223 of conductive feet 22 pierce through conduction twisted wire 3 insulating barrier 33 and regularly with insulating barrier 33 in lead 32 electrically contact.The generation type of described insulating barrier 33 has multiple, wherein a kind ofly gets for being soaked in dielectric.

Certainly, above-mentioned the first～six embodiment all can come further to be insulated in the mode that following figure does not show:

One, the conduction twisted wire 3 that will be electrically connected with luminescence component 2 earlier is soaked in dielectric and is formed with insulating barrier, and conduction twisted wire 3 braidings (simple braiding) that will be formed with insulating barrier again and be electrically connected with luminescence component 2 are in braid 5, but not as limit;

Two, make conduction twisted wire 3 be formed with insulating barrier 33 earlier, again it is woven (with the braid of braid 5 together) reach the effect of dissolving in braid 5 in braid 5, then on insulating barrier 33, offer most openings again and expose lead 32,2 electrically contacts via this opening of luminescence component give sealing at last again.

Among above-mentioned first embodiment, kink together (figure does not show) each other after respectively all conduction twisted wires 3 of this anti-pull-type ray structure (as shown being two conduction twisted wires 3) can insulate, certainly, the second～six embodiment also can so do (figure does not show).

Among above-mentioned the first～six embodiment, respectively this anti-pull-type ray structure also can omit braid 5, and the braiding knitting wool of two conduction twisted wires 3 with sweater is woven together (figure does not show), and reaches the effect of dissolving in sweater.

Among above-mentioned the first～six embodiment, except two conduction twisted wires 3 and first receipts circuit arrangement 8 of being located in the braid 5 are electrically connected (as Fig. 4, shown in the 4A), to allow first first supply unit 85 of receiving circuit arrangement 8 can provide electric power and outside luminous to luminescence component 2, preferably, also can further be electrically connected with a controller 6 and a switch 61, controller 6 and switch 61 can electrically be serially connected with this two conduction twisted wire 3, thus, the illumination mode that controller 6 can be controlled luminescence component 2 (for example: normally luminous, flicker or different brightness etc.), below will only describe with first embodiment.

See also shown in Fig. 4, the 4A, wherein, this controller 6 and switch 61 also can be located in the braid 5 (figure does not show) or also can be as shown in the figure as stretch out in outside the braid 5, can be coated with insulating barrier (figure does not show) again and stretch out in braid 5 outer modes, thereby all have the insulation when being beneficial to washing.In addition, in order to be beneficial to the control of luminescence component 2 illumination modes, the conduction twisted wire that further has additional at least one control usefulness (is schemed not show, but its structure is identical with conduction twisted wire 3), the conduction twisted wire of this control usefulness is to be electrically connected at this controller 6 by its lead, thereby is come the control signal of transmission control unit (TCU) 6 by the conduction twisted wire of this control usefulness.Conduction twisted wire of this two conduction twisted wire 3 and this control usefulness also can be kinked after distinctly being coated with insulating barrier is in the same place (scheming not show), and have more anti-ly draw, anti-effect such as pull.

In sum, respectively this anti-pull-type ray structure can power supply gives luminescence component 2 luminous via first supply unit 85 of first receipts circuit arrangement 8, it is luminous or extinguish to control luminescence component 2 via switch 61, can also control the illumination mode of luminescence component 2 via controller 6.

See also shown in Figure 8ly again, can also change and electrically connect above-mentioned first in external mode and receive circuit arrangement 8 (preferably, described external be further to comprise controller 6).As figure, respectively this anti-pull-type ray structure of the utility model the first～six embodiment further comprises an external piece 7, a connector 71 and a switch 61, connector 71 and switch 61 electrically are serially connected with this two conduction twisted wire 3, external piece 7 has first and receives a circuit arrangement 8 and a controller 6 in order to the illumination mode of control luminescence component 2, external piece 7 also have one be electrically connected at controller 6 and with these connector 71 corresponding corresponding connectors 72,7 of this external pieces are electrically communicated with the butt joint each other of connector 71 by corresponding connector 72.Wherein, this switch 61 and connector 71 also can be located at (figure does not show) in the braid 5, or stretch out in outside the braid 5 as also can be as shown in the figure, can be coated with insulating barrier (figure does not show) again and stretch out in braid 5 outer modes, thus the insulation when being beneficial to washing.In addition, in order to be beneficial to the control of luminescence component 2 illumination modes, the conduction twisted wire that also can further have additional at least one control usefulness (schemes not show, but its structure is identical with conduction twisted wire 3), the conduction twisted wire of this control usefulness is to be electrically connected at this controller 6 by its lead, thereby is come the control signal of transmission control unit (TCU) 6 by the conduction twisted wire of this control usefulness.Conduction twisted wire of this two conduction twisted wire 3 and this control usefulness also can be kinked after distinctly being coated with insulating barrier is in the same place (scheming not show), and have more anti-ly draw, anti-effect such as pull.

Thus, except still controlling luminous or extinguishing via switch 61, can also be by external piece 7 whether external, and select whether to use controller 6 and have first of first supply unit 85 to receive circuit arrangement 8.

＜anti-pull-type heat radiating structure 〉

See also shown in Figure 1A to 2B, those anti-pull-type heat radiating structures are front and backs of being located at product 1 respectively, and respectively this anti-pull-type heat radiating structure comprises at least one carrier 4, at least one heat generating component 40, at least two conduction twisted wires 3 and first receipts circuit arrangement 8.

This carrier 4 is to weave (simple braiding) together with product 1; This conduction twisted wire 3 also has at least one anti-backguy 31 and at least one lead 32 that kinks each other together as hereinbefore, and preferably, respectively this lead 32 is the anti-lead that draws material, but and also have anti-ly draw, anti-pulling and the effect of bending.Be arranged on the carrier 4 as for 40 of this heat generating components, the lead 32 of this two conduction twisted wire 3 is electrically connected at this heat generating component 40.

Wherein, heat generating component 40 is to be generated heat by the conduction electric power that twisted wire 3 transmitted, preferably, this carrier 4 also has a temperature-uniforming plate (figure does not show), heat generating component 40 is contacted with temperature-uniforming plate, make heat can be distributed in temperature-uniforming plate, thereby allow the product 1 that is provided with the anti-pull-type heat radiating structure of the utility model can have the warming effect of samming.

See also shown in Fig. 2 A, the 2B, but the anti-pull-type heat radiating structure that the utility model double-direction radio discharges and recharges, but its circuit is identical with the anti-pull-type ray structure that aforementioned double-direction radio discharges and recharges, and does not give unnecessary details in addition at this.

But in the anti-pull-type heat radiating structure that above-mentioned double-direction radio discharges and recharges, will be described as follows about first structure of receiving circuit arrangement 8 and controller 6:

See also Figure 1A, in the anti-pull-type heat radiating structure among the 1B, except can allow first first supply unit, 85 power supply of receiving circuit arrangement 8 give heat generating component 40 time opening switch 61, heat generating component 40 allows outside can generate heat, preferably, also be electrically connected with a controller 6 and a switch 61 as also can be as shown in the figure, this controller 6, switch 61 and first receipts circuit arrangement 8 are electrically to be serially connected with conduction twisted wire 3, electrically to communicate with heat generating component 40, switch 61 is heating (ON) or do not generate heat (OFF) at control heat generating component 40,6 heating systems (for example: temperature and timing or the like) at control heat generating component 40 of controller.

See also shown in Figure 9, certainly, first receipts circuit arrangement 8 (or further comprising controller 6) of anti-pull-type heat radiating structure also can adopt external mode to reach and freely select purpose for use, therefore, anti-pull-type heat radiating structure also comprises a connector 71, a switch 61 and an external piece 7, and this external piece 7 has a corresponding connector 72, described controller 6 and first receipts circuit arrangement 8.This connector 71 and switch 61 are electrically to be serially connected with described conduction twisted wire 3, circuit arrangement 8 received by the controller 6 of external piece 7, first and corresponding connector 72 is electrically to communicate each other, so, external piece 7 can electrically be communicated with the butt joint each other of connector 71 by corresponding connector 72.

Thus, except still controlling whether heat generating component 40 generate heat via switch 61, can also be by external piece 7 whether external, and select whether to use controller 6 and have first of first supply unit 85 to receive circuit arrangement 8.

In addition, above-mentioned having additional in first anti-pull-type ray structure of receiving circuit arrangement 8 as Fig. 4, the part that stretches out in outside the braid 5 shown in Figure 8, can be fixed in any place of product 1 according to design.Have additional in first anti-pull-type heat radiating structure of receiving circuit arrangement 8 as for above-mentioned, institute's carrier that stretches out in 4 parts outward are to be fixed in the position of product 1 shown in Figure 1A, 1B.

See also Fig. 2 C and arrange in pairs or groups shown in Fig. 2 A, the luminescence component 2 that belongs to anti-pull-type ray structure among the figure, the heat generating component 40 that belongs to anti-pull-type heat radiating structure, controller 6 and switch 61 all are electrically connected at first and receive circuit arrangement 8, switch 61 be receive first supply unit 85 in the circuit arrangement 8 first of control power supply whether, controller 6 can comprise power control circuit and signal control circuit etc., power control circuit is to control opening (ON) and closing (OFF) of luminescence component 2 and heat generating component 40, and the signal control circuit is then (as: normally luminous at the illumination mode of control luminescence component 2, flicker or different brightness etc.) with the heating system (for example: temperature or calendar scheduling) of heat generating component 40.

Please consult again shown in Figure 10 A, the 10B, be respectively the occupation mode schematic diagram of the anti-pull-type ray structure of the utility model when being applied to clothes and trousers.Among the figure, the waist of trousers place of the both shoulders place of clothes (product 1) and trousers (product 1) is combined with anti-pull-type ray structure of the present utility model respectively, receive circuit arrangement 8 and be located in the pocket of clothes respectively and in the trousers pocket of trousers and have first of first supply unit 85, then be connected with conduction twisted wire 3 between anti-pull-type ray structure and first receipts circuit arrangement 8, even can also further be connected with controller 6 and switch 61.Wait configuration thus, charge and discharge device 9 is can be by being held on pocket and the trousers pocket, and be able to and first receive and charge, discharge between the circuit arrangement 8, wherein this charge and discharge device 9 can be as being plugged in civil power by wired power elements 92 as the figure and switching on.In addition, solar panels (figure does not show) also can be set further on this clothes, the trousers, come first supply unit, 85 chargings of receiving circuit arrangement 8 first can utilize solar energy out of doors.Above-mentioned application also can change anti-pull-type ray structure into the application (figure do not show) of anti-pull-type heat radiating structure, or uses (figure does not show) when also can change anti-pull-type luminous, heat radiating structure into.

What but the utility model double-direction radio discharged and recharged is anti-pull-type luminous, the characteristics of heat radiating structure are: by the special construction design of conduction twisted wire 3, make and all utilize conduction twisted wire 3 to power to the anti-pull-type ray structure and the anti-pull-type heat radiating structure of luminescence component 2 and heat generating component 40, except that have respectively luminous and the heating effect, also all have anti-drawing, anti-pulling, but can wash and the bending function, thereby definitely be applicable to for example clothes, overcoat, shirt, vest, underwear, trousers, skirt, cap, gloves, swimming suit, swimming cap, diving suit, socks, products 1 such as earmuff and Bao Bao and knapsack, and, conduction twisted wire 3 also can with the braid of braid 5 or product 1 together, from dissolving in braid 5 or dissolve in effect in product 1 to reach.Moreover, send resonant energy by a resonant circuit device in opening, and a corresponding resonant circuit device receives resonant energy in closed condition, thereby but allows charge and discharge device 9 and have between first product 1 of receiving circuit arrangement 8 and reach the effect that double-direction radio discharges and recharges.Can control the whether heating of the whether luminous of luminescence component 2 and control heat generating component 40 respectively by switch 61; Can control the illumination mode of luminescence component 2 and the heating system of heat generating component 40 respectively by controller 6; Freely select whether will use controller 6 to receive circuit arrangement 8 by 7 energy of external piece with first with first supply unit 85.In addition, by the conduction twisted wire that has additional control usefulness, with the control signal of transmission control unit (TCU) 6; By being coated with insulating barrier, the insulation when being beneficial to wash.Again, this first first supply unit 85 of receiving circuit arrangement 8 can be the up-to-date laminar soft battery of developing, and more is applicable on the product of human body wearing.

The above, it only is the preferable possible embodiments of the utility model, non-so promptly limit to claim of the present utility model, the equivalent structure that all utilization the utility model specifications and accompanying drawing content are done changes, and all reason is with being contained in the claim scope of the present utility model.

Claims (42)

1. but anti-pull-type ray structure that double-direction radio discharges and recharges is characterized in that: comprise a charge and discharge device, this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type ray structure comprises:

One braid;

At least two conduction twisted wires, respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and this two conduction twisted wire is knitted in this braid;

At least one luminescence component, this luminescence component is located in this braid, this luminescence component has an illuminating part and at least two conductive feet, and this illuminating part issued light penetrates outside this braid, and this two conductive feet electrically contacts with this two lead that conducts twisted wire respectively regularly each other; And

Receive circuit arrangement for one first, be electrically connected at the lead of this two conduction twisted wire, this first and second receive circuit arrangement toward each other.

2. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: wherein respectively the lead of this conduction twisted wire is the anti-lead that draws material.

3. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: wherein respectively this conductive feet of this luminescence component have one with the corresponding locating slot of this conduction twisted wire respectively, respectively this conduction twisted wire is positioned in the locating slot of this conductive feet respectively.

4. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: wherein respectively this conductive feet of this luminescence component has a location division, and respectively this conduction twisted wire is positioned the respectively location division of this conductive feet.

But 5. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 4, it is characterized in that: wherein respectively the location division of this conductive feet is an inserting hole, respectively this conduction twisted wire is interspersed in the inserting hole of this conductive feet respectively regularly.

6. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: wherein respectively this conduction twisted wire is coated with an insulating barrier, respectively this conductive feet of this luminescence component has a cutting tip, respectively the cutting tip of this conductive feet pierce through the conduction twisted wire insulating barrier and regularly with insulating barrier in lead electrically contact.

7. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: comprise a controller and a switch, receive circuit arrangement for this first and comprise one first supply unit, this controller, switch and first supply unit all are electrically connected at the lead of this two conduction twisted wire, and this controller is controlled the illumination mode of this luminescence component.

8. but the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 7, it is characterized in that: wherein this at least two conduction twisted wire comprises the conduction twisted wire of at least one control usefulness, and the conduction twisted wire of this control usefulness is electrically connected at this controller by its lead.

9. but the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: comprise an external piece, an a connector and a switch, this connector and switch all are electrically connected at the lead of this two conduction twisted wire, this external piece is provided with described first with one first supply unit and receives a circuit arrangement and a controller in order to control luminescence component illumination mode, this external piece also have one be electrically connected at this controller and with the corresponding corresponding connector of this connector, this external piece is then electrically communicated with the butt joint each other of this connector by this correspondence connector.

10. but the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 9, it is characterized in that: wherein this at least two conduction twisted wire comprises the conduction twisted wire of at least one control usefulness, and the conduction twisted wire of this control usefulness is electrically connected at this controller by its lead.

But 11. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 1,8 or 10, it is characterized in that: wherein respectively this conduction twisted wire is coated with an insulating barrier, and respectively this conduction twisted wire kinks together each other.

But 12. the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1 is characterized in that: wherein receive circuit arrangement and comprise one first storage power supply power apparatus and one first resonant circuit device for this first; And this second receipts circuit arrangement is corresponding with this first receipts circuit arrangement, receives circuit arrangement for this second and then comprises one second resonant circuit device and one second storage power supply power apparatus; Wherein:

This first storage power supply power apparatus, described connector then electrically connect with this first storage power supply power apparatus;

This first resonant circuit device electrically connects with this first storage power supply power apparatus;

This second resonant circuit device, the position is in the corresponding section of the position of first resonant circuit device;

This second storage power supply power apparatus electrically connects with this second resonant circuit device.

But 13. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 12, it is characterized in that: wherein this first storage power supply power apparatus includes:

One first control circuit device;

One first oscillating circuit device electrically connects with this first control circuit device; And

One first driving circuit device electrically connects with this first oscillating circuit device.

But 14. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 13, it is characterized in that: wherein this first storage power supply power apparatus comprises one first supply unit, and this first supply unit is electrically connected at this first control circuit device.

But 15. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 12, it is characterized in that: wherein this first resonant circuit device has at least two mos field effect transistor.

But 16. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 15, it is characterized in that: wherein this first resonant circuit device is at least one mos field effect transistor actuator state.

But 17. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 15, it is characterized in that: wherein this first resonant circuit device stops actuator state for all mos field effect transistor.

But 18. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 12, it is characterized in that: wherein this second storage power supply power apparatus includes:

One second driving circuit device electrically connects with this second resonant circuit device;

One second oscillating circuit device electrically connects with this second driving circuit device; And

One second control circuit device electrically connects with this second oscillating circuit device.

But 19. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 18, it is characterized in that: wherein this second storage power supply power apparatus comprises a second source device, and this first supply unit is electrically connected at this second control circuit device.

But 20. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 12, it is characterized in that: wherein this second resonant circuit device has at least two mos field effect transistor.

But 21. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 20, it is characterized in that: wherein this second resonant circuit device is at least one mos field effect transistor actuator state.

But 22. the anti-pull-type ray structure that discharges and recharges as double-direction radio as described in the claim 20, it is characterized in that: wherein this second resonant circuit device stops actuator state for all mos field effect transistor.

But 23. the anti-pull-type ray structure that discharges and recharges of double-direction radio according to claim 1, it is characterized in that: wherein this charge and discharge device can be located, and described location then is clamping, bind, bonding and one of them of absorption mutually.

24. but the anti-pull-type heat radiating structure that double-direction radio discharges and recharges is characterized in that: comprise a charge and discharge device, this charge and discharge device has second and receives circuit arrangement, and this anti-pull-type heat radiating structure comprises:

At least one carrier;

At least one heat generating component, this heat generating component are arranged on this carrier;

At least two conduction twisted wires, respectively this conduction twisted wire has at least one anti-backguy and at least one lead that kinks each other together, and lead one end of this two conduction twisted wire is electrically connected at this heat generating component; And

Receive circuit arrangement for one first, the lead that is electrically connected at this two conduction twisted wire is end in addition, this first and second receive circuit arrangement toward each other.

But 25. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24, it is characterized in that: wherein the lead of this conduction twisted wire is the anti-lead that draws material.

But 26. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24, it is characterized in that: wherein this carrier has a temperature-uniforming plate, and this heat generating component is contacted with this temperature-uniforming plate.

27. but the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24, it is characterized in that: comprise a switch, receive circuit arrangement for this first and comprise one first supply unit, this switch and the first supply unit utilization are conducted twisted wire and electrically are serially connected with this heat generating component.

But 28. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 27 is characterized in that: comprise a controller, this switch, first supply unit and controller utilization conduction twisted wire and electrically be serially connected with this heat generating component.

29. but the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24, it is characterized in that: comprise an external piece, a connector and a switch, this connector and switch all utilize the conduction twisted wire and electrically are serially connected with this heat generating component, this external piece be provided with described have first of one first supply unit receive circuit arrangement and one with the corresponding corresponding connector of this connector, this correspondence connector electrically communicates with this first supply unit, and this external piece is then electrically communicated with the butt joint each other of this connector by this correspondence connector.

But 30. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 29, it is characterized in that: wherein this external piece comprises a controller, and the corresponding connector of this external piece and first supply unit electrically communicate with this controller.

But 31. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24 is characterized in that: wherein receive circuit arrangement and comprise one first storage power supply power apparatus and one first resonant circuit device for this first; And this second receipts circuit arrangement is corresponding with this first receipts circuit arrangement, receives circuit arrangement for this second and then comprises one second resonant circuit device and one second storage power supply power apparatus; Wherein:

This first storage power supply power apparatus, described connector then electrically connect with this first storage power supply power apparatus;

This first resonant circuit device electrically connects with this first storage power supply power apparatus;

This second resonant circuit device, the position is in the corresponding section of the position of first resonant circuit device;

This second storage power supply power apparatus electrically connects with this second resonant circuit device.

But 32. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 31, it is characterized in that: wherein this first storage power supply power apparatus includes:

One first control circuit device;

One first oscillating circuit device electrically connects with this first control circuit device; And

One first driving circuit device electrically connects with this first oscillating circuit device.

But 33. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 32, it is characterized in that: wherein this first storage power supply power apparatus comprises one first supply unit, and this first supply unit is electrically connected at this first control circuit device.

But 34. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 31, it is characterized in that: wherein this first resonant circuit device has at least two mos field effect transistor.

But 35. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 34, it is characterized in that: wherein this first resonant circuit device is at least one mos field effect transistor actuator state.

But 36. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 34, it is characterized in that: wherein this first resonant circuit device stops actuator state for all mos field effect transistor.

But 37. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 31, it is characterized in that: wherein this second storage power supply power apparatus includes:

One second driving circuit device electrically connects with this second resonant circuit device;

One second oscillating circuit device electrically connects with this second driving circuit device; And

One second control circuit device electrically connects with this second oscillating circuit device.

But 38. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 37, it is characterized in that: wherein this second storage power supply power apparatus comprises a second source device, and this first supply unit is electrically connected at this second control circuit device.

But 39. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 31, it is characterized in that: wherein this second resonant circuit device has at least two mos field effect transistor.

But 40. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 39, it is characterized in that: wherein this second resonant circuit device is at least one mos field effect transistor actuator state.

But 41. the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 39, it is characterized in that: wherein this second resonant circuit device stops actuator state for all mos field effect transistor.

42. but the anti-pull-type heat radiating structure that discharges and recharges as double-direction radio as described in the claim 24, it is characterized in that: wherein this charge and discharge device can be located, and described location then is clamping, bind, bonding and one of them of absorption mutually.

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