CN212212739U - Intelligent garment - Google Patents

Intelligent garment Download PDF

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Publication number
CN212212739U
CN212212739U CN202020414512.3U CN202020414512U CN212212739U CN 212212739 U CN212212739 U CN 212212739U CN 202020414512 U CN202020414512 U CN 202020414512U CN 212212739 U CN212212739 U CN 212212739U
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module
pole
chip
mcu control
garment
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CN202020414512.3U
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高一梵
高军
杨成
龚智辉
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Wuhan Jielang Environmental Protection Technology Co ltd
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Wuhan Jielang Environmental Protection Technology Co ltd
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Abstract

The utility model discloses an intelligent garment, this intelligent garment includes: the intelligent garment comprises an MCU control module, a lithium battery charge and discharge module connected with the MCU control module, a lithium battery connected with the lithium battery charge and discharge module, a semiconductor heating and refrigerating module connected with the MCU control module and capable of realizing refrigerating and heating functions, a wireless transmission module connected with the MCU control module and capable of communicating with a mobile phone APP, an external temperature sensor connected with the MCU control module, an internal temperature sensor connected with the MCU control module, and a human body infrared induction module connected with the MCU control module and used for detecting whether the garment is worn on a human body to control starting and stopping; the internal temperature sensor is arranged on the inner side of the garment and used for detecting the temperature of the inner side of the garment; the external temperature sensor is arranged outside the garment and used for acquiring the ambient temperature of use; the number of the semiconductor heating and refrigerating modules is multiple, and the semiconductor heating and refrigerating modules are uniformly arranged at each part of the garment.

Description

Intelligent garment
The technical field is as follows:
the utility model relates to a clothing technical field refers in particular to an intelligent clothing.
Background art:
since ancient times, the costume is made from the procedures of spinning, weaving, dyeing, post-finishing and the like, is a sensitive and cold-proof original costume, is a costume with different styles and various characteristics in recent times, is popular in paris and milan in the world, and has a long development history.
In recent years, the concept of smart apparel has eventually stepped on the stage. The special textile capable of sensing and responding to external environment changes and stimuli through self characteristics and even self-adjusting is intelligent clothing. At present, intelligent clothes such as color-changing clothes, air-conditioning clothes, medical monitoring clothes, waterproof moisture-permeable clothes and the like well overcome some defects in life.
The intelligent clothes in the prior art are not intelligent enough, and after the intelligent clothes are worn, a user needs to manually turn on a switch so as to heat or refrigerate the whole intelligent clothes; after taking off intelligent clothing, still need the manual switch that closes of user, it is very inconvenient to use, in addition, after taking off intelligent clothing, the user often forgets the switch that closes, at this moment, can consume the electric quantity of battery, is unfavorable for next use, uses more inconveniently.
In view of the above, the present inventors propose the following.
The utility model has the following contents:
an object of the utility model is to overcome the not enough of prior art, provide an intelligent clothing.
In order to solve the technical problem, the utility model discloses a following technical scheme: this intelligent clothing includes: the intelligent garment comprises an MCU control module, a lithium battery charge and discharge module connected with the MCU control module, a lithium battery connected with the lithium battery charge and discharge module, a semiconductor heating and refrigerating module connected with the MCU control module and capable of realizing refrigerating and heating functions, a wireless transmission module connected with the MCU control module and capable of communicating with a mobile phone APP, an external temperature sensor connected with the MCU control module, an internal temperature sensor connected with the MCU control module, and a human body infrared induction module connected with the MCU control module and used for detecting whether the garment is worn on a human body to control starting and stopping; the internal temperature sensor is arranged on the inner side of the garment and used for detecting the temperature of the inner side of the garment; the external temperature sensor is arranged outside the garment and used for acquiring the ambient temperature of use; the number of the semiconductor heating and refrigerating modules is multiple, and the semiconductor heating and refrigerating modules are uniformly arranged at each part of the garment.
Further, in the above technical solution, the MCU control module includes an MCU control chip, and the model of the MCU control chip is STM8S003F3P 6.
Furthermore, in the above technical scheme, the human infrared sensing module includes a human infrared sensing chip, a human infrared sensing probe connected with the human infrared sensing chip, and a 3.3V LDO module for supplying power to the human infrared sensing chip, and the 3.3V LDO module is connected to the lithium battery charge-discharge module.
Further, in the above technical solution, the semiconductor heating and cooling module includes a MOS transistor Q1, a MOS transistor Q2, a MOS transistor Q3, a MOS transistor Q4, and a semiconductor heating and cooling chip, a G-pole of the MOS transistor Q1 is connected to a G-pole of the MOS transistor Q3, and is connected to a pin of an MCU control chip in the MCU control module; the D pole of the MOS transistor Q1 is connected with the D pole of the MOS transistor Q3, and is connected with one pole of the semiconductor heating and cooling chip after being connected with an inductor L1 and an inductor L2; a diode D1 is connected to the G pole and the S pole of the MOS transistor Q1, and a diode D3 is connected to the G pole and the S pole of the MOS transistor Q3; the two ends of the inductor L2 are respectively connected with the capacitor C1 and the capacitor C2 and then grounded; the G pole of the MOS transistor Q2 is connected with the G pole of the MOS transistor Q4 and is connected with the other pin of the MCU control chip in the MCU control module; the D pole of the MOS transistor Q2 is connected with the D pole of the MOS transistor Q4, and is connected with the other pole of the semiconductor heating and cooling chip after being connected with the inductor L4 and the inductor L3; the G pole and the S pole of the MOS transistor Q2 are connected with a diode D2, the G pole and the S pole of the MOS transistor Q4 are connected with a diode D4, and both ends of the inductor L3 are connected with a capacitor C3 and a capacitor C4 respectively and then grounded.
Furthermore, in the above technical solution, the lithium battery charging and discharging module includes a power management chip, a lithium battery protection chip connected to the power management chip, and a battery interface connected to the power management chip and the lithium battery protection chip, and the battery interface is connected to the lithium battery.
Furthermore, in the above technical solution, the lithium battery charging and discharging module further includes a USB charging module for charging the lithium battery, and the USB charging module is connected to the power management chip.
Furthermore, in the above technical solution, the lithium battery charging and discharging module further includes a wireless charging module for charging the lithium battery, and the wireless charging module is connected to the power management chip.
Further, in the above technical solution, the wireless transmission module includes a GSM chip, a SIM card module connected to the GSM chip, a MAX232 interface module connected to the GSM chip, a timer connected to the GSM chip, a switch module connected to the GSM chip, and an indicator light module connected to the GSM chip.
Further, in the above technical solution, the garment is a garment or a pair of pants.
Further, in the above technical solution, the MCU control module is further connected to a heart rate sensor.
After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model adopts the semiconductor heating and refrigerating module which can realize the functions of refrigeration and heating to heat or refrigerate, and the heating and refrigerating effects are more ideal and safer and more reliable; the utility model can also communicate with the mobile phone APP through the wireless transmission module, so that the data can be checked and controlled through the control of the mobile phone APP, and the use is very convenient; the utility model is also provided with a human body infrared induction module for detecting whether the clothes are worn on the human body to control the start and stop, when the human body infrared induction module detects the human body, the intelligent clothes are proved to be worn by a user, and at the moment, the utility model works to realize refrigeration or heating; when human infrared induction module does not detect the human body, the proof user does not wear to establish intelligent clothing or has taken off intelligent clothing, this moment the utility model discloses it is out of work, stop refrigeration or heat, its intellectuality is higher, and it is more convenient to use to probably reach energy-conserving effect, avoid the electric quantity of extravagant lithium cell, be convenient for use next time, the order the utility model discloses extremely strong market competition has.
Description of the drawings:
fig. 1 is a block diagram of the present invention;
fig. 2 is a circuit diagram of the present invention.
The specific implementation mode is as follows:
the present invention will be further described with reference to the following specific embodiments and accompanying drawings.
As shown in fig. 1 and 2, the intelligent garment comprises: the intelligent garment control system comprises an MCU control module 1, a lithium battery charge-discharge module 2 connected with the MCU control module 1, a lithium battery 3 connected with the lithium battery charge-discharge module 2, a semiconductor heating and refrigerating module 4 connected with the MCU control module 1 and capable of realizing refrigerating and heating functions, a wireless transmission module 5 connected with the MCU control module 1 and capable of communicating with a mobile phone APP, an external temperature sensor 6 connected with the MCU control module 1, an internal temperature sensor 7 connected with the MCU control module 1, and a human body infrared induction module 8 connected with the MCU control module 1 and used for detecting whether a garment is worn on a human body to control start and stop; the internal temperature sensor 7 is arranged on the inner side of the garment and used for detecting the temperature of the inner side of the garment; the external temperature sensor 6 is arranged outside the garment and used for acquiring the ambient temperature of use; the number of the semiconductor heating and refrigerating modules 4 is a plurality, and the semiconductor heating and refrigerating modules are uniformly arranged at each part of the garment. The utility model adopts the semiconductor heating and refrigerating module 4 which can realize the functions of refrigeration and heating to heat or refrigerate, and the heating and refrigerating effects are more ideal and safer and more reliable; the utility model can also communicate with the mobile phone APP through the wireless transmission module 5, so that the data can be checked and controlled through the control of the mobile phone APP, and the use is very convenient; the utility model is also provided with a human body infrared induction module 8 for detecting whether the clothes are worn on the human body to control the start and stop, when the human body infrared induction module 8 detects the human body, the intelligent clothes are proved to be worn by the user, and at the moment, the utility model works to realize refrigeration or heating; when human infrared induction module 8 does not detect the human body, the proof user does not wear to establish intelligent clothing or has taken off intelligent clothing, this moment the utility model discloses it is out of work, stop refrigeration or heat, its intellectuality is higher, and it is more convenient to use to probably reach energy-conserving effect, avoid the electric quantity of extravagant lithium cell, be convenient for use next time, the order the utility model discloses extremely strong market competition has.
The MCU control module 1 comprises an MCU control chip 11, and the model of the MCU control chip 11 is STM8S003F3P 6.
Human infrared induction module 8 is including human infrared induction chip 81, the human infrared induction probe 82 of being connected with human infrared induction chip 81 and the 3.3V LDO module 83 for the power supply of this human infrared induction chip 81, and this 3.3V LDO module 83 is connected lithium battery charge and discharge module 2.
The semiconductor heating and refrigerating module 4 comprises an MOS tube Q1, an MOS tube Q2, an MOS tube Q3, an MOS tube Q4 and a semiconductor heating and refrigerating sheet 41, wherein the G pole of the MOS tube Q1 is connected with the G pole of the MOS tube Q3 and is connected with one pin of an MCU control chip 11 in the MCU control module 1; the D pole of the MOS transistor Q1 is connected to the D pole of the MOS transistor Q3, and is connected to one pole of the semiconductor heating/cooling chip 41 after being connected to the inductor L1 and the inductor L2; a diode D1 is connected to the G pole and the S pole of the MOS transistor Q1, and a diode D3 is connected to the G pole and the S pole of the MOS transistor Q3; the two ends of the inductor L2 are respectively connected with the capacitor C1 and the capacitor C2 and then grounded; the G pole of the MOS transistor Q2 is connected with the G pole of the MOS transistor Q4 and is connected with the other pin of the MCU control chip 11 in the MCU control module 1; the D pole of the MOS transistor Q2 is connected to the D pole of the MOS transistor Q4, and the other pole of the semiconductor heating and cooling sheet 41 is connected to the inductor L4 and the inductor L3; the G pole and the S pole of the MOS transistor Q2 are connected with a diode D2, the G pole and the S pole of the MOS transistor Q4 are connected with a diode D4, and both ends of the inductor L3 are connected with a capacitor C3 and a capacitor C4 respectively and then grounded. As described in conjunction with fig. 2, when the pin CS _ L of the MCU control chip 11 is at a low level and the pin CS _ R of the MCU control chip 11 is at a high level, the MOS transistor Q1 and the MOS transistor Q4 are turned on, the MOS transistor Q2 and the MOS transistor Q3 are turned off, and the semiconductor heating and cooling chip 41 cools; when the pin CS _ L of the MCU control chip 11 is at a high level and the pin CS _ R of the MCU control chip 11 is at a low level, the MOS transistors Q2 and Q3 are turned on, the MOS transistors Q1 and Q4 are turned off, and the semiconductor heating/cooling chip 41 heats.
The lithium battery charging and discharging module 2 comprises a power management chip 21, a lithium battery protection chip 22 connected with the power management chip 21, and a battery interface 23 connected with the power management chip 21 and the lithium battery protection chip 22, wherein the battery interface 23 is connected with the lithium battery 3.
The lithium battery charging and discharging module 2 further includes a USB charging module (not shown) for charging the lithium battery, and the USB charging module is connected to the power management chip 21. The USB charging module is a conventional module.
The lithium battery charging and discharging module 2 further includes a wireless charging module (not shown) for charging the lithium battery, and the wireless charging module is connected with the power management chip 21. The wireless charging module is a conventional module.
The wireless transmission module 5 includes a GSM chip 51, a SIM card module 52 connected to the GSM chip 51, a MAX232 interface module 53 connected to the GSM chip 51, a timer 54 connected to the GSM chip 51, a switch module 55 connected to the GSM chip 51, and an indicator light module 56 connected to the GSM chip 51.
The garment is a garment or a pair of trousers.
MCU control module 1 still is connected with heart rate sensor 9, and this heart rate sensor 9 is used for detecting the rhythm of the heart to satisfy different operation requirement.
In summary, the utility model adopts the semiconductor heating and cooling module 4 which can realize the functions of cooling and heating to heat or cool, so that the heating and cooling effects are more ideal, and the heating and cooling effects are safer and more reliable; the utility model can also communicate with the mobile phone APP through the wireless transmission module 5, so that the data can be checked and controlled through the control of the mobile phone APP, and the use is very convenient; the utility model is also provided with a human body infrared induction module 8 for detecting whether the clothes are worn on the human body to control the start and stop, when the human body infrared induction module 8 detects the human body, the intelligent clothes are proved to be worn by the user, and at the moment, the utility model works to realize refrigeration or heating; when human infrared induction module 8 does not detect the human body, the proof user does not wear to establish intelligent clothing or has taken off intelligent clothing, this moment the utility model discloses it is out of work, stop refrigeration or heat, its intellectuality is higher, and it is more convenient to use to probably reach energy-conserving effect, avoid the electric quantity of extravagant lithium cell, be convenient for use next time, the order the utility model discloses extremely strong market competition has.
Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. A smart garment, characterized by: it includes: the intelligent clothes drying machine comprises an MCU control module (1), a lithium battery charging and discharging module (2) connected with the MCU control module (1), a lithium battery (3) connected with the lithium battery charging and discharging module (2), a semiconductor heating and refrigerating module (4) connected with the MCU control module (1) and capable of achieving refrigerating and heating functions, a wireless transmission module (5) connected with the MCU control module (1) and capable of communicating with a mobile phone APP, an external temperature sensor (6) connected with the MCU control module (1), an internal temperature sensor (7) connected with the MCU control module (1), and a human body infrared induction module (8) connected with the MCU control module (1) and used for detecting whether clothes are worn on a human body to control starting and stopping; the internal temperature sensor (7) is arranged on the inner side of the garment and used for detecting the temperature of the inner side of the garment; the external temperature sensor (6) is arranged outside the garment and used for acquiring the ambient temperature of use; the number of the semiconductor heating and refrigerating modules (4) is multiple, and the semiconductor heating and refrigerating modules are uniformly arranged at each part of the garment.
2. The smart garment of claim 1, wherein: the MCU control module (1) comprises an MCU control chip (11), and the model of the MCU control chip (11) is STM8S003F3P 6.
3. A smart garment as claimed in claim 2, wherein: human infrared induction module (8) are including human infrared induction chip (81), human infrared induction probe (82) and 3.3V LDO module (83) for the power supply of this human infrared induction chip (81) of being connected with human infrared induction chip (81), and this 3.3V LDO module (83) are connected lithium cell charge-discharge module (2).
4. A smart garment as claimed in any one of claims 1 to 3, wherein: the semiconductor heating and refrigerating module (4) comprises an MOS tube Q1, an MOS tube Q2, an MOS tube Q3, an MOS tube Q4 and a semiconductor heating and refrigerating sheet (41), wherein the G pole of the MOS tube Q1 is connected with the G pole of the MOS tube Q3 and is connected with one pin of an MCU control chip (11) in the MCU control module (1); the D pole of the MOS transistor Q1 is connected with the D pole of the MOS transistor Q3, and is connected with one pole of the semiconductor heating and cooling chip (41) after being connected with an inductor L1 and an inductor L2; a diode D1 is connected to the G pole and the S pole of the MOS transistor Q1, and a diode D3 is connected to the G pole and the S pole of the MOS transistor Q3; the two ends of the inductor L2 are respectively connected with the capacitor C1 and the capacitor C2 and then grounded; the G pole of the MOS transistor Q2 is connected with the G pole of the MOS transistor Q4 and is connected with the other pin of the MCU control chip (11) in the MCU control module (1); the D pole of the MOS transistor Q2 is connected with the D pole of the MOS transistor Q4, and is connected with the other pole of the semiconductor heating and cooling chip (41) after being connected with the inductor L4 and the inductor L3; the G pole and the S pole of the MOS transistor Q2 are connected with a diode D2, the G pole and the S pole of the MOS transistor Q4 are connected with a diode D4, and both ends of the inductor L3 are connected with a capacitor C3 and a capacitor C4 respectively and then grounded.
5. The smart garment of claim 4, wherein: the lithium battery charging and discharging module (2) comprises a power management chip (21), a lithium battery protection chip (22) connected with the power management chip (21) and a battery interface (23) connected with the power management chip (21) and the lithium battery protection chip (22), wherein the battery interface (23) is connected with a lithium battery (3).
6. The smart garment of claim 5, wherein: the lithium battery charging and discharging module (2) further comprises a USB charging module used for charging the lithium battery, and the USB charging module is connected with the power management chip (21).
7. The smart garment of claim 5, wherein: the lithium battery charging and discharging module (2) further comprises a wireless charging module for charging the lithium battery, and the wireless charging module is connected with the power management chip (21).
8. A smart garment as claimed in any one of claims 1 to 3, wherein: the wireless transmission module (5) comprises a GSM chip (51), an SIM card module (52) connected with the GSM chip (51), an MAX232 interface module (53) connected with the GSM chip (51), a timer (54) connected with the GSM chip (51), a switch module (55) connected with the GSM chip (51) and an indicator light module (56) connected with the GSM chip (51).
9. A smart garment as claimed in any one of claims 1 to 3, wherein: the garment is a garment or a pair of trousers.
10. A smart garment as claimed in any one of claims 1 to 3, wherein: the MCU control module (1) is also connected with a heart rate sensor (9).
CN202020414512.3U 2020-03-27 2020-03-27 Intelligent garment Active CN212212739U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020414512.3U CN212212739U (en) 2020-03-27 2020-03-27 Intelligent garment

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Application Number Priority Date Filing Date Title
CN202020414512.3U CN212212739U (en) 2020-03-27 2020-03-27 Intelligent garment

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114205385A (en) * 2021-12-06 2022-03-18 无锡赛福格科技有限公司 Multifunctional safety monitoring system and working method thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114205385A (en) * 2021-12-06 2022-03-18 无锡赛福格科技有限公司 Multifunctional safety monitoring system and working method thereof

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