CN113080563A - Intelligent safety helmet lining and safety helmet - Google Patents

Abstract

An intelligent safety helmet liner and a safety helmet are provided with a helmet liner main body, a data acquisition device and a main control device, wherein the data acquisition device and the main control device are respectively assembled on the helmet liner main body; the data acquisition device is used for detecting physiological sign data, wearing condition data, falling and impacting data and height data of a user in real time; and the main control device is used for receiving and processing the data acquired by the data acquisition device. The invention can acquire whether a user wears a safety helmet or not, current physiological sign data and whether the user falls or bumps in real time through the data acquisition device, thereby avoiding dangerous situations.

Description

Intelligent safety helmet lining and safety helmet

Technical Field

The invention relates to the technical field of safety helmets, in particular to an intelligent safety helmet liner and a safety helmet.

Background

The safety helmet liner in the prior art only has the function of protecting the head of a user, and along with the requirement of intelligent management, a construction manager not only requires the safety helmet liner to play the function of protecting the head, but also hopes that the safety helmet liner can detect the wearing condition, physiological signs, posture, the height of the user and the like, so that the construction manager judges the real-time state of the user and reduces the occurrence probability of dangerous conditions. There is currently no helmet liner that performs the above functions.

Therefore, it is necessary to provide an intelligent helmet liner and a helmet to solve the deficiencies of the prior art.

Disclosure of Invention

It is an object of the present invention to provide an intelligent helmet liner that avoids the disadvantages of the prior art. The intelligent safety helmet liner can detect wearing condition data, physiological sign data, falling and impact data and height data of a user.

The above object of the present invention is achieved by the following technical measures:

the utility model provides an intelligent safety helmet lining, is provided with helmet lining main part, data acquisition device and master control unit, and data acquisition device and master control unit assemble respectively in the helmet lining main part, and data acquisition device is connected with master control unit.

The data acquisition device is used for detecting physiological sign data, wearing condition data, falling and impact data and height data of a user in real time.

And the main control device is used for receiving and processing the data acquired by the data acquisition device.

Preferably, the data acquisition device is provided with a sign detector, a decapping detector, an inertia detector and a height detector, wherein the sign detector, the decapping detector, the inertia detector and the height detector are respectively assembled on the cap liner main body, and the sign detector, the decapping detector, the inertia detector and the height detector are all connected with the main control device.

Preferably, the physical sign detector is used for detecting real-time physiological physical sign data of the user in real time.

Preferably, the uncapping detector is used for detecting wearing condition data of the user in real time.

Preferably, the inertia detector is used for detecting falling and impact data of the user.

Preferably, the height detector is configured to detect the current level data in real time.

Preferably, the above-mentioned physical sign detector is provided with at least one of a blood oxygen sensor or a heart rate sensor.

Preferably, the decapping detector is a proximity sensor.

Preferably, the inertial detector is provided with at least one of an acceleration sensor, a gyro sensor, and a magnetometer sensor.

Preferably, the height detector is provided as an air pressure sensor.

Preferably, above-mentioned master control set is provided with the main control board and the battery that provides the power, and battery, sign detector, uncapping detector, inertia detector and height detector all are connected with the main control board, and the battery is adjacent with the main control board.

Preferably, the physical sign detector, the uncapping detector, the inertial detector and the height detector are communicated with the main control board through IIC interfaces.

The surface of the helmet lining which is in contact with the skin of the head of a user in use is defined as the inner surface lining of the helmet, and the left side, the right side, the upper side and the lower side of the helmet lining are correspondingly defined by taking the left hand, the right hand, the overhead side and the lower side of the head of the user as references.

Preferably, the cap lining main body is provided with a lining belt body, an elastic belt body and a control box assembly, the lining belt body is integrally connected with the elastic belt body, the elastic belt body is positioned on the lower bottom surface of the lining belt body, and two tail ends of the elastic belt body respectively penetrate through the control box assembly.

Preferably, above-mentioned sign data acquisition device assembles in the middle part of the inside lining area body, and uncapping detector and sign detector assemble respectively in the inside lining area body, and sign detector is located forehead region, and inertia detector, height detector, main control board and battery assemble respectively in the inside of control box subassembly.

Preferably, above-mentioned inside lining area body is provided with inside lining main belt, through-hole, assembly box and is used for accomodating the line of walking of connecting wire and detains, and the through-hole is located the middle part in inside lining main belt, walks to detain an organic whole and connect in the surface in inside lining main belt, and the assembly box runs through the assembly in the through-hole, and the both ends in inside lining main belt are respectively with elasticity area body coupling.

Preferably, above-mentioned assembly box is provided with assembly plate, assembly shell and printing opacity waterproof layer, and the printing opacity waterproof layer assembles in the assembly shell, and the assembly shell runs through in the through-hole, and the chamber that holds that forms between assembly shell and the printing opacity waterproof layer, and uncapping detector and sign detector assemble in holding intracavity portion, and the assembly shell protrusion is in the printing opacity waterproof layer.

Preferably, the assembly plate is provided with two wiring grooves, and the two wiring grooves are distributed on the left side surface and the right side surface of the assembly plate.

Preferably, the control box assembly comprises an outer shell and an adjusting part for adjusting the tightness of the elastic belt body, the adjusting part is movably assembled on the outer shell, and two tail ends of the elastic belt body respectively penetrate through two opposite side surfaces of the outer shell.

Preferably, above-mentioned regulating part is provided with dress trim cover, spiral cover and gear, and dress trim cover fixed assembly in the spiral cover, and the spiral cover fixed assembly in the gear, the movable assembly of gear is in the inside of shell portion, and the gear is connected with two terminal toothings of elasticity area body.

Preferably, above-mentioned shell portion is provided with lower cover, well lid and upper cover, and lower cover, well lid and upper cover are from supreme fixed assembly in proper order down, are formed with first cavity between lower cover and the well lid, are formed with the second cavity between well lid and the upper cover, and inertia detector and height detector are fixed to be assembled in the main control board, and main control board and battery are fixed to be assembled in the inside both sides of first cavity.

Preferably, the gear is movably assembled in the second cavity, and two tail ends of the elastic belt body respectively penetrate through the second cavity.

It is another object of the present invention to avoid the deficiencies of the prior art and to provide a safety helmet with a safety helmet liner having a physiological sign detection function. The safety helmet can detect wearing condition data, physiological sign data, falling and impact data and height data of a user. .

The above object of the present invention is achieved by the following technical measures:

the safety helmet is provided with the intelligent safety helmet lining and the safety helmet main body, and the intelligent safety helmet lining is detachably assembled on the safety helmet main body.

The invention discloses an intelligent safety helmet liner and a safety helmet, which are provided with a helmet liner main body, a data acquisition device and a main control device, wherein the data acquisition device and the main control device are respectively assembled on the helmet liner main body; the data acquisition device is used for detecting physiological sign data, wearing condition data, falling and impacting data and height data of a user in real time; and the main control device is used for receiving and processing the data acquired by the data acquisition device. The invention can acquire whether a user wears a safety helmet or not, current physiological sign data and whether the user falls or bumps in real time through the data acquisition device, thereby avoiding dangerous situations.

Drawings

The invention is further illustrated by means of the attached drawings, the content of which is not in any way limiting.

Fig. 1 is a schematic structural view of an intelligent helmet liner.

Fig. 2 is another angle view of fig. 1.

Fig. 3 is another angle view of fig. 1.

Fig. 4 is a sectional view taken in the direction of "a-a" in fig. 3.

Fig. 5 is a sectional view taken in the direction of "a-a" in fig. 3.

Fig. 6 is a schematic structural view of the lining main belt and the elastic belt body.

Fig. 7 is a schematic view of the structure of the mounting box.

Fig. 8 is a schematic structural diagram of the control box assembly.

Fig. 9 is a schematic structural view of the adjustment portion.

Fig. 10 is a schematic structural view of the screw cap.

Fig. 11 is a schematic structural view of a gear.

Fig. 12 is a schematic structural view of the upper cover.

Fig. 13 is a schematic structural view of the middle cap.

FIG. 14 is a schematic sectional view of an assembled cassette according to example 3.

In fig. 1 to 14, the following are included:

a physical sign detector or uncapping detector 100,

A cap liner main body 200,

An inner lining belt body 210,

A lining main belt 211, a through hole 212, a wiring buckle 213,

An assembly box 214, an assembly plate 2141, an assembly housing 2142, a light-transmitting waterproof layer 2143, a wiring groove 2144,

A control box component 220,

A housing part 221, a lower cover 2211, a middle cover 2212, an upper cover 2213,

An adjusting part 222, a decorative cover 2221, a screw cover 2222, a gear 2223,

An elastic belt body 230,

A main control device 300, a main control board 310, a battery 320,

A human-computer interaction device 400.

Detailed Description

The technical solution of the present invention is further illustrated by the following examples.

Example 1.

An intelligent safety helmet liner is provided with a helmet liner main body 200, a data acquisition device and a main control device 300, wherein the data acquisition device and the main control device are respectively assembled on the helmet liner main body 200, and the data acquisition device is connected with the main control device 300, as shown in figures 1 to 3.

Wherein, data acquisition device for real-time detection user's physiological sign data, wearing condition data, fall and striking data and height data. The main control device 300 is used for receiving and processing the data collected by the data collection device.

The data acquisition device is provided with sign detector 100, uncapping detector 100, inertia detector and height detector, and sign detector 100, uncapping detector 100, inertia detector and height detector assemble respectively in cap liner main part 200, and sign detector 100, uncapping detector 100, inertia detector and height detector all are connected with master control unit 300.

The physical sign detector 100 is configured to detect real-time physiological sign data of a user in real time. The uncapping detector 100 is used for detecting wearing condition data of a user in real time. And the inertia detector is used for detecting the falling and impact condition data of the user. And the height detector is used for detecting the current horizontal height data in real time.

The vital signs detector 100 of the present invention is provided with at least one of a blood oxygen sensor or a heart rate sensor. The uncapping detector 100 is a proximity sensor. The inertial detector is provided with at least one of an acceleration sensor or, a gyroscope sensor or a magnetometer sensor. The height detector is provided as an air pressure sensor.

It should be noted that the blood oxygen sensor of the present invention is used for detecting blood oxygen data of a user, and the heart rate sensor is used for detecting heart rate data of the user. The acceleration sensor detects acceleration change data of a user, the gyroscope sensor is used for sensing space movement data in real time, and the magnetometer sensor is used for testing magnetic field intensity and direction movement in real time to obtain magnetic data. The method for calculating the posture change of the human body through the acceleration change data, the spatial movement data or the magnetic data is widely applied to industrial production, and the person skilled in the art should know that the method for calculating the posture change of the human body through the acceleration change data, the spatial movement data or the magnetic data is not described in a repeated way.

The blood oxygen sensor, the heart rate sensor, the acceleration sensor, the gyroscope sensor, the proximity sensor and the air pressure sensor are all commercially available sensors, and those skilled in the art should know the type selection, the working principle and the connection of the pins of the above sensors, and the description is not repeated herein.

The physical sign detector 100 of the present embodiment is specifically a blood oxygen sensor. The inertia detector is provided as an acceleration sensor. It should be noted that the physiological sign condition of the user can be judged by the blood oxygen sensor and the heart rate sensor, and the falling and impacting conditions of the user can be judged by the acceleration sensor or the gyroscope sensor.

The main control device 300 is provided with a main control board 310 and a battery 320 for providing power, the battery 320, the physical sign detector 100, the uncapping detector 100, the inertial detector, the height detector, the microphone and the speaker are all connected with the main control board 310, and the battery 320 is adjacent to the main control board 310. The signs detector 100, uncapped detector 100, inertial detector, and height detector communicate with the master control board 310 over an IIC interface.

It should be noted that the IIC interface of the present invention has the advantages of low power consumption, low cost and high real-time performance compared with other communication interfaces in the prior art, thereby improving the cruising ability of the battery 320. The present invention can use a low-capacity battery 320 for power supply, thereby reducing the overall weight of the intelligent helmet liner.

The battery 320 of the present invention is specifically a lithium battery.

The intelligent safety helmet lining is also provided with a human-computer interaction device 400 which is communicated with the outside, wherein the human-computer interaction device 400 is assembled on the helmet lining main body 200, and the human-computer interaction device 400 is connected with the main control device 300. The human-computer interaction device 400 is provided with a microphone and a speaker, which are respectively assembled to the cap liner main body 200, and both the microphone and the speaker are connected to the main control device 300.

The intelligent safety helmet lining is also provided with a positioning device for recording the moving track, the positioning device is assembled on the helmet lining main body 200, the positioning device is connected with the main control board 310, and the positioning device is fixed on the main control board 310.

It should be noted that the positioning device of the present invention is a positioning device that is positioned by integrating a base station, WIFI, GPS and a-GPS, and for the positioning device with positioning function, it has been widely applied to the field of communication and tracking, and those skilled in the art should know the type selection, working principle and pin connection of the positioning device, and will not be described herein one by one.

The working principle of the safety helmet liner of the embodiment is as follows: the physical sign data acquisition device acquires physical signs of a user to obtain physical sign signals, the physical sign data acquisition device transmits the physical sign signals to the main control board 310, the uncapping detector 100 detects the wearing condition of the user in real time to obtain wearing signals, the uncapping detection device transmits the wearing signals to the main control board 310, the inertial detector detects the falling and impacting conditions of the user in real time to obtain inertial signals, the inertial detector transmits the inertial signals to the main control board 310, the height detector detects the current horizontal height of the user in real time to obtain height signals, the height detector transmits the height signals to the main control board 310, the microphone acquires voice signals of the user, the microphone transmits the voice signals to the main control board 310, the positioning device acquires the current positioning signals of the user, the positioning device transmits the positioning signals to the main control board 310, and the main control board 310 receives the physical sign signals, the inertial signal, the height signal, the positioning signal and the voice signal are processed to obtain a processing signal, the main control board 310 sends the processing signal to the external device, the main control board 310 sends the external voice signal of the external device to the loudspeaker, and the loudspeaker receives the external voice signal and broadcasts the external voice signal.

It should be noted that the main control board 310 may be a basic function of a single chip microcomputer or a chip, and the single chip microcomputer or the chip with such a function is widely used, such as an STM32 single chip microcomputer, and those skilled in the art should know the selection of the model and the pin connection, which will not be described herein in detail.

This intelligent safety helmet lining can acquire through data acquisition device whether the user wears safety helmet, current physiological sign data, whether the detection user has the condition of falling and striking in real time to avoid the dangerous condition to take place. Meanwhile, the intelligent safety helmet liner has the advantages of low power consumption, low cost and high real-time performance, and can improve the cruising ability of the battery 320 and reduce the capacity of the battery 320, so that the overall weight of the intelligent safety helmet liner is reduced.

Example 2.

An intelligent safety helmet liner, other characteristics of which are the same as embodiment 1, as shown in fig. 1 to 13, further comprising the following features: the surface of the helmet lining which is in contact with the skin of the head of a user in use is defined as the inner surface lining of the helmet, and the left side, the right side, the upper side and the lower side of the helmet lining are correspondingly defined by taking the left hand, the right hand, the overhead side and the lower side of the head of the user as references.

The cap lining main body 200 is provided with an inner lining band body 210, an elastic band body 230 and a control box assembly 220, the inner lining band body 210 is integrally connected with the elastic band body 230, the elastic band body 230 is positioned on the lower bottom surface of the inner lining band body 210, and two tail ends of the elastic band body 230 respectively penetrate through the control box assembly 220.

Sign data acquisition device assembles in the middle part of inside lining area body 210, and uncapping detector 100, sign detector 100, microphone and speaker assemble respectively in inside lining area body 210, and the speaker is located the regional top of people's ear, and the microphone is located the regional top of oral area, and two sides about speaker and microphone lining area body 210 respectively, and sign detector 100 is located the forehead region, and inertia detector, height detector, main control panel 310 and battery 320 assemble respectively in the inside of control box subassembly 220.

It should be noted that the inertia detector, the height detector, the main control board 310 and the battery 320 of the present invention are all integrated in the inner space of the control box assembly 220, and the control box assembly 220 can also adjust the tightness of the cap liner main body 200, thereby making full use of the space of the cap liner main body 200. The overall volume of the inventive helmet liner does not increase much compared to prior art helmet liners. Sign detector 100 is located in the forehead area, and when the user wears the headwear, sign detector 100 can contact the forehead so that the sign data of the user can be normally and accurately detected.

The position arrangement of the microphone and the loudspeaker of the invention conforms to the human body structure, and the loudspeaker is positioned above the ear area of a human body, thereby ensuring that the sound can be transmitted to the ear with minimum interference in the shortest distance. The microphone is located above the mouth region to reduce the sound propagation distance, thereby improving the clarity. And the speaker and the microphone are respectively lined on the left side and the right side of the tape body 210, so that mutual interference can be reduced.

The lining belt body 210 is provided with a lining main belt 211, a through hole 212, an assembly box 214 and a wiring buckle 213 for accommodating a connecting line, the through hole 212 is located in the middle of the lining main belt 211, the wiring buckle 213 is integrally connected to the surface of the lining main belt 211, the assembly box 214 penetrates through the through hole 212, and two ends of the lining main belt 211 are respectively integrally connected with the elastic belt body 230. The assembly box 214 is provided with an assembly plate 2141, an assembly shell 2142 and a light-transmitting waterproof layer 2143, the light-transmitting waterproof layer 2143 is assembled to the assembly shell 2142, the assembly shell 2142 penetrates through the through hole 212, an accommodating cavity is formed between the assembly shell 2142 and the light-transmitting waterproof layer 2143, the cap-off detector 100 and the physical sign detector 100 are assembled inside the accommodating cavity, and the assembly shell 2142 protrudes out of the light-transmitting waterproof layer 2143. The assembly plate 2141 is provided with two wire grooves 2144, and the two wire grooves 2144 are distributed on the left and right sides of the assembly plate 2141.

The wiring buckle 213 of the present invention is used to fix the data acquisition device and the man-machine interaction device 400 with the main control device 300, so as to prevent the displacement and make the safety helmet lining clean.

It should be noted that, because the user is likely to sweat during the construction operation, the light-transmitting waterproof layer 2143 can prevent the user from permeating into the interior of the vital sign data collecting device, so as to protect the vital sign data collecting device. When the mounting case 2142 protrudes from the light-transmitting and waterproof layer 2143, the pressing feeling caused by the direct contact between the light-transmitting and waterproof layer 2143 and the skin of the user can be prevented, thereby improving the comfort.

The control box assembly 220 has a housing portion 221 and an adjusting portion 222 for adjusting the tightness of the elastic band body 230, the adjusting portion 222 is movably assembled to the housing portion 221, and two ends of the elastic band body 230 respectively penetrate through two opposite side surfaces of the housing portion 221.

The adjusting portion 222 is provided with a decorative cover 2221, a rotary cover 2222 and a gear 2223, the decorative cover 2221 is fixedly assembled to the rotary cover 2222, the rotary cover 2222 is fixedly assembled to the gear 2223, the gear 2223 is movably assembled to the inside of the housing portion 221, and the gear 2223 is in toothed connection with two ends of the elastic band body 230.

The housing 221 is provided with a lower cover 2211, a middle cover 2212 and an upper cover 2213, the lower cover 2211, the middle cover 2212 and the upper cover 2213 are sequentially and fixedly assembled from bottom to top, a first cavity is formed between the lower cover 2211 and the middle cover 2212, a second cavity is formed between the middle cover 2212 and the upper cover 2213, the inertia detector and the height detector are fixedly assembled on the main control board 310, the main control board 310 and the battery 320 are fixedly assembled on two sides inside the first cavity, the gear 2223 is movably assembled in the second cavity, and two tail ends of the elastic belt 230 are respectively penetrated through the second cavity.

Compared with embodiment 1, the present embodiment reasonably distributes the data acquisition device and the main control device 300 to the cap liner main body 200, thereby not excessively increasing the overall volume through reasonable assembly.

Example 3

An intelligent safety helmet liner, other characteristics of which are the same as embodiment 2, as shown in fig. 14, further comprises the following characteristics: the height of the assembling case 2142 protruding from the light-transmitting waterproof layer 2143 is defined as A, and A is larger than or equal to 1mm and smaller than or equal to 10mm, as shown in FIG. 6. Example a is specifically 3 mm.

Experiments prove that when A is too small, the light-transmitting waterproof layer 2143 is easy to adhere to a user when the user uses the helmet liner, and when A is too large, the detection precision is reduced, so that the comfort level and the detection precision are the best within the range of 1mm to 10 mm.

The assembly housing 2142 of the present invention is a silicone housing assembly housing 2142. The light-transmitting waterproof layer 2143 of the present invention is a glass sheet or a plastic sheet, and the light-transmitting waterproof layer 2143 of this embodiment is specifically a plastic sheet.

The glass sheet has an advantage that the light transmittance is high to improve the detection accuracy, and the plastic sheet is light to reduce the burden on the user.

The middle of the assembly plate 2141 of the present invention is a curved surface structure, and an accommodation space for accommodating a case exists between the curved surface structure and the cap liner main body 200. The receiving space allows a large portion of the assembly housing 2142 to be received therein, thereby improving the fit between the cap liner body 200 and the head of the user and improving the comfort when worn.

Compared with embodiment 2, the comfort of the intelligent helmet liner of the present embodiment is higher.

Example 4.

A helmet with an intelligent helmet liner, comprising the intelligent helmet liner as in any one of embodiments 1 to 3 and a helmet body, wherein the intelligent helmet liner is detachably mounted on the helmet body.

In practical applications, the helmet main body is exposed to the outside, and the helmet liner is stored in the helmet main body, which is relatively easily damaged. When the safety helmet main body is damaged, only the intelligent safety helmet liner needs to be detached and assembled on a new safety helmet main body, so that the replacement cost can be reduced.

This safety helmet can acquire in real time whether the user wears safety helmet, current physiological sign data, whether the detection user has the condition of falling and striking through data acquisition device to avoid the dangerous condition to take place.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. An intelligent safety helmet liner characterized in that: the helmet lining is provided with a helmet lining main body, a data acquisition device and a main control device, wherein the data acquisition device and the main control device are respectively assembled on the helmet lining main body;

the data acquisition device is used for detecting physiological sign data, wearing condition data, falling and impacting data and height data of a user in real time;

and the main control device is used for receiving and processing the data acquired by the data acquisition device.

2. The intelligent safety helmet liner of claim 1, wherein: the data acquisition device is provided with a sign detector, a decapping detector, an inertia detector and a height detector, wherein the sign detector, the decapping detector, the inertia detector and the height detector are respectively assembled on the cap liner main body, and the sign detector, the decapping detector, the inertia detector and the height detector are all connected with the main control device;

the physical sign detector is used for detecting real-time physiological physical sign data of a user in real time;

the uncapping detector is used for detecting wearing condition data of a user in real time;

the inertia detector is used for detecting falling and impact condition data of a user;

the height detector is used for detecting the current horizontal height data in real time.

3. The intelligent safety helmet liner of claim 2, wherein: the physical sign detector is provided with at least one of a blood oxygen sensor or a heart rate sensor;

the uncapping detector is a proximity sensor;

the inertial detector is provided with at least one of an acceleration sensor, a gyroscope sensor or a magnetometer sensor;

the height detector is set as an air pressure sensor.

4. The intelligent safety helmet liner of claim 3, wherein: the main control device is provided with a main control board and a battery for providing a power supply, the battery, the sign detector, the uncapping detector, the inertia detector and the height detector are all connected with the main control board, and the battery is adjacent to the main control board.

5. The intelligent safety helmet liner of claim 4, wherein: the surface of the safety helmet liner, which is abutted against the skin of the head of a user when in use, is defined as the inner surface liner of the safety helmet, and the left side, the right side, the upper side and the lower side of the safety helmet liner are correspondingly defined by taking the left hand, the right hand, the overhead side and the lower side of the head of the user as references;

the cap lining main body is provided with a lining belt body, an elastic belt body and a control box assembly, the lining belt body and the elastic belt body are integrally connected, the elastic belt body is positioned on the lower bottom surface of the lining belt body, and two tail ends of the elastic belt body respectively penetrate through the control box assembly;

sign data acquisition device assembles in the middle part of the inside lining area body, and uncapping detector and sign detector assemble respectively in the inside lining area body, and sign detector is located the forehead and regional, and inertia detector, height detector, main control board and battery assemble respectively in the inside of control box subassembly.

6. The intelligent safety helmet liner of claim 5, wherein: the inside lining area body is provided with inside lining main belt, through-hole, assembly box and is used for accomodating the line of walking of connecting wire and detains, and the through-hole is located the middle part in inside lining main belt, walks to detain an organic whole and connect in the surface in inside lining main belt, and the assembly box runs through the assembly in the through-hole, and the both ends in inside lining main belt are respectively with elasticity area body an organic whole and are connected.

7. The intelligent safety helmet liner of claim 6, wherein: the assembling box is provided with an assembling plate, an assembling shell and a light-transmitting waterproof layer, the light-transmitting waterproof layer is assembled on the assembling shell, the assembling shell penetrates through the through hole, an accommodating cavity is formed between the assembling shell and the light-transmitting waterproof layer, the uncapping detector and the physical sign detector are assembled in the accommodating cavity, and the assembling shell protrudes out of the light-transmitting waterproof layer;

the assembly plate is provided with two wiring grooves, and the two wiring grooves are distributed on the left side face and the right side face of the assembly plate.

8. The intelligent safety helmet liner of claim 7, wherein: the control box subassembly has shell portion and the regulation portion that is used for adjusting the elasticity of the elasticity area body, and regulation portion activity assembly is in shell portion, and two ends of the elasticity area body run through respectively in two relative sides of shell portion.

9. The intelligent headgear liner of claim 8, wherein: the adjusting part is provided with a decorative cover, a rotary cover and a gear, the decorative cover is fixedly assembled on the rotary cover, the rotary cover is fixedly assembled on the gear, the gear is movably assembled inside the shell part, and the gear is in tooth joint with two tail ends of the elastic belt body;

the shell part is provided with a lower cover, a middle cover and an upper cover, the lower cover, the middle cover and the upper cover are fixedly assembled in sequence from bottom to top, a first cavity is formed between the lower cover and the middle cover, a second cavity is formed between the middle cover and the upper cover, the inertia detector and the height detector are fixedly assembled on the main control board, the main control board and the battery are fixedly assembled on two sides of the inner part of the first cavity,

the gear is movably assembled in the second cavity, and two tail ends of the elastic belt body respectively penetrate through the second cavity.

10. A safety helmet, characterized in that: the intelligent safety helmet liner and the safety helmet main body are provided according to any one of claims 1 to 9, wherein the intelligent safety helmet liner is detachably assembled on the safety helmet main body.

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