CN110754714A - Cold-proof down coat with temperature measurement function - Google Patents

Abstract

The invention relates to a cold-proof down jacket with a temperature measuring function, which comprises a down jacket main body, a temperature measuring system and a power supply system, wherein the temperature measuring system comprises a plurality of temperature measuring nodes, a processing unit and a wireless communication module, the temperature measuring nodes comprise a plurality of temperature sensors which are arranged on the inner surface of the down jacket main body and used for measuring temperature, the temperature sensors are connected with the signal input end of the processing unit, the processing unit comprises a processor and a memory, the signal input end of the processor is connected with the signal output end of the temperature sensors, and the processor module receives signals of the sensor module and processes and sends the signals through the wireless communication module; the solar down jacket can continuously supply power by taking solar energy as a power supply, does not need a power supply with larger volume, reduces the weight and the volume of the main machine, is convenient to wear, can be designed into a closed structure, is convenient to wash along with down jackets, and is worthy of great popularization.

Description

Cold-proof down coat with temperature measurement function

Technical Field

The invention belongs to the technical field of down jackets, and particularly relates to a cold-proof down jacket with a temperature measuring function.

Background

The down jacket is made of materials mainly including down and coated fabrics, ① down, a mixture of small feather pieces and down pieces (also called down) which are selected and washed to separate the small feather pieces and the down pieces to be used as wadding of the down jacket, the down is gray, white and white, the quality of the down jacket is related to down filling amount and down containing amount, the down filling amount refers to the weight of down filled in one down jacket, and is generally about 250 g, the down filling amount is small, the heat retention is poor, the down containing amount refers to the down piece content in the down, and is generally 50-80% in percentage, the down containing amount is high, the quality is good, the down pieces can not easily dissipate heat of a human body, the hand feeling is soft, but the down pieces cannot easily bulge in time after being pressed and wetted, the small feather pieces can help the clothes to bulge to keep more air in the silk, the down pieces are more in the down, the small feather pieces are more in heat retention, the small feather pieces are easy to flow, the gaps of the down pieces are easily blown, the cotton cloth is pressed, the cotton is pressed, and the cotton is pressed, and the cotton is pressed, the.

The intelligent down jacket embedded in the intelligent monitoring system collects various physiological parameters of a human body through the sensor to realize the intelligent detection and protection function on the physical condition. The direction of development in future can not only be monitored, but also simple emergency treatment or intelligent first aid and the like can be introduced.

In addition, the down jacket with the multi-temperature sensor information fusion technology can be applied to military combat uniforms, can respond to external temperature changes in time, and improves functionality of the down jacket. Temperature measurement down coat among the prior art need use through sensor cooperation host computer, and the host computer is great owing to need dispose great bulky power, volume and weight, influences the dress, and in addition for convenient change or charge, the structure when the host computer can not design into to seal, can not follow down coat and wash together.

Disclosure of Invention

The invention aims to solve the problems and provide the cold-proof down jacket with the temperature measuring function, which can detect the body temperature of a user.

The invention realizes the purpose through the following technical scheme:

the utility model provides a winter protection down coat with temperature measurement function, includes down coat main part, temperature measurement system and power supply system, the temperature measurement system includes a plurality of temperature measurement node, a processing unit and a wireless communication module, and the temperature measurement node is used for measuring temperature's temperature sensor including a plurality of locating the internal surface of down coat main part, and processing unit's signal input part is connected to temperature sensor, and processing unit includes treater and memory, and temperature sensor's signal output part is connected to the signal input part of treater, and the signal of sensor module is received to the processor module, then handles through wireless communication module and sends.

As a further optimization scheme of the invention, the processing unit is connected with a power supply system, the power supply system is connected with the solar thin film battery through the micro-power charging unit, the solar thin film battery is used as an energy source, and the energy source is converted into a charging power supply through the micro-power charging unit to be supplied to the power supply system.

As a further optimization scheme of the invention, the power supply system comprises a multi-battery charging management unit, a multi-battery discharging management unit, a voltage detection module, a micro control unit and a plurality of parallel battery units, wherein the battery charging management unit is respectively connected with the plurality of battery units, and the battery discharging management unit is respectively connected with the plurality of battery units; the battery units are respectively connected with the voltage detection module, the voltage detection module is connected with the micro control unit, and the micro control unit is connected with the multi-battery charging management unit and the multi-battery discharging management unit. The voltage detection module detects the voltage of the battery unit, the electric quantity of the battery unit is judged through the detected voltage, the multi-battery charging management unit is used for managing charging of the battery unit, and the multi-battery discharging management unit is used for managing discharging of the battery unit.

As a further optimization scheme of the invention, the multi-battery charging management unit and the multi-battery discharging management unit are a plurality of switch circuits connected with the battery units, and the switch circuits are connected with the micro-control unit and controlled by the micro-control unit.

As a further optimization scheme of the invention, the battery unit is a rechargeable button battery.

As a further optimization scheme of the invention, the micro control unit is an MCU.

As a further optimization scheme of the present invention, the energy output positive electrode and the energy output negative electrode of the micro-power charging unit are respectively connected to the energy output positive electrode and the energy output negative electrode of the multi-battery charging management unit, the energy output positive electrode of the multi-battery charging management unit is connected to the positive electrodes of the plurality of battery units, the negative electrodes of the plurality of battery units are divided into two ports, one port is connected to the energy output negative electrode of the multi-battery charging management unit, the other port is connected to the power input negative electrode of the multi-battery discharging management unit, and the power input positive electrode of the multi-battery discharging management unit is connected to the positive;

the energy output negative pole of the multi-battery charging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units, and the power input negative pole of the multi-battery discharging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units.

The invention has the beneficial effects that:

1) the solar energy is used as a power supply, so that the solar energy power supply can continuously supply power without a power supply with a larger volume, reduces the weight and the volume of the main machine, and is convenient to wear;

2) because the down jacket does not need to be charged, the main machine can be designed into a closed structure, so that the down jacket can be conveniently washed along with the down jacket;

3) the invention can measure the body temperature of each part of the human body at multiple points through a plurality of temperature sensors, and the detection effect is more comprehensive.

Drawings

FIG. 1 is a schematic structural view of a down jacket body according to the present invention in one embodiment;

FIG. 2 is a schematic structural diagram of the present invention in accordance with one embodiment;

fig. 3 is a schematic structural diagram of a power supply system according to a first embodiment of the present invention.

In the figure: a down jacket main body 100 and a solar thin film cell 101.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example one

As shown in fig. 1-3, a cold-proof down jacket with temperature measurement function comprises a down jacket main body 100, a temperature measurement system and a power supply system, wherein the temperature measurement system comprises a plurality of temperature measurement nodes, a processing unit and a wireless communication module, the temperature measurement nodes comprise a plurality of temperature sensors arranged on the inner surface of the down jacket main body 100 and used for measuring temperature, the temperature sensors are connected with the signal input end of the processing unit, the processing unit comprises a processor and a memory, the signal input end of the processor is connected with the signal output end of the temperature sensors,

the temperature sensor is preferably a low-power-consumption high-precision two-pin digital output type temperature sensor NST1001 of Suzhou nano-core microelectronics, Inc.

The processor module receives the signals of the sensor module and then sends the signals through the wireless communication module. The power supply system supplies power to the node.

The processing unit is connected with a power supply system, the power supply system is connected with the solar thin film battery 101 through the micro-power charging unit, the solar thin film battery 101 is used as an energy source, and the energy source is converted into a charging power supply through the micro-power charging unit to be supplied to the power supply system;

the power supply system comprises a multi-battery charging management unit, a multi-battery discharging management unit, a voltage detection module, a micro control unit and a plurality of battery units connected in parallel, wherein the battery charging management unit is respectively connected with the plurality of battery units; the plurality of battery units are respectively connected with the voltage detection module, the voltage detection module is connected with the micro control unit, the micro control unit is connected with the multi-battery charging management unit and the multi-battery discharging management unit, and the multi-battery charging management unit is connected with the solar thin film battery 101 through the micro-power charging unit. The voltage detection module detects the voltage of the battery unit, the electric quantity of the battery unit is judged through the detected voltage, the multi-battery charging management unit is used for managing charging of the battery unit, and the multi-battery discharging management unit is used for managing discharging of the battery unit.

Preferably, the multi-battery charging management unit and the multi-battery discharging management unit can be a plurality of switch circuits connected with the battery unit, and the switch circuits are connected with the micro-control unit and controlled by the micro-control unit.

Preferably, the battery unit is a rechargeable button battery.

Preferably, the micro control unit is an MCU.

The low-energy-consumption charging and discharging method of the power supply system comprises the following steps of:

the solar thin film battery 101 collects and converts solar energy into electric energy, the micro-power charging unit converts the power output by the solar thin film battery 101 into an energy source capable of charging the button lithium battery, and the electric energy is output to the multi-battery charging management unit;

during charging, the micro control unit starts traversing from the first battery unit in the plurality of battery units, checks the electric quantity condition of the first battery unit, determines whether to charge the first battery unit, only charges one battery unit at a moment, and after the current battery unit is fully charged, the micro control unit continuously traverses the battery unit which needs to be charged or not, and repeats the charging step;

during discharging, the micro control unit starts traversing from a first battery unit in the plurality of battery units, checks the electric quantity condition of the first battery unit, determines whether to use the first battery unit to supply power, only uses one battery unit to supply power at a moment, and when the electric quantity of the current battery unit is too low, the micro control unit continues traversing the battery units capable of supplying power and repeats the power supply steps.

The starting voltage of the micro-power charging unit is 500mV, and the circuit part is realized by ADP5090 of AnalogDevice, USA.

Preferably, the energy output positive electrode and the energy output negative electrode of the micropower charging unit are respectively connected with the energy output positive electrode and the energy output negative electrode of the multi-battery charging management unit, the energy output positive electrode of the multi-battery charging management unit is connected with the positive electrodes of the plurality of battery units, the negative electrodes of the plurality of battery units are divided into two ports, one port is connected with the energy output negative electrode of the multi-battery charging management unit, the other port is connected with the power input negative electrode of the multi-battery discharging management unit, and the power input positive electrode of the multi-battery discharging management unit is connected with the positive electrodes of;

the energy output negative pole of the multi-battery charging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units, and the power input negative pole of the multi-battery discharging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units.

The multi-battery charging management unit determines whether to communicate with one of the negative electrodes of the plurality of battery units through the internal comparison circuit, so as to determine whether to charge the battery units.

The temperature measurement system supplies power through solar energy, and adopts the charging circuit that micropower started, can reduce the requirement to illumination intensity, keeps long-term power supply, cooperates effectual multicell charge-discharge management to reduce the electric energy loss, optimizes the electric energy supply, keeps the long-time work of temperature measurement system.

The working principle of the invention is as follows: the invention adopts a power supply mode of the solar thin film battery 101, and long-term power supply is carried out on the temperature measurement system through micro-power charging and multi-battery charging and discharging management so as to maintain the long-term and stable work of the temperature measurement system attached to the cold-proof down jacket.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. A winter protection down coat with temperature measurement function which characterized in that: including down coat main part, temperature measurement system and power supply system, the temperature measurement system includes a plurality of temperature measurement node, a processing unit and a wireless communication module, and the temperature measurement node is used for measuring temperature's temperature sensor including a plurality of locating the internal surface of down coat main part, and processing unit's signal input part is connected to temperature sensor, and processing unit includes treater and memory, and temperature sensor's signal output part is connected to the signal input part of treater, and the signal of processor module receipt sensor module is then handled through wireless communication module and is sent.

2. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the processing unit is connected with the power supply system, the power supply system is connected with the solar thin film battery through the micro-power charging unit, the solar thin film battery is used as an energy source, and the energy source is converted into a charging power supply through the micro-power charging unit to be supplied to the power supply system.

3. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the power supply system comprises a multi-battery charging management unit, a multi-battery discharging management unit, a voltage detection module, a micro control unit and a plurality of battery units connected in parallel, wherein the battery charging management unit is respectively connected with the plurality of battery units, and the battery discharging management unit is respectively connected with the plurality of battery units; the battery units are respectively connected with the voltage detection module, the voltage detection module is connected with the micro control unit, and the micro control unit is connected with the multi-battery charging management unit and the multi-battery discharging management unit.

4. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the multi-battery charging management unit and the multi-battery discharging management unit are a plurality of switch circuits connected with the battery units, and the switch circuits are connected with the micro-control unit and controlled by the micro-control unit.

5. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the battery unit is a rechargeable button battery.

6. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the micro control unit is an MCU.

7. The cold-proof down jacket with temperature measuring function as claimed in claim 1, wherein: the energy output positive electrode and the energy output negative electrode of the micro-power charging unit are respectively connected with the energy output positive electrode and the energy output negative electrode of the multi-battery charging management unit, the energy output positive electrode of the multi-battery charging management unit is connected with the positive electrodes of the plurality of battery units, the negative electrodes of the plurality of battery units are divided into two ports, one port is connected with the energy output negative electrode of the multi-battery charging management unit, the other port is connected with the power input negative electrode of the multi-battery discharging management unit, and the power input positive electrode of the multi-battery discharging management unit is connected with the positive electrodes;

the energy output negative pole of the multi-battery charging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units, and the power input negative pole of the multi-battery discharging management unit is divided into a plurality of ports which are respectively connected with the negative poles of the plurality of battery units.

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