CN207285263U - A kind of clothes heat generating device - Google Patents

Abstract

Garment technology field is the utility model is related to, more particularly to a kind of clothes heat generating device, it includes nickel plating fiber, silver plated fiber, gold-plated fiber, and three kinds of conductive metallic fibers and polyester fiber are blended, forms fever pieces of cloth；Copper foil conductive sheet is suppressed in the both sides of fever pieces of cloth respectively, forms the copper foil conductive sheet of positive and negative anodes；Nickel plating fiber, silver plated fiber, gold-plated fiber both ends are electrically connected with the copper foil conductive sheet of positive and negative anodes respectively；The copper foil conductive sheet of positive and negative anodes is connected by conducting wire with controller, and controller is built-in with control assembly；It has good electric conductivity, thermal conductivity, flexibility, washability, biocidal property, its manufacture craft is simple, and application scenarios are extensive.Change technology shortcoming of the exothermic material traditional in the past in terms of frivolous, soft, bending.

Description

A kind of clothes heat generating device

Technical field

Garment technology field is the utility model is related to, more particularly to a kind of clothes heat generating device.

Background technology

Clothes, refer to the general name of clothes footwear bag toy ornament etc., refer to clothes more.Clothes are early stage human social development Just occur, a variety of materials that can be found at one's side is made coarse and crude " clothes " to flak jacket by men of old.The initial clothes of the mankind Be with made of animal skin, wrap up earliest " fabric " of body with bast-fibre and grass system etc. into.With carrying for people's living standard Height, requirement of the people for clothes are also higher and higher.Traditional dress only has the function of heat-insulating and cold and hides body, it cannot be actively Fever, causes function single.Also have in traditional clothes and used using heating wire or carbon fibre material as heat generating member, but it is electric Heated filament be mostly copper wire make, the big security of power consumption is poor, flexibility it is poor and also it is not washable be not suitable for clothes fever.Carbon fiber is sent out Although heated filament is soft, material is not water-fastness.And heating wire it is maximum the problem of it can only line fever, heating region is uneven. If a kind of metal material its resistance value is used alone generally all in 4 more than Ω, the too high heating effect of resistance value is undesirable, and Single material is gold-plated to be also easy to come off when daily cleaning.

Utility model content

The purpose of this utility model is that the defects of being directed to the prior art and deficiency, there is provided a kind of clothes heat generating device.

To achieve the above object, the technical solution adopted in the utility model is：

A kind of clothes heat generating device described in the utility model, it includes nickel plating fiber, silver plated fiber, gold-plated fiber, Three kinds of conductive metallic fibers and polyester fiber are blended, form fever pieces of cloth；Copper foil conductive sheet is suppressed in the both sides of fever pieces of cloth respectively, Form the copper foil conductive sheet of positive and negative anodes；Nickel plating fiber, silver plated fiber, gold-plated fiber both ends the copper foil conductive sheet with positive and negative anodes respectively It is electrically connected；The copper foil conductive sheet of positive and negative anodes is connected by conducting wire with controller, and controller is built-in with control assembly；

Further, the control assembly includes PCB circuit board, and BLE+MCU master control lists are embedded with the PCB circuit board Member, T-OUT units, T-Sensor units, POWER+KEY units, Led+RBW units；The BLE+MCU main control units respectively with T-OUT units, POWER+KEY units, Led+RBW units are electrically connected；

Further, the BLE+MCU main control units include U1 microcontrollers, and the 1st to the 12nd is provided with the left of U1 microcontrollers Foot, its bottom are provided with the 24th feet of 13-, its right side is provided with the 36th feet of 25-, its top is provided with the 37th to the 48th foot；

Wherein：1st foot connection capacitance C11；7th foot connection USB_DET terminations；8th foot connects NTC --- DET terminations； The 21st feet of 17- connect SN_OFF/ON terminations, RTC_ON terminations, W terminations, B terminations and R terminations respectively；23- the 24th feet point Not Lian Jie TXDO and RXTO terminations, TXDO and RXTO terminations are connected with T2 terminations and T1 terminations respectively；29th foot connects capacitance C9；31st foot connects inductance L2, and inductance L2 connects with capacitance C7；32nd foot is connected with capacitance C13, capacitance C13 and L1 inductance strings Connection, L3 inductance in parallel is between capacitance C13 and L2 inductance；36th foot is connected with capacitance C12, and C1 is in parallel with C12；37-39 feet It is connected with capacitance C3 respectively, capacitance C4, capacitance C5, capacitance C3, capacitance C4 and capacitance C5 are in parallel；

Further, the T-OUT units include the two field-effect tube Q1 and field-effect tube Q2 being cascaded, field effect Should pipe Q2 one end connect with T13 terminations, T13 terminations are Fever+ ends；The field-effect tube Q2 other ends are connected with conventional, electric-resistance R22, Conventional, electric-resistance R19 one end is in parallel with conventional, electric-resistance R22, and the conventional, electric-resistance R19 other ends are connected with TTC_ON terminations；Field-effect tube Q1 One end be connected with conventional, electric-resistance R18, it is in parallel with field-effect tube Q2 one end；Capacitance C10, C4 are in parallel, capacitance C8 one end and T5 ends Head is connected, and T5 terminations are GND terminations, and capacitance C10 one end is connected with T6 terminations, and T6 terminations are DCIN ends；The capacitance C8 other ends with T12 terminations are connected, and T12 terminations are Fever- ends；Conventional, electric-resistance R33, R34 connects and is connected with T12 terminations, USB_DET terminations It is in parallel with conventional, electric-resistance R33；

Further, the T-Sensor units include capacitance C16, and capacitance C16 connects with conventional, electric-resistance R3, conventional, electric-resistance The other end of R3 is connected with VCC30 ends；T3 terminations, T4 terminations are in parallel with C16, T3 terminations, T4 terminations be respectively AGND ends and NTC_DET ends；

Further, the POWER+KEY units include voltage stabilizing LDO chip U2, the 3rd foot of voltage stabilizing LDO chips U2 with The diode D2 of model IN5819 is connected, and capacitance C15 is connected in parallel on the conducting wire of diode D2；The 2nd foot of voltage stabilizing LDO chips U2 Hold and be connected with the capacitance C17 and C18 being connected in parallel；One end of capacitance C17 is connected with VCC30 ends；SW_OFF/ON terminations with it is general Be powered resistance R1 series connection, and the conventional, electric-resistance R1 other ends are connected with the switch of controller 7；

Further, the Led+RBW units include being connected in parallel on Light-Emitting Diode D5, D4 on conducting wire, D3, D1, D6, D7、D8、D9、D10、D11、D13、D12；

Wherein：Light-Emitting Diode D5, D4, D3, D1 are one group, are connected with conventional, electric-resistance R5, the conventional, electric-resistance R5 other ends and R Termination is connected；

Light emitting diode D6, D7, D8, D9 are one group, are connected with conventional, electric-resistance R6, the other end and the W ends of conventional, electric-resistance R6 Head is connected；

Light emitting diode D10, D11, D13, D12 are one group, are connected with conventional, electric-resistance R7, conventional, electric-resistance R7 and B terminations phase Even.

Further, the U1 microcontrollers are the microcontrollers of model NRD51822.

Further, the field-effect tube Q1 and Q2 is model AO3400 field-effect tube.

Further, the voltage stabilizing LDO chips U2 is the voltage stabilizing LDO chips of model XC6206.

With the above structure, the utility model has the beneficial effect that：A kind of clothes described in the utility model are filled with fever Put, it adds polyester fiber is blended to form using three kinds of gold, silver, nickel conductive metallic fibers, has very high electric conductivity, tool actual measurement Resistance value only has 0.2 Ω；With good electric conductivity, thermal conductivity, flexibility, washability, biocidal property, its manufacture craft is simple, Application scenarios are extensive.Change technology shortcoming of the exothermic material traditional in the past in terms of frivolous, soft, bending.

Brief description of the drawings

Fig. 1 is the structure diagram of the utility model；

The circuit structure diagram of the BLE+MCU main control units of Fig. 2 the utility model；

The circuit structure diagram of the T-OUT units of Fig. 3 the utility model；

The circuit structure diagram of the T-Sensor units of Fig. 4 the utility model；

The circuit structure diagram of the POWER+KEY units of Fig. 5 the utility model；

The circuit structure diagram of the Led+RBW units of Fig. 6 the utility model.

Description of reference numerals：

1st, generate heat pieces of cloth；2nd, copper foil conductive sheet；3rd, nickel plating fiber；4th, silver plated fiber；5th, gold-plated fiber；6th, polyester fiber； 7th, controller；8th, control assembly.

Embodiment

The utility model will be further described below with reference to the accompanying drawings.

As shown in Figure 1, a kind of clothes heat generating device described in the utility model, it includes nickel plating fiber 3, silver plated fiber 4th, gold-plated fiber 5, three kinds of conductive metallic fibers and polyester fiber 6 are blended, form fever pieces of cloth 1；The both sides difference of fever pieces of cloth 1 Copper foil conductive sheet 2 is suppressed, forms the copper foil conductive sheet 2 of positive and negative anodes；Nickel plating fiber 3, silver plated fiber 4,5 both ends of gold-plated fiber difference It is electrically connected with the copper foil conductive sheet 2 of positive and negative anodes；The copper foil conductive sheet 2 of positive and negative anodes is connected by conducting wire with controller 7, controller 7 It is built-in with control assembly 8；

The control assembly 8 includes PCB circuit board, and it is mono- to be embedded with BLE+MCU main control units, T-OUT in the PCB circuit board Member, T-Sensor units, POWER+KEY units, Led+RBW units；The BLE+MCU main control units are mono- with T-OUT respectively Member, POWER+KEY units, Led+RBW units are electrically connected；

As shown in Fig. 2, the BLE+MCU main control units include U1 microcontrollers, the 1st to the 12nd is provided with the left of U1 microcontrollers Foot, its bottom are provided with the 24th feet of 13-, its right side is provided with the 36th feet of 25-, its top is provided with the 37th to the 48th foot；

Wherein：1st foot connection capacitance C11；7th foot connection USB_DET terminations；8th foot connects NTC --- DET terminations； The 21st feet of 17- connect SN_OFF/ON terminations, RTC_ON terminations, W terminations, B terminations and R terminations respectively；23- the 24th feet point Not Lian Jie TXDO and RXTO terminations, TXDO and RXTO terminations are connected with T2 terminations and T1 terminations respectively；29th foot connects capacitance C9；31st foot connects inductance L2, and inductance L2 connects with capacitance C7；32nd foot is connected with capacitance C13, capacitance C13 and L1 inductance strings Connection, L3 inductance in parallel is between capacitance C13 and L2 inductance；36th foot is connected with capacitance C12, and C1 is in parallel with C12；37-39 feet It is connected with capacitance C3 respectively, capacitance C4, capacitance C5, capacitance C3, capacitance C4 and capacitance C5 are in parallel；

As shown in figure 3, the T-OUT units include the two field-effect tube Q1 and field-effect tube Q2 being cascaded, field Effect pipe Q2 one end is connected with T13 terminations, and T13 terminations are Fever+ ends；The field-effect tube Q2 other ends are gone here and there with conventional, electric-resistance R22 Connection, conventional, electric-resistance R19 one end is in parallel with conventional, electric-resistance R22, and the conventional, electric-resistance R19 other ends are connected with TTC_ON terminations；Field-effect One end of pipe Q1 is connected with conventional, electric-resistance R18, in parallel with field-effect tube Q2 one end；Capacitance C10, C4 are in parallel, capacitance C8 one end with T5 terminations are connected, and T5 terminations are GND terminations, and capacitance C10 one end is connected with T6 terminations, and T6 terminations are DCIN ends；Capacitance C8 is another End is connected with T12 terminations, and T12 terminations are Fever- ends；Conventional, electric-resistance R33, R34 connects and is connected with T12 terminations, USB_DET Termination is in parallel with conventional, electric-resistance R33；

As shown in figure 4, the T-Sensor units include capacitance C16, capacitance C16 connects with conventional, electric-resistance R3, common electricity The other end of resistance R3 is connected with VCC30 ends；T3 terminations, T4 terminations are in parallel with C16, T3 terminations, T4 terminations be respectively AGND ends and NTC_DET ends；

As shown in figure 5, the POWER+KEY units include voltage stabilizing LDO chip U2, the 3rd foot of voltage stabilizing LDO chips U2 It is connected with the diode D2 of model IN5819, capacitance C15 is connected in parallel on the conducting wire of diode D2；The of voltage stabilizing LDO chips U2 2 foots are connected with the capacitance C17 and C18 being connected in parallel；One end of capacitance C17 is connected with VCC30 ends；SW_OFF/ON terminations Connect with conventional, electric-resistance R1, the conventional, electric-resistance R1 other ends are connected with the switch of controller 7；

As shown in fig. 6, the Led+RBW units include being connected in parallel on Light-Emitting Diode D5, D4 on conducting wire, D3, D1, D6, D7、D8、D9、D10、D11、D13、D12；

Wherein：Light-Emitting Diode D5, D4, D3, D1 are one group, are connected with conventional, electric-resistance R5, the conventional, electric-resistance R5 other ends and R Termination is connected；

Light emitting diode D6, D7, D8, D9 are one group, are connected with conventional, electric-resistance R6, the other end and the W ends of conventional, electric-resistance R6 Head is connected；

Light emitting diode D10, D11, D13, D12 are one group, are connected with conventional, electric-resistance R7, conventional, electric-resistance R7 and B terminations phase Even.

Preferably, the U1 microcontrollers are the microcontrollers of model NRD51822 to one kind as the utility model.

Preferably, the field-effect tube Q1 and Q2 is model AO3400 field-effect tube to one kind as the utility model.

Preferably, the voltage stabilizing LDO chips U2 is the voltage stabilizing LDO cores of model XC6206 to one kind as the utility model Piece.

The operation principle of the utility model is as follows：

The design is first using gold, silver, on three kinds of noble metal vacuum metallizings of nickel to yarn, it is advantageous that improving 20 times Electric conductivity controls resistance value to this zone of reasonableness of 0.2 Ω.The product electrothermal calefactive rate is fast, low in energy consumption, far infrared wavelength more Meet health, water-fastness, frivolous softness, be more applicable for clothing product and be used for the application such as heat generating and retention.

Using the technique of vacuum metallizing metallic fiber (nickel plating fiber, silver plated fiber is respectively prepared in gold, silver, nickel by the design With gold-plated fiber), then by these three metallic fibers by textile clothing technology with polyester fiber it is blended become a monoblock cloth, Copper foil conductive sheet is pressed in two using high temperature hot pressure mode and becomes the conductor of cathode and anode, general by warp thread cross section two Positive and negative polarity wire is connected to the intelligent control host containing 1000 milliampere hour above batteries, forms fever pieces of cloth；To generate heat pieces of cloth again If it is sewn into clothing sandwich, clothes temperature can be controlled by controlling switch, adding NTC temperature in fever pieces of cloth Degree probe, then MCU controllers will program calculate automatically and control clothes heating temp value, reach the function of intelligent constant-temperature.

The above is only the better embodiment of the utility model, therefore all according to described in the utility model patent application range The equivalent change or modification done of construction, feature and principle, be included in the utility model patent application range.

Claims (10)

1. A kind of 1. clothes heat generating device, it is characterised in that：It includes nickel plating fiber, silver plated fiber, gold-plated fiber, three kinds of conductions Metallic fiber and polyester fiber are blended, form fever pieces of cloth；Copper foil conductive sheet is suppressed in the both sides of fever pieces of cloth respectively, is formed positive and negative The copper foil conductive sheet of pole；Nickel plating fiber, silver plated fiber, gold-plated fiber both ends are electrically connected with the copper foil conductive sheet of positive and negative anodes respectively； The copper foil conductive sheet of positive and negative anodes is connected by conducting wire with controller, and controller is built-in with control assembly.
2. A kind of 2. clothes heat generating device according to claim 1, it is characterised in that：The control assembly includes PCB lines Road plate, be embedded with the PCB circuit board BLE+MCU main control units, T-OUT units, T-Sensor units, POWER+KEY units, Led+RBW units；The BLE+MCU main control units are electrically connected with T-OUT units, POWER+KEY units, Led+RBW units respectively Connect.
3. A kind of 3. clothes heat generating device according to claim 2, it is characterised in that：The BLE+MCU main control units bag U1 microcontrollers are included, the 1st to the 12nd foot is provided with the left of U1 microcontrollers, its bottom is provided with the 24th feet of 13-, its right side is provided with The 36th feet of 25-, its top are provided with the 37th to the 48th foot；

   Wherein：1st foot connection capacitance C11；7th foot connection USB_DET terminations；8th foot connects NTC --- DET terminations；17- 21st foot connects SN_OFF/ON terminations, RTC_ON terminations, W terminations, B terminations and R terminations respectively；The 24th feet of 23- connect respectively TXDO and RXTO terminations, TXDO and RXTO terminations are connected with T2 terminations and T1 terminations respectively；29th foot connection capacitance C9；31st foot Inductance L2 is connected, inductance L2 connects with capacitance C7；32nd foot is connected with capacitance C13, and capacitance C13 connects with L1 inductance, L3 inductance It is connected in parallel between capacitance C13 and L2 inductance；36th foot is connected with capacitance C12, and C1 is in parallel with C12；37-39 feet and capacitance respectively C3, capacitance C4, capacitance C5 are connected, and capacitance C3, capacitance C4 and capacitance C5 are in parallel.
4. A kind of 4. clothes heat generating device according to claim 2, it is characterised in that：The T-OUT units include two The field-effect tube Q1 and field-effect tube Q2 being cascaded, field-effect tube Q2 one end are connected with T13 terminations, and T13 terminations are Fever + end；The field-effect tube Q2 other ends are connected with conventional, electric-resistance R22, and conventional, electric-resistance R19 one end is in parallel with conventional, electric-resistance R22, common electricity The resistance R19 other ends are connected with TTC_ON terminations；One end of field-effect tube Q1 is connected with conventional, electric-resistance R18, with field-effect tube Q2 mono- End is in parallel；Capacitance C10, C4 are in parallel, and capacitance C8 one end is connected with T5 terminations, and T5 terminations are GND terminations, capacitance C10 one end and T6 Termination is connected, and T6 terminations are DCIN ends；The capacitance C8 other ends are connected with T12 terminations, and T12 terminations are Fever- ends；Conventional, electric-resistance R33, R34 connect and are connected with T12 terminations, and USB_DET terminations are in parallel with conventional, electric-resistance R33.
5. A kind of 5. clothes heat generating device according to claim 2, it is characterised in that：The T-Sensor units include electricity Hold C16, capacitance C16 connects with conventional, electric-resistance R3, and the other end of conventional, electric-resistance R3 is connected with VCC30 ends；T3 terminations, T4 terminations with C16 is in parallel, and T3 terminations, T4 terminations are respectively AGND ends and NTC_DET ends.
6. A kind of 6. clothes heat generating device according to claim 2, it is characterised in that：The POWER+KEY units include Voltage stabilizing LDO chip U2, the 3rd foot of voltage stabilizing LDO chips U2 are connected with the diode D2 of model IN5819, and capacitance C15 is in parallel On the conducting wire of diode D2；The 2nd foot of voltage stabilizing LDO chips U2 is connected with the capacitance C17 and C18 being connected in parallel；Capacitance One end of C17 is connected with VCC30 ends；SW_OFF/ON terminations are connected with conventional, electric-resistance R1, the conventional, electric-resistance R1 other ends and controller 7 switch is connected.
7. A kind of 7. clothes heat generating device according to claim 2, it is characterised in that：The Led+RBW units are included simultaneously Light-Emitting Diode D5, D4, D3, D1, D6, D7, D8, D9, D10, D11, D13, the D12 being associated on conducting wire；

   Wherein：Light-Emitting Diode D5, D4, D3, D1 are one group, are connected with conventional, electric-resistance R5, the conventional, electric-resistance R5 other ends and R terminations It is connected；

   Light emitting diode D6, D7, D8, D9 are one group, are connected with conventional, electric-resistance R6, the other end and the W terminations phase of conventional, electric-resistance R6 Even；

   Light emitting diode D10, D11, D13, D12 are one group, are connected with conventional, electric-resistance R7, conventional, electric-resistance R7 is connected with B terminations.
8. A kind of 8. clothes heat generating device according to claim 3, it is characterised in that：The U1 microcontrollers are models The microcontroller of NRD51822.
9. A kind of 9. clothes heat generating device according to claim 4, it is characterised in that：The field-effect tube Q1 and Q2 is Model AO3400 field-effect tube.
10. A kind of 10. clothes heat generating device according to claim 6, it is characterised in that：The voltage stabilizing LDO chips U2 is type Number be XC6206 voltage stabilizing LDO chips.