CN217471302U - Clothing is aerifyd to intelligence and clothing system is aerifyd to intelligence - Google Patents

Abstract

The utility model provides a clothing is aerifyd to intelligence and clothing system is aerifyd to intelligence aims at solving among the prior art and aerifys the clothing and need manually fill the gassing, and is unhygienic, the problem that the degree of just aerifing is difficult to control of inefficiency. The intelligent inflatable garment comprises a garment body, an inflatable assembly and a controller; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a micro inflator pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air outlet, a clothes air inlet pipe and an inflation pipe; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and the Bluetooth type microcontroller is provided with a Bluetooth antenna; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with the human-computer interaction component. The inflation assembly comprises a clothes airbag, a three-way electromagnetic valve and a miniature inflator pump, inflation or deflation can be realized through mutual matching of the three parts, and electric inflation and deflation replaces manual inflation and deflation, so that the clothes airbag is more sanitary and convenient.

Description

Clothing is aerifyd to intelligence and clothing system is aerifyd to intelligence

Technical Field

The utility model belongs to the technical field of aerify clothing, concretely relates to clothing and intelligent inflatable clothing system are aerifyd to intelligence.

Background

Currently there are several general types of thermal garments: the first is the most traditional down jacket, which achieves different warm keeping effects according to the filling amount of down. The second is an electric heating garment, which uses some flexible heating materials to realize the warm-keeping effect. Inflatable garments have also appeared on the market today, which achieve a warming effect by filling air, a poor conductor of heat. The specific principle is that the air bag structure is skillfully designed on the clothes, and a certain amount of air is filled or discharged through the inflating nozzle, so that the air filling rate of the clothes is different, and different warm-keeping effects are obtained.

However, the inflatable clothes on the market at present often need a user to directly inflate towards the inflating valve by using a mouth, and the use is slightly troublesome and is not sanitary. The exhaust can be only discharged by hands, the operation is not very convenient, and the exhaust volume is not easy to control.

SUMMERY OF THE UTILITY MODEL

The utility model provides a clothing is aerifyd to intelligence and clothing system is aerifyd to intelligence aims at solving among the prior art and aerifys clothing and need manually fill gassing, and is unhygienic, the inefficiency and the problem of aerifing the degree and being difficult to control.

In order to solve the technical problem, the technical scheme adopted by the disclosure is as follows:

in a first aspect, the present disclosure provides a smart inflatable garment comprising a garment body, an inflation assembly, and a controller; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a micro inflator pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna for terminal communication is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with a human-computer interaction component.

The further improved scheme is as follows: AI treater, miniature pump, bluetooth type microcontroller all set up on the clothes body through removable mode.

Based on the scheme, when clothes are washed, the AI processor, the micro inflator pump and the Bluetooth type microcontroller are convenient to disassemble, so that damage is avoided.

The further improved scheme is as follows: the AI processor comprises a shell and a fixing ring, the fixing ring is arranged on the clothes, the shell is provided with an elastic insertion part, and a groove matched with the fixing ring is arranged between the elastic insertion part and the shell; the shell is detachably arranged in the groove through the elastic inserting portion.

Based on the above scheme, the AI treater passes through the casing and can dismantle with solid fixed ring and connect, makes things convenient for the dismouting.

The further improved scheme is as follows: the fixing ring is fixedly arranged on the front fly of the clothes.

Based on above-mentioned scheme, with the fixed ring fixed setting on the door front of a garment, be convenient for control.

The further improved scheme is as follows: the man-machine interaction assembly comprises a microphone and a loudspeaker.

Based on the scheme, the microphone and the loudspeaker can control the inflation and deflation of the miniature inflation pump through voice. The AI processor can realize off-line voice recognition, allows a user to control inflation gears and the like by using a plurality of voice instructions, and realizes more convenient control. The off-line voice recognition does not need to be connected with a network, and the privacy and safety of the user are ensured. In addition, the voice-print function is also provided, and the personal equipment only allows personal voice control and prevents external interference.

The further improved scheme is as follows: the human-computer interaction component includes a 6-axis motion sensor communicatively coupled to the AI processor.

Based on the scheme, by means of the 6-axis motion sensor and the AI processor, the motion state of the user, such as sitting, walking, running and the like, can be accurately identified; when the 6-axis motion sensor detects that the clothes are still and do not move for a long time, the user takes off the clothes, and the system can be automatically stopped.

In addition, detect through 6 axle motion sensors that the user tumbles, accessible AI treater is with signal transfer to bluetooth type microcontroller, and bluetooth type microcontroller passes through bluetooth antenna with signal transfer to the cell-phone to realize local warning or send through cell-phone APP and inform for appointed contact.

The further improved scheme is as follows: the 6-axis motion sensor is disposed on a housing of the AI processor.

The further improved scheme is as follows: the inner side of the lower hem of the garment body is provided with a pocket, the micro inflator pump and the Bluetooth microcontroller are arranged in the same shell and are all placed in the pocket on the inner side of the lower hem of the garment body, and the micro inflator pump is detachably connected with the three-way electromagnetic valve in a mode that the inflator tube can be plugged.

Based on the scheme, the micro inflator pump and the Bluetooth type microcontroller are arranged in the same shell and are all placed in the pocket on the inner side of the lower hem of the garment, so that the influence of the micro inflator pump and the Bluetooth type microcontroller on normal life can be avoided.

The further improved scheme is as follows: the Bluetooth type microcontroller is electrically connected with a switch key and an LED lamp.

In a second aspect, the present disclosure provides an intelligent inflatable garment system, comprising a garment body, an inflatable assembly, a controller and a terminal; the inflation assembly comprises a clothes airbag, a three-way electromagnetic valve and a miniature inflation pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna communicated with a terminal is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with a human-computer interaction component.

The beneficial effect of this disclosure does:

in the intelligent inflatable garment of the present disclosure, the controller comprises a bluetooth-type microcontroller and an AI processor; the micro inflator pump and the three-way electromagnetic valve can be controlled by the Bluetooth microcontroller to inflate the air bags of the clothes, and when the air bags of the clothes are full of air, the effect of keeping warm can be achieved; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a miniature inflation pump, the three parts are mutually matched, inflation or deflation can be achieved, electric inflation and deflation replace manual inflation and deflation, and the clothes air bag is more sanitary and convenient to use. Through AI treater and human-computer interaction subassembly, can gather people's information and through AI treater and bluetooth type microcontroller, according to the people's of gathering information, control miniature pump and three solenoid valve's work, can also transmit the people's that gathers data information to the terminal through bluetooth antenna.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present disclosure, and therefore should not be considered as limiting the scope, and it will be apparent to those skilled in the art that other relevant drawings can be obtained based on these drawings without inventive effort.

FIG. 1 is a schematic logic diagram of the inflation assembly and controller of the smart inflatable garment of the present disclosure.

FIG. 2 is a schematic diagram of the logic of the inflation assembly in the smart inflatable garment of the present disclosure.

Fig. 3 is a schematic view of a housing structure of the AI processor in the present disclosure.

Detailed Description

The technical solution in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and do not delimit the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the disclosure without inventive step, are within the scope of the disclosure.

The first embodiment is as follows:

referring to fig. 1 to 3, the present embodiment provides an intelligent inflatable garment, including a garment body, an inflatable assembly and a controller; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a micro inflator pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna for terminal communication is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller through a UART, and the AI processor is in communication connection with a human-computer interaction component.

The Bluetooth type microcontroller is electrically connected with a switch key and an LED lamp; the bluetooth type microcontroller is the main brain of the whole controller and is responsible for bluetooth communication, inflation control, basic man-machine interaction (key input and LED indication) and the like.

Wherein, the combination mode of clothes gasbag and clothes body can adopt current technique, or adopts following structure: the garment body comprises an outer layer, an inner layer and a middle layer, wherein a down layer is arranged between the outer layer and the middle layer, and the inner layer and the middle layer are divided into mutually communicated garment airbags through bonding lines.

In order to avoid the damage of electronic components when washing clothes, on the basis of above-mentioned scheme, AI treater, miniature pump, bluetooth type microcontroller all set up on the clothes body through removable mode. When the clothes are washed, the AI processor, the micro inflator pump and the Bluetooth microcontroller are convenient to disassemble, so that electronic components are prevented from being damaged.

Referring to fig. 3, the AI processor includes a housing and a fixing ring, the fixing ring is disposed on the garment, the housing is provided with an elastic insertion portion, and a groove matched with the fixing ring is disposed between the elastic insertion portion and the housing; the shell is detachably arranged in the groove through the elastic inserting portion. The AI treater passes through the casing and can dismantle with solid fixed ring and connect, makes things convenient for the dismouting. In order to facilitate the operation of the AI processor, the fixing ring is further fixedly arranged at the position of a front fly or a chest of the clothes. The shell comprises a rear cover, a plastic support and a front cover (silicon rubber), wherein the front cover and the rear cover are respectively arranged on the front side and the rear side of the plastic support, the front cover is used as an elastic insertion part, and a groove is formed between the front cover and the plastic support.

In order to facilitate the control of the miniature inflator pump and the three-way electromagnetic valve through off-line voice, on the basis of the scheme, the human-computer interaction assembly comprises a microphone and a loudspeaker. Through the microphone and the loudspeaker, the inflation and deflation of the miniature inflation pump can be controlled through voice. The AI processor can realize off-line voice recognition, allows a user to control inflation gears and the like by using a plurality of voice instructions, and realizes more convenient control. The off-line voice recognition does not need to be connected with a network, and the privacy and safety of the user are ensured. In addition, the voice-print gesture function is also provided, and the personal device only allows personal voice control and prevents external interference. The AI processor can realize off-line voice recognition through the microphone and the loudspeaker, allows a user to control an inflation gear and the like by using a plurality of voice instructions, and realizes more convenient control; the off-line voice recognition does not need to be connected with a network, so that the privacy and safety of a user are ensured; in addition, the voice-print gesture function is also provided, and the personal device only allows personal voice control and prevents external interference.

In order to save electric energy and avoid misoperation; the human-computer interaction component includes a 6-axis motion sensor communicatively coupled to the AI processor. By means of the 6-axis motion sensor and the AI processor, the motion state of the user, such as sitting, walking, running, etc., can be accurately identified; when the 6-axis motion sensor detects that the clothes are still and do not move for a long time, the user takes off the clothes, and the system can be automatically stopped. In addition, detecting through 6 axis motion sensor that the user tumbles, accessible AI treater with signal transfer to bluetooth type microcontroller, bluetooth type microcontroller passes through the bluetooth antenna with signal transfer to the cell-phone to realize local warning or send the notice for appointed contact through cell-phone APP. To simplify the structure, the 6-axis motion sensor may be provided on the housing of the AI processor.

The inner side of the lower hem of the garment body is provided with a pocket, the micro inflator pump and the Bluetooth microcontroller are arranged in the same shell and are all placed in the pocket on the inner side of the lower hem of the garment, and the micro inflator pump is detachably connected with the three-way electromagnetic valve in a manner that the inflator tube can be plugged. The micro inflator pump and the Bluetooth type microcontroller are arranged in the same shell and are all placed in the pocket on the inner side of the lower hem of the garment, so that the influence of the micro inflator pump and the Bluetooth type microcontroller on normal life can be avoided.

Example two:

the embodiment provides an intelligent inflatable garment system which comprises a garment body, an inflatable assembly, a controller and a terminal; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a micro inflator pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna communicated with a terminal is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with a human-computer interaction component.

The terminal is provided with an APP/applet; because local key operation and voice recognition operation are limited in implementation, the kit is equipped with an APP/applet to implement more complex functions, including firmware upgrades and the like.

Description of the working principle: the three-way electromagnetic valve and the micro inflator pump are controlled by voice or cases to inflate or deflate the clothes air bag; after the clothes are taken off, the 6-axis motion sensor can detect that the clothes are static and do not move for a long time, the system can be automatically stopped, and electric energy is saved; when wearing clothes be the old man, if 6 motion sensor detect the old man and fall the back, can loop through AI treater, bluetooth type microcontroller and bluetooth antenna with the signal that 6 motion sensor detected, transmit the terminal to send for the parent through APP/applet.

The disclosure is not limited to the above optional embodiments, and on the premise of no conflict, the schemes can be combined arbitrarily; any other products in various forms can be obtained in the light of the present disclosure, but any changes in shape or structure are within the scope of the present disclosure, and all technical solutions falling within the scope of the present disclosure are within the scope of the present disclosure.

Claims (10)

1. The utility model provides a clothing is aerifyd to intelligence which characterized in that: comprises a clothes body, an inflation assembly and a controller; the inflation assembly comprises a clothes airbag, a three-way electromagnetic valve and a miniature inflation pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna for terminal communication is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with a human-computer interaction component.

2. The intelligent inflatable garment according to claim 1, wherein: the AI processor, the miniature inflator pump and the Bluetooth type microcontroller are all arranged on the clothes body in a detachable mode.

3. The intelligent inflatable garment according to claim 2, wherein: the AI processor comprises a shell and a fixing ring, the fixing ring is arranged on the clothes, the shell is provided with an elastic plug-in part, and a groove matched with the fixing ring is arranged between the elastic plug-in part and the shell; the shell is detachably arranged in the groove through the elastic inserting portion.

4. The intelligent inflatable garment according to claim 3, wherein: the fixing ring is fixedly arranged on the front fly of the clothes.

5. The intelligent inflatable garment according to claim 1 or 3, wherein: the man-machine interaction component comprises a microphone and a loudspeaker.

6. The intelligent inflatable garment according to claim 1 or 3, wherein: the human-computer interaction component includes a 6-axis motion sensor communicatively coupled to the AI processor.

7. The intelligent inflatable garment of claim 6, wherein: the 6-axis motion sensor is disposed on a housing of the AI processor.

8. The intelligent inflatable garment of claim 2, wherein: the inner side of the lower hem of the garment body is provided with a pocket, the micro inflator pump and the Bluetooth microcontroller are arranged in the same shell and are all placed in the pocket on the inner side of the lower hem of the garment body, and the micro inflator pump is detachably connected with the three-way electromagnetic valve in a mode that the inflator tube can be plugged.

9. The intelligent inflatable garment of claim 1, wherein: the Bluetooth type microcontroller is electrically connected with a switch key and an LED lamp.

10. The utility model provides a clothing system is aerifyd to intelligence which characterized in that: the inflatable clothes comprise a clothes body, an inflatable component, a controller and a terminal; the inflation assembly comprises a clothes air bag, a three-way electromagnetic valve and a micro inflator pump; the controller comprises a Bluetooth type microcontroller and an AI processor; the garment airbag is arranged on the garment body; the three-way electromagnetic valve is provided with an air release port, a clothes air inlet pipe connected with the clothes air bag and an inflation pipe connected with the micro inflator pump; the micro inflator pump and the three-way electromagnetic valve are both connected with the Bluetooth type microcontroller, and a Bluetooth antenna communicated with a terminal is arranged on the Bluetooth type microcontroller; the AI processor is in communication connection with the Bluetooth type microcontroller, and the AI processor is in communication connection with a human-computer interaction component.

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