CN210076657U - Self-warming gloves - Google Patents
Self-warming gloves Download PDFInfo
- Publication number
- CN210076657U CN210076657U CN201822261562.8U CN201822261562U CN210076657U CN 210076657 U CN210076657 U CN 210076657U CN 201822261562 U CN201822261562 U CN 201822261562U CN 210076657 U CN210076657 U CN 210076657U
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- chip
- resistance wire
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- processor
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Abstract
Self-warming gloves. The utility model relates to a self-warming glove. The resistance wire (2) and the microelectronic processor (3) are both arranged at the back of the hand of the glove body (1), the temperature sensor (4) is arranged at the finger position of the glove body (1), and the temperature sensor (4), the resistance wire (2) and the microelectronic processor (3) are connected through leads; the temperature sensor (4) transmits a signal to the microelectronic processor (3), and the microelectronic processor (3) controls the resistance wire (2) to heat. The utility model discloses a gloves are inside to have temperature sensor, sense the temperature and be less than human body temperature 36.5 when, and micro-electronic processor begins to move, transmits for the resistance wire and generates heat, and when the temperature was higher than 37, micro-electronic processor transmitted a low level, closed resistance wire heating function to guarantee human safety and comfortable.
Description
The technical field is as follows:
the utility model relates to a self-warming glove.
Background art:
in cold northern winter, particularly for people riding motorcycles or electric vehicles, although the cotton-padded clothes can be used for keeping warm, the hands are still cold due to insufficient heat generated by various reasons, and then the problems of frost cracking, frostbite and the like exist mostly.
The invention content is as follows:
the utility model aims at providing a from warm gloves, gloves are inside to have temperature sensor, sense the temperature and be less than human body temperature 36.5 when, and micro-electronic processor begins the action, transmits for the resistance wire and generates heat, and when the temperature was higher than 37, micro-electronic processor transmitted a low level, closed resistance wire heating function to guarantee human safety and comfortable.
The above purpose is realized by the following technical scheme:
a self-warming glove, comprising: the glove comprises a glove body 1, a resistance wire 2 and a micro-electronic processor 3 are arranged in an interlayer of the glove body 1, a temperature sensor 4 is arranged in the glove body 1,
the resistance wire 2, the battery and the microelectronic processor 3 are all arranged at the back of the hand of the glove body 1, the temperature sensor 4 is arranged at the finger position of the glove body 1, and the temperature sensor 4, the resistance wire 2 and the microelectronic processor 3 are all connected through leads;
the temperature sensor 4 transmits a signal to the microelectronic processor 3, and the microelectronic processor 3 controls the resistance wire 2 to heat.
Furthermore, the microelectronic processor 3 includes a chip U1A, a chip U1B, a chip U1C and a chip U1D, the 41 end of the chip U1A is connected in series with the switch S1 and then grounded, the 28 end of the chip U1A is connected in series with the resistor R15 and then grounded, the 61 end of the chip U1A is connected with the 10 end of the chip U3, the 62 end of the chip U1A is connected with the 9 end of the chip U3,
the port No. 11 of the chip U1B is connected with the port No. 2 of the chip U3,
the No. 42 end of the chip U1A is connected with the No. 2 end of a resistance wire U5, the No. 1 end of the resistance wire U5 is connected with the working voltage +5V, the No. 3 end of the resistance wire U5 is grounded,
the No. 4 end of the chip U3 is connected with the No. 3 end of the chip U4, the No. 5 end of the chip U3 is connected with the No. 2 end of the chip U4, the No. 1 end of the chip U4 is connected with the working voltage +5V, the No. 43 end of the chip U4 is grounded,
furthermore, the No. 1 end of the chip U3 is connected with the No. 3 end of the chip U3, one end of the capacitor C7 and the ground end, and the other end of the capacitor C7 is connected with the No. 8 end of the chip U3 and the working voltage + 5V.
Furthermore, the 60 th end of the chip U1C is connected in series with the resistor R16 and then grounded, the 7 th end of the chip U1C is connected with one end of the resistor R17 and one end of the capacitor C28, the other end of the resistor R17 is connected with the working voltage +3.3V, the other end of the capacitor C28 is grounded, the 31 st end of the chip U1C is connected with one end of the capacitor C30, the 47 th end of the chip U1C is connected with one end of the capacitor C29, the other end of the capacitor C30 is connected with the other end of the capacitor C29 and then grounded,
the No. 5 end of the chip U1C is connected with the No. 3 end of the crystal oscillator X2, the No. 2 end of the crystal oscillator X2 is grounded, and the No. 4 end of the crystal oscillator X2 is connected with the working voltage + 3.3V.
Furthermore, the terminal No. 1 of the chip U1D is connected to the voltage VDDA, the terminal No. 19 of the chip U1D is connected to the terminal No. 32 of the chip U1D, the terminal No. 48 of the chip U1D, the terminal No. 64 of the chip U1D and the working voltage 3.3V, the terminal No. 13 of the chip U1D is connected to the voltage VDDA,
the No. 18 end of the chip U1D is connected with the No. 63 end of the chip U1D and the No. 12 end of the chip U1D and then grounded.
Has the advantages that:
1. the utility model discloses automatic temperature sensing heats convenient to use.
2. The utility model discloses have the switch, can close when not, the energy saving.
3. The utility model discloses the voltage is lower, can also not injure the harm people under accidents such as electric leakage.
4. The cotton material of the utility model has better heat preservation and can save electric energy.
5. The utility model discloses can form thermal cycle between hand and gloves after the heating, maintain the heat degree of being no less than 15 minutes.
Description of the drawings:
fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a circuit diagram of (2a) chip U1A, (2b) chip U1B, (2c) chip U1C, (2d) chip U1D, (2e) crystal oscillator X2, and (2f) chip U3 according to the present invention.
Fig. 3 is a circuit diagram of the temperature sensor of the present invention.
Fig. 4 is a resistance wire circuit diagram of the present invention.
The specific implementation mode is as follows:
a self-warming glove, comprising: the glove comprises a glove body 1, a resistance wire 2 and a micro-electronic processor 3 are arranged in an interlayer of the glove body 1, a temperature sensor 4 is arranged in the glove body 1,
the resistance wire 2, the battery and the microelectronic processor 3 are all arranged at the back of the hand of the glove body 1, the temperature sensor 4 is arranged at the finger position of the glove body 1, and the temperature sensor 4, the resistance wire 2 and the microelectronic processor 3 are all connected through leads;
the temperature sensor 4 transmits a signal to the microelectronic processor 3, and the microelectronic processor 3 controls the resistance wire 2 to heat.
Furthermore, the microelectronic processor 3 includes a chip U1A, a chip U1B, a chip U1C and a chip U1D, the 41 end of the chip U1A is connected in series with the switch S1 and then grounded, the 28 end of the chip U1A is connected in series with the resistor R15 and then grounded, the 61 end of the chip U1A is connected with the 10 end of the chip U3, the 62 end of the chip U1A is connected with the 9 end of the chip U3,
the port No. 11 of the chip U1B is connected with the port No. 2 of the chip U3,
the No. 42 end of the chip U1A is connected with the No. 2 end of a resistance wire U5, the No. 1 end of the resistance wire U5 is connected with the working voltage +5V, the No. 3 end of the resistance wire U5 is grounded,
the No. 4 end of the chip U3 is connected with the No. 3 end of the chip U4, the No. 5 end of the chip U3 is connected with the No. 2 end of the chip U4, the No. 1 end of the chip U4 is connected with the working voltage +5V, the No. 43 end of the chip U4 is grounded,
furthermore, the No. 1 end of the chip U3 is connected with the No. 3 end of the chip U3, one end of the capacitor C7 and the ground end, and the other end of the capacitor C7 is connected with the No. 8 end of the chip U3 and the working voltage + 5V.
Furthermore, the 60 th end of the chip U1C is connected in series with the resistor R16 and then grounded, the 7 th end of the chip U1C is connected with one end of the resistor R17 and one end of the capacitor C28, the other end of the resistor R17 is connected with the working voltage +3.3V, the other end of the capacitor C28 is grounded, the 31 st end of the chip U1C is connected with one end of the capacitor C30, the 47 th end of the chip U1C is connected with one end of the capacitor C29, the other end of the capacitor C30 is connected with the other end of the capacitor C29 and then grounded,
the No. 5 end of the chip U1C is connected with the No. 3 end of the crystal oscillator X2, the No. 2 end of the crystal oscillator X2 is grounded, and the No. 4 end of the crystal oscillator X2 is connected with the working voltage + 3.3V.
Furthermore, the terminal No. 1 of the chip U1D is connected to the voltage VDDA, the terminal No. 19 of the chip U1D is connected to the terminal No. 32 of the chip U1D, the terminal No. 48 of the chip U1D, the terminal No. 64 of the chip U1D and the working voltage 3.3V, the terminal No. 13 of the chip U1D is connected to the voltage VDDA,
the No. 18 end of the chip U1D is connected with the No. 63 end of the chip U1D and the No. 12 end of the chip U1D and then grounded.
The ports 19, 32, 48 and 64 of the microelectronic processor U1D are connected with the working voltage of 3.3V, the ports 1 and 13 of the microelectronic processor U1D are connected with the voltage VDDA, and the ports 12, 18 and 63 of the microelectronic processor U1D are shorted to the ground for electrifying the microelectronic processor U7.
The No. 60 port of the microelectronic processor U1 is grounded through a 10k resistor, one end of the No. 7 port of the microelectronic processor U1C is connected with 3.3V working voltage through a 100k resistor, and the other end of the No. 7 port is grounded through a 0.1 microfarad capacitor; the No. 31 port of the microelectronic processor U1C is grounded through a capacitor of 2.2 microfarads; the No. 47 port of the microelectronic processor U1C is grounded through a capacitor of 2.2 microfarads; the port 5 of the microelectronic processor U7 is connected to the port 3 of the crystal oscillator module for providing a reference frequency to the microelectronic processor.
The No. 11 port of the microelectronic processor U1B is connected with the No. 2 port of the AD conversion module, the No. 4 and No. 5 ports of the AD conversion module are connected with the No. 3 and No. 2 ports of the temperature sensor, the No. 1 port of the temperature sensor is connected with +5V working voltage, the No. 4 port of the temperature sensor is grounded, the No. 1 and No. 3 ports of the AD conversion module are connected with ground and are connected with the No. 8 port through a capacitor of 0.1 microfarad, the No. 8 port of the AD conversion module is connected with 5V working voltage, and the No. 61 and No. 62 ports of the microelectronic processor U7 with No. 9 and No. 10 ports; the signal acquisition module is used for transmitting signals acquired by each sensor to the AD conversion module, and transmitting the signals to the microelectronic processor U7 through the No. 2 port of the AD conversion module to process data.
The No. 41 port of the microelectronic processor U1A is grounded through a switch and is used for controlling the disconnection problem of the whole circuit;
the No. 42 port of the microelectronic processor U1A is connected with the No. 2 port of the resistance wire, and is used for heating the temperature in the glove.
The glove body mainly comprises cotton fabrics, the inner side of the glove body is made of pure cotton cloth, the outer surface of the glove body is as same as that of the outer sleeve, the glove body is light and convenient to use, after a person wears the glove, when the body surface temperature is lower than 36.5 degrees, the temperature sensor transmits a signal to the micro-electronic processor, the micro-electronic processor gives a signal to the resistance wire, the resistance wire starts to work, the body feeling temperature of the person is kept, and the comfort degree of the person is kept.
Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.
Claims (5)
1. A self-warming glove, comprising: gloves body (1), characterized by: a resistance wire (2) and a micro-electronic processor (3) are arranged in an interlayer of the glove body (1), a temperature sensor (4) is arranged in the glove body (1),
the resistance wire (2), the battery and the microelectronic processor (3) are all arranged at the back of the hand of the glove body (1), the temperature sensor (4) is arranged at the finger position of the glove body (1), and the temperature sensor (4), the resistance wire (2) and the microelectronic processor (3) are all connected through leads;
the temperature sensor (4) transmits a signal to the microelectronic processor (3), and the microelectronic processor (3) controls the resistance wire (2) to heat.
2. The self-warming glove of claim 1, wherein: the microelectronic processor (3) comprises a chip U1A, a chip U1B, a chip U1C and a chip U1D, wherein the No. 41 end of the chip U1A is connected with a switch S1 in series and then grounded, the No. 28 end of the chip U1A is connected with a resistor R15 in series and then grounded, the No. 61 end of the chip U1A is connected with the No. 10 end of the chip U3, the No. 62 end of the chip U1A is connected with the No. 9 end of the chip U3,
the port No. 11 of the chip U1B is connected with the port No. 2 of the chip U3,
the No. 42 end of the chip U1A is connected with the No. 2 end of a resistance wire U5, the No. 1 end of the resistance wire U5 is connected with the working voltage +5V, the No. 3 end of the resistance wire U5 is grounded,
the No. 4 end of the chip U3 is connected with the No. 3 end of the chip U4, the No. 5 end of the chip U3 is connected with the No. 2 end of the chip U4, the No. 1 end of the chip U4 is connected with the working voltage +5V, and the No. 43 end of the chip U4 is grounded.
3. The self-warming glove of claim 2, wherein: the No. 1 end of the chip U3 is connected with the No. 3 end of the chip U3, one end of the capacitor C7 and the ground end, and the other end of the capacitor C7 is connected with the No. 8 end of the chip U3 and the working voltage + 5V.
4. The self-warming glove of claim 2, wherein: the 60 th end of the chip U1C is grounded after being connected with a resistor R16 in series, the 7 th end of the chip U1C is connected with one end of the resistor R17 and one end of a capacitor C28, the other end of the resistor R17 is connected with the working voltage +3.3V, the other end of the capacitor C28 is grounded, the 31 st end of the chip U1C is connected with one end of the capacitor C30, the 47 th end of the chip U1C is connected with one end of the capacitor C29, the other end of the capacitor C30 is grounded after being connected with the other end of the capacitor C29,
the No. 5 end of the chip U1C is connected with the No. 3 end of the crystal oscillator X2, the No. 2 end of the crystal oscillator X2 is grounded, and the No. 4 end of the crystal oscillator X2 is connected with the working voltage + 3.3V.
5. The self-warming glove of claim 2, wherein: the No. 1 end of the chip U1D is connected with voltage VDDA, the No. 19 end of the chip U1D is connected with the No. 32 end of the chip U1D, the No. 48 end of the chip U1D, the No. 64 end of the chip U1D and working voltage 3.3V, the No. 13 end of the chip U1D is connected with voltage VDDA,
the No. 18 end of the chip U1D is connected with the No. 63 end of the chip U1D and the No. 12 end of the chip U1D and then grounded.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822261562.8U CN210076657U (en) | 2018-12-30 | 2018-12-30 | Self-warming gloves |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822261562.8U CN210076657U (en) | 2018-12-30 | 2018-12-30 | Self-warming gloves |
Publications (1)
Publication Number | Publication Date |
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CN210076657U true CN210076657U (en) | 2020-02-18 |
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Application Number | Title | Priority Date | Filing Date |
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CN201822261562.8U Expired - Fee Related CN210076657U (en) | 2018-12-30 | 2018-12-30 | Self-warming gloves |
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CN (1) | CN210076657U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109430975A (en) * | 2018-12-30 | 2019-03-08 | 东北农业大学 | From glove |
-
2018
- 2018-12-30 CN CN201822261562.8U patent/CN210076657U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109430975A (en) * | 2018-12-30 | 2019-03-08 | 东北农业大学 | From glove |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200218 Termination date: 20211230 |