CN118235902A - Device for intelligent clothes temperature control and heat accumulation and dehumidification - Google Patents

Abstract

The invention discloses a device for intelligent clothes temperature control, heat storage and dehumidification, which comprises a gas ring and an outer heat conduction strip arranged along the outer part of the gas ring, wherein one end of the gas ring is provided with a temperature control unit, the other end of the gas ring is provided with an air supply unit, the inner part of the gas ring is provided with an inner heat conduction strip, the temperature control unit is connected with the inner heat conduction strip and the outer heat conduction strip, and the gas ring is provided with a plurality of air outlets. The temperature control unit comprises a PCM phase change material heat storage bag and a temperature control device arranged on the PCM phase change material heat storage bag, the temperature control device comprises a Peltier semiconductor piece, the Peltier semiconductor piece comprises a working face and a non-working face, and the working face is connected with the PCM phase change material heat storage bag. The temperature regulation and control device further comprises an aerogel felt spacer, and the Peltier semiconductor sheet is arranged on the PCM phase change material heat storage bag through the aerogel felt spacer and separates a working face from a non-working face of the PCM phase change material heat storage bag. Solves the problem that the prior intelligent clothes have no comfort due to inconvenient temperature control.

Description

Device for intelligent clothes temperature control and heat accumulation and dehumidification

Technical Field

The invention belongs to the technical field of intelligent clothes temperature control, and particularly relates to a device for intelligent clothes temperature control, temperature storage and dehumidification.

Background

Intelligent clothing refers to clothing with multiple functions and is applied to various scenes. Temperature control and dehumidification are required to be considered in design. The existing intelligent clothes mainly rely on a fan to blow and refrigerate, the functionality is too single, and the clothes do not have the function of changing air, so that the fan works very bloated. The wind experienced by a person when in a hot environment is not cool but is a wave of heat, so its working environment is considered to be a specific environment.

The existing refrigeration clothes adopt a large fan to blow and cool, but wind power is mainly concentrated on the waist of the human body, which may cause lumbago caused by human infection. In addition, under the condition of no electricity, the volume of the fan is too large, so that the air can be quickly discharged, the air can be changed into sun-proof clothing, and the refrigeration clothing does not have comfortableness.

Disclosure of Invention

The invention aims to provide a device for intelligent clothes temperature control, temperature storage and dehumidification, which solves the problem that intelligent clothes in the prior art are not comfortable due to inconvenient temperature control.

In order to achieve the aim of the invention, the invention discloses a device for intelligent clothing temperature control, temperature storage and dehumidification, which comprises a gas ring and an outer temperature guide strip arranged along the outer part of the gas ring, wherein one end of the gas ring is provided with a temperature control unit, the other end of the gas ring is provided with an air supply unit, an inner temperature guide strip is arranged in the gas ring, the temperature control unit is connected with the inner temperature guide strip and the outer temperature guide strip, and a plurality of air outlet holes are formed in the gas ring.

As a further improvement of the above technical scheme:

The temperature control unit comprises a PCM phase change material heat storage bag and a temperature control device arranged on the PCM phase change material heat storage bag, the temperature control device comprises a Peltier semiconductor piece, the Peltier semiconductor piece comprises a working face and a non-working face, and the working face is connected with the PCM phase change material heat storage bag.

The temperature regulation and control device further comprises an aerogel felt spacer, and the Peltier semiconductor sheet is arranged on the PCM phase change material heat storage bag through the aerogel felt spacer and separates a working face from a non-working face of the PCM phase change material heat storage bag.

The aerogel felt spacer is provided with a fixed buckle, a radiating fin is arranged on the fixed buckle, a fin baffle plate is arranged at the outer end of the radiating fin, an axial flow turbofan is arranged outside the fin baffle plate, a Peltier temperature controller is arranged outside the axial flow turbofan, a temperature control shell is arranged outside the Peltier temperature controller, and the temperature control shell is connected with a PCM phase change material heat storage pack in a clamping mode.

And a phase-change heat dissipation silicone grease layer is arranged between the heat dissipation fins and the Peltier semiconductor sheet.

The air supply unit comprises a mounting flange, a radial fan, a central controller and an air supply shell, wherein the air supply shell is connected with the mounting flange in a clamping mode, the mounting flange is communicated with an air ring, the radial fan is connected with the mounting flange, air flows are blown into the air ring, and the central controller is arranged on the outer side of the radial fan.

A one-way valve is arranged between the mounting flange and the radial fan and comprises a blocking grid and a silica gel sheet arranged on the blocking grid. The check valve only allows gas to enter, and does not allow gas to be discharged from the check valve, so that the condition of rapid gas leakage after power failure is effectively avoided.

The outer conductor Wen Tiao and the inner conductor are both integrated with a conductive medium. The arrangement does not need to additionally arrange circuits, so that the whole structure is simple and compact.

And a temperature and humidity sensor is arranged on the outer side of the gas ring.

Compared with the prior art, the invention has the beneficial effects that:

The invention realizes the refrigerating and heating effect by the peltier semiconductor, not only achieves the refrigerating effect by simply relying on a fan or a turbofan, but also supplies air by the air outlet holes, thereby changing the centralized air supply into the distributed air supply and improving the comfort of human bodies. Under the condition of power failure, the device has unidirectionality, so that the rapid air leakage condition can not occur, and the long-time heat storage can be achieved. Solves the problem that the prior intelligent clothes have no comfort due to inconvenient temperature control.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of an explosive structure according to the present invention;

FIG. 3 is a schematic view of the gas ring structure of the present invention;

FIG. 4 is a schematic diagram of the structure of the check valve of the present invention.

Reference numerals: 1. a temperature control housing; 2. a peltier thermostat; 3. axial flow turbofan; 4. a fin baffle; 5. a heat radiation fin; 6. phase-change heat dissipation silicone grease layer; 7. peltier semiconductor wafer; 8. a fixing buckle; 9. aerogel felt spacers; 10. PCM phase change material thermal storage bag; 11. a gas ring; 12. an outer heat conducting strip; 14. a mounting flange; 15. a one-way valve; 16. a radial fan; 17. a central controller; 18. an air supply housing; 19. an air outlet hole; 20. an inner temperature guiding strip; 22. silicon wafer 23, barrier grid.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1 to 4, the device for temperature control, heat storage and dehumidification of intelligent clothing in this embodiment includes a gas ring 11 and an outer heat conduction strip 12 arranged along the outside of the gas ring 11, one end of the gas ring 11 is provided with a temperature control unit, the other end is provided with an air supply unit, the inside of the gas ring 11 is provided with an inner heat conduction strip 20, the temperature control unit is connected with the inner heat conduction strip 20 and the outer heat conduction strip 12, a plurality of gas outlet holes 19 are provided on the gas ring 11, and the number and arrangement intervals of the gas outlet holes 19 can be set according to requirements.

The temperature control unit comprises a PCM phase change material thermal storage bag 10 and a temperature control device arranged on the PCM phase change material thermal storage bag 10, wherein the temperature control device comprises a Peltier semiconductor piece 7, the Peltier semiconductor piece 7 comprises a working surface and a non-working surface, and the working surface is connected with the PCM phase change material thermal storage bag 10. The temperature regulating device further comprises an aerogel felt spacer 9, and the peltier semiconductor piece 7 is mounted on the PCM phase change material heat storage pack 10 through the aerogel felt spacer 9 and separates a working face and a non-working face thereof. The aerogel felt spacer 9 is provided with a fixed buckle 8, the fixed buckle 8 is provided with a radiating fin 5, the outer end of the radiating fin 5 is provided with a fin baffle 4, an axial flow turbofan 3 is arranged outside the fin baffle 4, a Peltier temperature controller 2 is arranged outside the axial flow turbofan 3, a temperature control shell 1 is arranged outside the Peltier temperature controller 2, and the temperature control shell 1 is connected with a PCM phase change material heat storage bag 10 in a clamping mode. The structure of this part is used to dissipate heat from the hot end, i.e. the non-working face, of the peltier semiconductor wafer 7 of the temperature control unit. A phase-change heat dissipation silicone grease layer 6 is arranged between the heat dissipation fins 5 and the peltier semiconductor piece 7.

The axial flow turbofan 3 is used for radiating the heat of the fin baffle plate 4 and the radiating fins 5 by extracting part of cold air, the fin baffle plate 4 and the radiating fins 5 are engraved by copper alloy CNC, and a plurality of radiating paths are designed on the radiating fins 5, so that the heat exchange area is enlarged. The back of the radiating fin 5 is stuck with a 1mm thick phase-change radiating silicone grease layer 6 which is directly stuck with the hot end of the Peltier semiconductor chip 7, thereby improving the heat exchange performance. The fixing buckle 8 can be used for installing the radiating fins 5, and has the functions of fixing, looseness prevention and certain diversion. The side of the Peltier semiconductor sheet 7 is inlaid in an aerogel felt spacer 9 with the thickness of 2mm, the working face is effectively separated from the environment of the non-working face, the working face of the Peltier semiconductor sheet 7 is also pasted with a phase-change heat dissipation silicone grease material with the thickness of 1mm, and the phase-change heat dissipation silicone grease material is connected with a PCM phase-change material heat storage bag 10, so that the heat transfer efficiency is improved. The invention innovatively uses the 20-degree PCM thermal storage material, when the semiconductor peltier works, the temperature of the semiconductor peltier is absorbed by the 20-degree PCM phase change material, when the working surface of the peltier is a cold surface, the 20-degree PCM phase change material is gradually solidified into solid from a solid-liquid mixture, and when the working surface is a hot surface, the 20-degree PCM phase change material is gradually liquefied into liquid from the solid-liquid mixture. When the peltier is not working and the 20 degree PCM phase change material is solid, the 20 degree PCM phase change material will conduct its own cooling energy to the inner heat conducting strip 20 of the gas ring 11, and so on, when the 20 degree PCM phase change material is liquid, the 20 degree PCM phase change material will conduct its own heat energy to the inner heat conducting strip 20 of the inner layer of the gas ring 11. The air ring 11 is of a multi-layer composite structure, the inner layer on the outer side of the air ring 11 is a novel heat-conducting and electric-conducting composite fabric called an inner heat-conducting strip 20, and the novel heat-conducting and electric-conducting composite fabric can be matched with the outer heat-conducting strip 12 to carry out current transmission on the structures such as the heat-dissipating axial flow turbofan 3, the Peltier temperature controller 2 and the like while being used as a heat-conducting medium. The outer heat conducting strip 12 and the inner heat conducting strip 20 are made of the same fabric. The outer layer of the inner side and the outer side of the gas ring 11 is made of air-proof polyester fiber composite fabric, and two rows of air outlet holes 19 with the diameter of 3mm are uniformly distributed on the upper side and the lower side.

The air supply unit comprises a mounting flange 14, a radial fan 16, a central controller 17 and an air supply shell 18, wherein the air supply shell 18 is clamped with the mounting flange 14, the mounting flange 14 is communicated with the air ring 11, the radial fan 16 is connected with the mounting flange 14 to blow air into the air ring 11, and the central controller 17 is arranged outside the radial fan 16.

A non-return valve 15 is arranged between the mounting flange 14 and the radial fan 16. When the air ring 11 compresses external air into the air ring 11 by the radial fan 16 with main air inlet, the temperature of the inner heat conducting strip 20 is brought to a human body by a thermal convection mode, the mounting flange 14 fixes the one-way valve 15 by using a gluing process, the one-way valve 15 consists of the blocking grid 23 and four silica gel sheets 22, and when the radial fan 16 stops working, the one-way valve 15 can prevent air in the air ring 11 from leaking, and only air is allowed to blow out from the air outlet hole 19 to raise the air flow rate. The functions of dehumidification and temperature reduction are achieved.

A temperature and humidity sensor is arranged outside the gas ring 11. And the working states of the temperature control unit and the air supply unit are adjusted through the detection of the temperature and the humidity in the clothes.

Example 2

Based on embodiment 1, the embodiment discloses a use method of a device for intelligent clothing temperature control, temperature storage and dehumidification, which comprises the following steps:

Judging whether the current humidity is within a threshold value, and if the current humidity is greater than the threshold value, starting a radial fan 16 of the air supply unit to perform ventilation and dehumidification; the humidity threshold here may be an interval or a fixed value, and a fixed value of 50% is defined, that is, when the humidity exceeds 50%, the current humidity is considered to be too high, and dehumidification is required.

Judging the current temperature condition, wherein the temperature interval is divided into a low temperature interval, a medium temperature interval and a high temperature interval, the temperature interval is set according to design requirements, the interval can be increased or reduced, the low temperature interval is the temperature lower than 18 ℃, the medium temperature interval is the temperature between 24 ℃ and 27 ℃, the high temperature interval is the temperature higher than 27 ℃, and the temperature interval can be modified according to the design requirements of the use scene.

When the temperature is in a low temperature range, the temperature is considered to be too low, and heating is needed, and at the moment, the working mode of the peltier semiconductor wafer 7 is controlled to be heating through the peltier temperature controller 2; the central controller adjusts the semiconductor temperature control sheet controller to adjust the current magnitude and the current direction of the semiconductor temperature control sheet through PWM. In order to distribute the heat evenly, the radial fan 16 is also turned on for ventilation.

When the temperature is in the medium temperature range, the heat dissipation is considered to be needed, and at the moment, the radial fan 16 of the air supply unit is started to perform ventilation and heat dissipation; because the temperature is not high, the comfort level can be ensured by adopting a ventilation and heat dissipation mode.

When the temperature is in a high temperature range, the temperature is considered to be required to be reduced and ventilated, the working mode of the peltier semiconductor wafer 7 is controlled to be refrigeration through the peltier temperature controller 2, and meanwhile the axial flow turbofan 3 is started to radiate heat on the non-working surface of the peltier semiconductor wafer 7. At this time, due to the fact that the temperature is high, the effect cannot be achieved by ventilation and heat dissipation, the air supply unit blows out cold in the air ring 11, cooling is achieved, and comfort level of a human body is improved.

The control mode is a PID control mode of a closed loop, so that the comfort and the endurance are greatly improved. And comparing the values measured by the temperature and humidity sensors. The communication method is that the central controller feeds back the actual rotation speed of the fan to the main board or the controller by using Tach rotation speed feedback line, and the system is allowed to monitor and adjust the speed of the fan. A radial fan and a waistband (assembled in the clothes) with good heat conduction performance are added, and the waistband plays a role in transferring and connecting, so that the heat conduction rate is enhanced. The two fans work respectively, so that the ventilation process can be smoothly completed. The unidirectional design of the air supply unit can maintain the state of heat accumulation for a longer time when no electricity exists. And meanwhile, a PWM pulse width modulation control line is adopted to control the speed of the fan. By adjusting the duty cycle of the PWM signal transmitted through this line, the speed of the fan can be finely controlled, thereby achieving better heat dissipation and noise control.

The foregoing is merely exemplary embodiments of the present invention, and specific structures and features that are well known in the art are not described in detail herein. It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a device for intelligent dress control by temperature change holds temperature and dehumidifies, its characterized in that includes gaseous ring (11) and along outer heat conduction strip (12) of gaseous ring (11) outside setting, gaseous ring (11) one end is provided with the control by temperature change unit, and the other end is provided with the air supply unit, gaseous ring (11) inside is provided with interior heat conduction strip (20), the control by temperature change unit links to each other with interior heat conduction strip (20) and outer heat conduction strip (12), a plurality of ventholes (19) have been seted up on gaseous ring (11).

2. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 1, wherein the temperature control unit comprises a PCM phase change material heat storage pack (10) and a temperature control device mounted on the PCM phase change material heat storage pack (10), the temperature control device comprises a peltier semiconductor wafer (7), the peltier semiconductor wafer (7) comprises a working surface and a non-working surface, and the working surface is connected with the PCM phase change material heat storage pack (10).

3. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 1 or 2, wherein the temperature control device further comprises an aerogel felt spacer (9), and the peltier semiconductor wafer (7) is mounted on a PCM phase change material heat storage pack (10) through the aerogel felt spacer (9) and separates a working face and a non-working face thereof.

4. The device for intelligent clothing temperature control and dehumidification according to claim 3, wherein a fixing buckle (8) is arranged on the aerogel felt spacer (9), a radiating fin (5) is arranged on the fixing buckle (8), a fin baffle (4) is arranged at the outer end of the radiating fin (5), an axial flow turbofan (3) is arranged outside the fin baffle (4), a peltier temperature controller (2) is arranged outside the axial flow turbofan (3), a temperature control shell (1) is arranged outside the peltier temperature controller (2), and the temperature control shell (1) and a PCM phase change material heat storage bag (10) are connected in a clamping mode.

5. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 4, wherein a phase-change heat dissipation silicone grease layer (6) is arranged between the heat dissipation fins (5) and the peltier semiconductor wafer (7).

6. The device for intelligent clothes temperature control, heat storage and dehumidification according to claim 5, wherein the air supply unit comprises a mounting flange (14), a radial fan (16), a central controller (17) and an air supply shell (18), the air supply shell (18) is clamped with the mounting flange (14), the mounting flange (14) is communicated with the air ring (11), the radial fan (16) is connected with the mounting flange (14) to blow air into the air ring (11), and the central controller (17) is arranged outside the radial fan (16).

7. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 6, wherein a one-way valve (15) is arranged between the mounting flange (14) and the radial fan (16), and the one-way valve (15) comprises a blocking grid (23) and a silica gel sheet (22) arranged on the blocking grid (23).

8. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 7, wherein the outer heat conducting strip (12) and the inner heat conducting strip (20) are integrated with conductive media.

9. The device for intelligent clothing temperature control, heat storage and dehumidification according to claim 8, wherein a temperature and humidity sensor is arranged on the outer side of the gas ring (11).

10. A method of using the device for intelligent apparel temperature control, heat storage and dehumidification as claimed in claim 9, comprising the steps of:

Judging whether the current humidity is within a threshold value, and if the current humidity is greater than the threshold value, starting a radial fan (16) of the air supply unit to perform ventilation and dehumidification;

judging the current temperature condition, wherein the temperature interval is divided into a low temperature interval, a medium temperature interval and a high temperature interval,

When the temperature is in a low temperature range, the temperature is considered to be required to be heated, and at the moment, the working mode of the peltier semiconductor wafer (7) is controlled to be heating through the peltier temperature controller (2);

when the temperature is in the medium temperature range, the heat dissipation is considered to be needed, and at the moment, the radial fan (16) of the air supply unit is started to perform ventilation and heat dissipation;

when the temperature is in a high-temperature range, the temperature is considered to be required to be reduced and ventilated, the working mode of controlling the Peltier semiconductor wafer (7) through the Peltier temperature controller (2) is adopted to cool, and meanwhile, the axial flow turbofan (3) is started to radiate heat on the non-working surface of the Peltier semiconductor wafer (7).