CN110754713A - Ultra-thin down coat with waterproof constant temperature function - Google Patents

Abstract

The invention relates to an ultrathin down jacket with waterproof and constant-temperature functions, which comprises a down jacket main body, wherein the surface layer of the down jacket main body is made of waterproof fabric, a ventilation system is arranged on the down jacket main body, the ventilation system comprises a ventilation hole, a ventilation valve, a joint, a communicating pipe and an air source, the ventilation hole is formed in the down jacket main body and is communicated with a ventilation port of the ventilation valve, the air inlet of the ventilation valve is connected with the outlet of the communicating pipe through the joint, and the inlet end of the communicating pipe is connected with the air source; an air source is ventilated into the vent valve through the communicating pipe, and an air port of the vent valve is opened, so that air can circulate from the vent hole and the vent valve, and the air circulation inside and outside the down jacket main body is realized; the invention can avoid the problem that the internal temperature of the waterproof down jacket cannot be adjusted due to the fact that the waterproof down jacket is not ventilated, enables the internal temperature to be constant and comfortable, and is worthy of great popularization.

Description

Ultra-thin down coat with waterproof constant temperature function

Technical Field

The invention belongs to the technical field of down jackets, and particularly relates to an ultrathin down jacket with waterproof and constant-temperature functions.

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 waterproof down jacket is a down jacket for special purposes, but as the waterproof fabric is adopted, the waterproof down jacket is basically non-breathable, so that internal heat can be gathered when a user moves, the internal temperature is increased, and the comfort level is greatly reduced.

Disclosure of Invention

The invention aims to solve the problems and provide the ultrathin down jacket with the waterproof and constant-temperature functions.

The invention realizes the purpose through the following technical scheme:

the utility model provides an ultra-thin down coat with waterproof constant temperature function, includes the down coat main part, the surface course of down coat main part adopts waterproof surface fabric, is equipped with the ventilation system in the down coat main part, and the ventilation system includes air vent, breather valve, joint, communicating pipe and air supply, and the air vent is seted up in the down coat main part, and an air vent of breather valve communicates the blow vent of breather valve, and the air inlet of breather valve passes through the export of joint connection communicating pipe, the entrance point connection air supply of communicating pipe. The air source is ventilated into the vent valve through the communicating pipe, the vent hole of the vent valve is opened, air can circulate from the vent hole and the vent valve, and the air circulation inside and outside the down jacket main body is realized.

As a further optimization scheme of the invention, the vent valve comprises a valve body, a valve cover, a piston and a spring, wherein the valve cover is arranged at one end of the valve body, the other end of the valve body is connected with a joint, the piston is arranged inside the valve body, the spring is arranged between the piston and the valve cover, and the two sides of the valve body are provided with corresponding vent holes. The piston can seal and open the air vent, and the air that the interface lets in can improve piston top cavity pressure, promotes the piston and overcomes the spring elasticity and removes, seals the air vent, and when the air discharge, the spring energy release drives the piston removal and opens the air vent.

As a further preferred development of the invention, the piston is cup-shaped, the spring being partially inserted into the piston. The occupied space of the piston and the spring is reduced.

In a further preferred embodiment of the present invention, the air source is an air bag, the air bag is normally compressed by a cord or the like to maintain the vent valve in a closed state, and the air bag is released by releasing the cord or the like to open the vent valve.

As a further optimization scheme of the invention, the down jacket main body is also provided with a heating system and a power supply module, wherein the heating system comprises a heating unit arranged in the down jacket main body and a temperature controller arranged on the outer side of the arm part of the down jacket main body; the power module comprises a solar thin film battery and a battery module which are arranged outside the down jacket main body, the heating unit is connected with the power module through a temperature controller, the temperature is controlled through the temperature controller, power is supplied through the power module, and the power module continuously supplies power through the solar thin film battery to convert solar energy.

As a further optimized scheme of the invention, the heating unit is an electric heating sheet, and the electric heating sheet is connected with the temperature controller through a lead.

As a further optimization scheme of the invention, the power module 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 solar thin film battery charging management system comprises a plurality of battery units, a voltage detection module, a micro control unit, a multi-battery charging management unit and a multi-battery discharging management unit, wherein the 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. 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 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 invention can avoid the problem that the internal temperature of the waterproof down jacket cannot be adjusted due to the fact that the waterproof down jacket is not ventilated, so that the internal temperature is relatively constant and comfortable;

2) the ventilation switch can be controlled by controlling the air source, so that the waterproof and warm-keeping effects are not influenced while the temperature adjusting function is realized.

Drawings

FIG. 1 is a schematic structural diagram of the present invention in accordance with one embodiment;

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

FIG. 3 is a schematic view of the vent valve of the present invention according to one embodiment;

FIG. 4 is a schematic structural diagram of a heating system and a power module according to the present invention in one embodiment;

FIG. 5 is a schematic structural view of the present invention in a second embodiment;

fig. 6 is a schematic structural view of the vent valve according to the second embodiment of the present invention.

In the figure: the down jacket comprises a down jacket body 1, a vent hole 2, a vent valve 3, a joint 4, a communication pipe 5, a valve body 31, a valve cover 32, a piston 33, a spring 34 and a vent 35.

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. 1-4, an ultrathin down jacket with waterproof and constant temperature functions comprises a down jacket main body 1, wherein a surface layer of the down jacket main body 1 is made of waterproof fabric, a ventilation system is arranged on the down jacket main body 1 and comprises a vent hole 2, a vent valve 3, a connector 4, a communicating pipe 5 and an air source, the vent hole 2 is arranged on the down jacket main body 1, the vent hole 2 is communicated with a vent hole 35 of the vent valve 3, an air inlet of the vent valve 3 is connected with an outlet of the communicating pipe 5 through the connector 4, and an inlet end of the communicating pipe 5 is connected with the air source. The air source is ventilated into the vent valve 3 through the communicating pipe 5, the vent hole 35 of the vent valve 3 is opened, so that air can circulate from the vent hole 2 and the vent valve 3, and the air circulation inside and outside the down jacket main body 1 is realized.

The vent valve 3 comprises a valve body 31, a valve cover 32, a piston 33 and a spring 34, the valve cover 32 is arranged at one end of the valve body 31, the other end of the valve body 31 is connected with the connector 4, the piston 33 is arranged inside the valve body 31, the spring 34 is arranged between the piston 33 and the valve cover 32, and the two sides of the valve body 31 are provided with corresponding vent holes 35. The piston 33 can close and open the vent 35, and the air introduced into the interface can increase the pressure of the cavity above the piston 33, push the piston 33 to move against the elastic force of the spring 34, close the vent 35, and when the air is exhausted, the spring 34 releases energy to drive the piston 33 to move to open the vent 35.

Preferably, the piston 33 is cup-shaped, and the spring 34 is partially inserted into the piston 33. The space occupied by the piston 33 and the spring 34 is reduced.

The air source is an air bag which is normally squeezed by a rope or the like to be in a compressed state, the vent valve 3 is kept in a closed state, and the air bag is released by releasing the rope or the like to be in an open state, so that the vent valve 3 is in an open state.

The down jacket main body 1 is also provided with a heating system and a power supply module, wherein the heating system comprises a heating unit arranged in the down jacket main body 1 and a temperature controller arranged on the outer side of the arm part of the down jacket main body 1; the power module comprises a solar thin film battery and a battery module which are arranged outside the down jacket main body 1, the heating unit is connected with the power module through a temperature controller, the temperature is controlled through the temperature controller, power is supplied through the power module, and the power module continuously supplies power through the solar thin film battery to convert solar energy.

The heating unit is an electric heating sheet which is connected with a temperature controller through a lead.

The power supply module 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 solar thin film battery charging management system comprises a plurality of battery units, a voltage detection module, a micro control unit, a multi-battery charging management unit and a multi-battery discharging management unit, wherein the 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. 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 module comprises the following steps of:

the solar thin-film battery collects and converts solar energy into electric energy, the micro-power charging unit converts the power output by the solar thin-film battery 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 solar thin film battery power supply mode, 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 that long-term power supply can be provided for the heating system.

The working principle of the invention is as follows: can realize through opening breather valve 3 that the inside and outside of down coat main part 1 ventilates, can accelerate thermal scattering and disappearing, make inside temperature obtain reducing, avoid the inside high temperature that waterproof surface fabric does not ventilate and leads to, reach a state that inside temperature is comparatively invariable.

In addition, the heating system is used for auxiliary heating to adjust the internal temperature.

It should be noted that the temperature adjustment does not require precise adjustment, and only requires the user to feel comfortable.

Example two

As shown in fig. 5-6, on the basis of the first embodiment, in order to adjust the ventilation opening, the vent 35 and the vent hole 2 are both in a strip shape, and the stroke of the piston 33 can be controlled by controlling the amount of air charged and discharged by the air source, and finally the opening of the vent 35 is controlled to adjust the ventilation amount.

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 (8)

1. The utility model provides an ultra-thin down coat with waterproof constant temperature function which characterized in that: the down jacket comprises a down jacket main body, wherein a surface layer of the down jacket main body is made of waterproof fabric, a ventilation system is arranged on the down jacket main body and comprises a ventilation hole, a ventilation valve, a joint, a communication pipe and an air source, the ventilation hole is formed in the down jacket main body and is communicated with a ventilation port of the ventilation valve, an air inlet of the ventilation valve is connected with an outlet of the communication pipe through the joint, and an inlet end of the communication pipe is connected with the air source; the air source is ventilated into the vent valve through the communicating pipe, the vent hole of the vent valve is opened, air can circulate from the vent hole and the vent valve, and the air circulation inside and outside the down jacket main body is realized.

2. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 1, wherein the ultrathin down jacket is characterized in that: the vent valve comprises a valve body, a valve cover, a piston and a spring, wherein the valve cover is arranged at one end of the valve body, the other end of the valve body is connected with a joint, the piston is arranged inside the valve body, the spring is arranged between the piston and the valve cover, and the two sides of the valve body are provided with corresponding vent holes.

3. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 1, wherein the ultrathin down jacket is characterized in that: the piston is cup-shaped, and the spring is partially inserted into the piston.

4. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 1, wherein the ultrathin down jacket is characterized in that: the air source is an air bag.

5. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 1, wherein the ultrathin down jacket is characterized in that: the heating system comprises a heating unit arranged in the down jacket main body and a temperature controller arranged on the outer side of the arm part of the down jacket main body; the power module comprises a solar thin film battery and a battery module which are arranged outside the down jacket main body, the heating unit is connected with the power module through a temperature controller, the temperature is controlled through the temperature controller, power is supplied through the power module, and the power module continuously supplies power through the solar thin film battery to convert solar energy.

6. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 5, wherein the waterproof and constant-temperature down jacket comprises: the heating unit is an electric heating sheet which is connected with a temperature controller through a lead.

7. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 5, wherein the waterproof and constant-temperature down jacket comprises: the power supply module 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 solar thin film battery charging management system comprises a plurality of battery units, a voltage detection module, a micro control unit, a multi-battery charging management unit and a multi-battery discharging management unit, wherein the 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.

8. The ultrathin down jacket with the waterproof and constant-temperature functions as claimed in claim 7, wherein the waterproof and constant-temperature down jacket comprises: 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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