CN115316743A

CN115316743A - Helmet of internet of things

Info

Publication number: CN115316743A
Application number: CN202210859122.0A
Authority: CN
Inventors: 章善财
Original assignee: Hefei Yirui Communication Technology Co Ltd
Current assignee: Hefei Yirui Communication Technology Co Ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2022-11-11

Abstract

The embodiment of the application relates to the technical field of Internet of things, and discloses an Internet of things helmet, above-mentioned Internet of things helmet includes: the helmet comprises a helmet shell, a fixing piece, a control device, a plurality of induction coils and an alarm device; the fixing piece and the alarm device are arranged outside the helmet shell, the control device is fixed on the helmet shell through the fixing piece, and the control device comprises a processor, a transmitting end and a receiving end; the induction coils are embedded in the helmet shell at preset intervals and comprise first ends connected with the transmitting end and second ends connected with the receiving end; the processor sends a detection signal to the induction coil through the transmitting end, receives the detection signal transmitted by the induction coil through the receiving end, and controls the alarm device to give an alarm if the detection signal transmitted by the induction coil is not received or the received detection signal transmitted by the induction coil is distorted, so that whether the helmet is damaged or not is reported in real time, and more comprehensive and more detailed protection is provided for a wearer.

Description

Helmet of internet of things

Technical Field

The embodiment of the application relates to the technical field of the Internet of things, in particular to an Internet of things helmet.

Background

When workers are engaged in production, the workers often contact various dangerous environments, and therefore can safely produce the safety helmet by making corresponding protective measures, common protective measures comprise protective clothing, goggles, safety shoes, gas masks, safety helmets and the like, wherein the safety helmets are widely applied to the environments of construction sites, transportation, mineral exploitation and the like, the safety helmets can reduce collision injuries such as falling objects, broken stone splashing and the like by virtue of firm shells of the safety helmets, and part of intelligent helmets also have a Global Positioning System (GPS) Positioning function, a searchlight illumination function and the like.

However, the inventor of the present application finds that environments such as construction sites, transportation, and mineral exploitation are very complex, and not only risks such as falling objects and broken stones are splashed exist, but also workers wearing helmets with only an anti-collision function cannot completely satisfy these complex working environments, and wearers cannot find the helmets in time when the helmets are damaged, so that the helmets cannot provide comprehensive protection for the wearers.

Disclosure of Invention

The purpose of this application embodiment is to provide an thing networking helmet, can detect and report whether helmet itself takes place to damage in real time, accurately, provide more comprehensive, more detailed protection for the person of wearing.

In order to solve the technical problem, an embodiment of the application provides an internet of things helmet, which comprises a helmet shell, a fixing piece, a control device, a plurality of induction coils and an alarm device; the fixing piece and the alarm device are both arranged outside the helmet shell, the control device is fixed on the helmet shell through the fixing piece, the control device comprises a processor, a transmitting end and a receiving end, the processor is respectively connected with the receiving end and the transmitting end, and the alarm device is connected with the processor; the induction coils are embedded in the helmet shell at preset intervals and comprise first ends and second ends, the first ends are connected with the transmitting ends, and the second ends are connected with the receiving ends; the processor is used for sending a detection signal to the induction coil through the transmitting end, receiving the detection signal transmitted by the induction coil through the receiving end, and controlling the alarm device to give an alarm if the detection signal transmitted by the induction coil is not received or the received detection signal transmitted by the induction coil is distorted.

The Internet of things helmet comprises a helmet shell, a fixing part, a control device, a plurality of induction coils and an alarm device, wherein the fixing part and the alarm device are arranged outside the helmet shell, the control device is fixed on the helmet shell through the fixing part and comprises a processor, a transmitting end and a receiving end, the processor of the control device is respectively connected with the receiving end and the transmitting end, the alarm device is connected with the processor of the control device, the induction coils are embedded in the helmet shell according to a preset interval, the induction coils comprise a first end and a second end, the first end of each induction coil is connected with the transmitting end of the control device, the second end of each induction coil is connected with the receiving end of the control device, the processor of the control device is used for sending detection signals to the induction coils through the transmitting end and receiving the detection signals transmitted by the induction coils through the receiving end, if the processor does not receive the detection signal transmitted by the induction coil or the received detection signal transmitted by the induction coil is distorted, the processor controls the alarm device to give an alarm, and considering that the common helmet only has simple functions of positioning, lighting and the like, when the helmet is damaged, a wearer cannot find the helmet in time and great potential safety hazards exist, the Internet of things helmet provided by the application has the advantages that the plurality of induction coils are embedded in the helmet shell, if the helmet shell is deformed and damaged, the induction coils embedded in the helmet shell can be correspondingly damaged, the damaged induction coils cannot transmit signals or transmit signals which are distorted, the control device of the Internet of things helmet can transmit the detection signals to the induction coils and receive the detection signals transmitted by the induction coils, and once the control device cannot receive the detection signals transmitted by the induction coils, or the received detection signal transmitted by the induction coil is distorted, which indicates that the helmet shell is damaged and has safety risk, and immediately gives an alarm to attract the attention of the wearer and surrounding workers to replace or repair the helmet in time.

In addition, a gas detector is also arranged in the control device, the gas detector is connected with the processor, a gas collecting port is formed in the shell of the control device, and the gas collecting port is connected with the gas detector; the gas collecting port is used for collecting gas in the environment outside the helmet of the Internet of things; the gas detector is used for detecting the concentration of a target gas in the collected gas and sending the concentration of the target gas to the processor; wherein the target gas comprises oxygen, carbon dioxide and a preset dangerous gas; the treater is still used for the concentration of target gas is not conform to under the condition of the predetermined concentration standard that target gas corresponds, control alarm device sends out the police dispatch newspaper, considers in underground work scenes such as mineral exploitation, oxygen is thin, and carbon dioxide concentration is high to there may be dangerous gases such as gas leakage, the thing networking helmet of this application is provided with gas collection mouth and gas detector for the thing networking helmet possesses the function of gas detection, crosses lowly when oxygen concentration, carbon dioxide concentration is too high, or has under dangerous gas's the condition, in time sends out the police dispatch newspaper, reminds the person of wearing and keeps away danger with workman on every side, further ensured workman's life safety.

In addition, a gravity sensor is also arranged in the control device and is connected with the processor; the gravity sensor is used for detecting the gravity acceleration of the helmet of the Internet of things and sending the gravity acceleration to the processor; the treater still is used for under the acceleration of gravity is greater than the condition of predetermined acceleration of gravity maximum value, control alarm device sends the police dispatch newspaper, and the workman is at the during operation, and normal work action can not make the thing networking helmet obtain very big acceleration of gravity, and if the workman falls down, falls, the thing networking helmet then can obtain very big acceleration of gravity, is provided with gravity sensor in the thing networking helmet of this application, and whether the acceleration of gravity of real-time detection thing networking helmet is too big, if acceleration of gravity is too big then explain the wearer to fall down very likely, alarm device sends the police dispatch newspaper immediately, reminds around the workman to give help.

In addition, a communication module is further arranged in the control device and connected with the processor, the communication module comprises a first communication module and a second communication module, the first communication module is a cellular module, and the second communication module comprises a Wi-Fi module and a Bluetooth module; the communication module is used for sending the working log of the control device to a preset receiver; the treater is still used for not receiving the warp detection signal after the induction coil transmission, or received the warp under the condition that the distortion appears in detection signal after the induction coil transmission, generate unusual report, and pass through communication module will unusual report send to preset receiver, what this application provided is the thing networking helmet of high intellectuality, is provided with communication module in the controlling means of thing networking helmet to keep being connected with the thing networking, communication module in time sends the unusual condition that controlling means's work log and thing networking helmet meet with for preset receiver such as administrator, building site safety guard department, further ensures workman's life safety.

In addition, a touch control chip is further arranged in the control device, a touch control display screen is arranged on a shell of the control device, the touch control chip is connected with the processor, and the touch control display screen is connected with the touch control chip; the touch display screen is used for displaying the state information of the helmet of the Internet of things; wherein the status information comprises power, communication signal strength, weather, time, and a work log of the control device; the touch control chip is used for acquiring selection information of a user through the touch control display screen and sending the selection information to the processor; the processor is further configured to initiate, by the communication module, communication to a recipient of the communication request if the selection information is a communication request; the communication request comprises a telephone communication request and a short message communication request, the Internet of things helmet is provided with a touch display screen, a wearer can master relevant information of the Internet of things helmet at any time, the wearer can also make a call and send a short message through the Internet of things helmet, the intelligence of the Internet of things helmet is further improved, and convenience is provided for the wearer.

In addition, a voice recognizer is further arranged in the control device, the voice recognizer comprises a radio module and a conversion module, and the conversion module is respectively connected with the radio module and the processor; the radio module is used for acquiring first voice information of an external environment in real time and awakening the conversion module when the first voice information contains a preset awakening word; the radio receiving module is also used for acquiring second voice information of the external environment after the conversion module is awakened and sending the second voice information to the conversion module; the conversion module is used for generating a voice control instruction according to the second voice information and sending the voice control instruction to the processor; the processor is also used for under the condition that the voice control instruction is the communication request, through communication module to the receiver of communication request initiates the communication, when considering that the thing networking helmet suffers serious damage, the touch-control display screen probably can't be used, perhaps the wearer is injured seriously, unable manually operation thing networking helmet, therefore the thing networking helmet of this application carries on speech recognizer, supports the person's of wearing voice control thing networking helmet, has further ensured the life safety of wearing.

In addition, a positioning module is also arranged in the control device and is connected with the communication module; the positioning module is used for acquiring the position coordinate information of the Internet of things helmet and sending the position coordinate information to the preset receiver through the communication module, and the Internet of things helmet has a position reporting function, can report the position of the Internet of things helmet in real time and is convenient for finding out a lost Internet of things helmet.

In addition, a solar panel is also arranged on the shell of the control device and is respectively connected with the processor and the rechargeable battery; solar cell panel is used for doing rechargeable battery charges, does not the thing networking helmet power supply considers carrying out the during operation at outdoor environment, and it is more difficult to charge, and the thing networking helmet of this application carries solar cell panel, can be the whole thing networking helmet power supply on the good daytime of illumination to for rechargeable battery charges, solar cell can't trun into again to by rechargeable battery power supply evening during operation, can prolong the operating time of thing networking helmet well, prevents that the thing networking helmet from because of the electric quantity disconnected net.

In addition, alarm device includes alarm lamp and buzzer siren, the treater control alarm device sends out the police dispatch newspaper specifically and does: the controller starts the alarm lamp with the buzzer siren, the alarm lamp and the buzzer siren give an alarm from the visual and auditory angles respectively, can play a good warning effect, and arouse the attention of the wearer and surrounding workers as soon as possible.

Drawings

One or more embodiments are illustrated by the corresponding figures in the drawings, which are not meant to be limiting.

Fig. 1 is a front view of an internet of things helmet provided by an embodiment of the present application;

fig. 2 is a cross-sectional view of an internet of things helmet provided by an embodiment of the present application;

fig. 3 is a top view of an internet of things helmet provided by an embodiment of the present application;

fig. 4 is a first schematic diagram of a control device of an internet of things helmet provided by an embodiment of the present application;

fig. 5 is a second schematic diagram of a control device of an internet of things helmet according to another embodiment of the present application;

fig. 6 is a third schematic diagram of a control device of an internet of things helmet according to another embodiment of the present application;

fig. 7 is a fourth schematic diagram of a control device of an internet of things helmet provided in another embodiment of the present application;

fig. 8 is a fifth schematic diagram of a control device of an internet of things helmet provided in another embodiment of the present application;

fig. 9 is a sixth schematic view of a control device of an internet of things helmet provided in another embodiment of the present application;

fig. 10 is a seventh schematic diagram of a control device of an internet of things helmet provided in another embodiment of the present application;

fig. 11 is a schematic diagram eight of a control device of an internet of things helmet provided in another embodiment of the present application;

fig. 12 is a schematic illustration nine of a control device of an internet of things helmet provided by another embodiment of the present application;

FIG. 13 is a schematic layout of a touch display screen and a solar panel on a housing of a control device according to an embodiment of the present application;

fig. 14 is a schematic diagram of an internet of things helmet provided by another embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in the various embodiments of the present application, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not constitute any limitation to the specific implementation manner of the present application, and the embodiments may be mutually incorporated and referred to without contradiction.

The implementation details of the helmet of the present embodiment are specifically described below, and the following description is only provided for facilitating understanding, and is not necessary to implement the present embodiment.

The front view of the helmet of the internet of things of the embodiment is shown in fig. 1, the cross-sectional view of the helmet of the internet of things is shown in fig. 2, and the top view of the helmet of the internet of things is shown in fig. 3, the helmet of the internet of things comprises a helmet shell 11, a fixing piece 12, a control device 13, a plurality of induction coils 14 and an alarm device 15, the fixing piece 12 and the alarm device 15 are both arranged outside the helmet shell 11, and the control device 13 is fixed on the helmet shell 11 through the fixing piece 12.

In one example, the fixing member 12 may be disposed on the front surface of the helmet shell 11 by screwing, welding, etc., and the control device 13 may be fixed on the fixing member 12 by screwing, snap-fitting, mortise-and-tenon connection, etc., so that the control device 13 is fixed on the helmet shell 11.

In one example, as shown in fig. 3, the number of the alarm devices 15 may be several, several alarm devices 15 are disposed at different positions of the helmet shell 11, such as the edge of the helmet shell 11, the highest point of the helmet shell 11, and the like, and the internet-of-things helmet shown in fig. 3 includes 5 alarm devices.

The control device of the internet-of-things helmet in the embodiment may be as shown in fig. 4, fig. 4 does not show the helmet shell and the fixing piece, the control device 13 includes a processor 131, a transmitting end 132 and a receiving end 133, the processor 131 is connected with the receiving end 133 and the transmitting end 132 respectively, and the alarm device 15 is connected with the processor 131.

A plurality of induction coils 14 of the internet of things helmet are embedded in the helmet shell 11 according to a preset interval, each induction coil 14 includes a first end 141 and a second end 142, the first end 141 of each induction coil 14 is connected with the transmitting end 132 of the control device 13, and the second end 142 of each induction coil 14 is connected with the receiving end 133 of the control device 13, wherein the preset interval can be set by a person skilled in the art according to actual needs.

In one example, as shown in fig. 2, the helmet shell 11 has a certain thickness, and several induction coils 14 are embedded in the material of the helmet shell 11, so that once the helmet shell 11 is deformed and damaged, the induction coils at the corresponding positions are also deformed and damaged, and the induction coils cannot complete a closed loop.

In one example, as shown in fig. 1, the intervals between several induction coils 14 of the internet of things helmet are the same, and 6 induction coils are shown in fig. 1.

In one example, as shown in fig. 3, the intervals between the induction coils 14 of the internet of things helmet are different, the induction coils are more dense closer to the top of the head and more sparse closer to the edge, and 7 induction coils are shown in fig. 1.

The processor 131 is configured to send a detection signal to the induction coil 14 through the transmitting terminal 132, and receive the detection signal transmitted by the induction coil 14 through the receiving terminal 133, and if the processor 131 does not receive the detection signal transmitted by the induction coil 14, or if the detection signal transmitted by the induction coil 14 and received by the processor 131 is distorted, the processor controls the alarm device 15 to send an alarm.

In the specific implementation, a processor, a transmitting end, a receiving end and an induction coil embedded in a helmet shell in a control device jointly form a damage detection unit of the internet of things helmet, the processor detects whether the helmet shell is damaged or not by transmitting a detection signal, the detection signal transmitted to the induction coil by the transmitting end by the processor has a certain waveform, such as a square wave, a sine wave and the like, if the induction coil is complete, the processor can receive the detection signal transmitted by the induction coil through the receiving end, if the detection signal transmitted to the induction coil by the processor through the transmitting end is a sine wave signal, the detection signal transmitted by the induction coil by the processor through the receiving end should be the same sine wave signal, if the control device cannot receive the detection signal transmitted by the induction coil, or the received detection signal transmitted by the induction coil is distorted, which indicates that the induction coil is deformed and damaged, that is that a part of the helmet shell corresponding to the induction coil is deformed and damaged, the helmet cannot protect a wearer, and the processor controls an alarm device to send an alarm immediately.

In one example, the number of the induction coils is several, the induction coils are provided with corresponding labels, the processor sequentially sends detection signals to the induction coils through the transmitting end according to the label sequence, and the positions where the helmet shell is damaged are located according to the labels of the induction coils which do not return the detection signals and the labels of the induction coils which return the detection signals and are distorted.

In one example, the alarm device comprises an alarm lamp and a buzzer alarm, and the processor controls the alarm device to give an alarm specifically as follows: the controller starts the alarm lamp and the buzzer alarm, the alarm and the like after being started continuously flash, the buzzer alarm after being started continuously sends out buzzer sound, the buzzer alarm and the buzzer alarm respectively give an alarm from the visual and auditory angles, a good warning effect can be achieved, and the attention of a wearer and surrounding workers can be brought as fast as possible.

In this embodiment, the internet of things helmet includes a helmet shell, a fixing member, a control device, a plurality of induction coils, and an alarm device, the fixing member and the alarm device are both disposed outside the helmet shell, the control device is fixed on the helmet shell through the fixing member, the control device includes a processor, a transmitting end, and a receiving end, the processor of the control device is respectively connected with the receiving end and the transmitting end, the alarm device is connected with the processor of the control device, the plurality of induction coils are embedded in the helmet shell according to a preset interval, the induction coils include a first end and a second end, the first end of the induction coil is connected with the transmitting end of the control device, the second end of the induction coil is connected with the receiving end of the control device, the processor of the control device is configured to send a detection signal to the induction coils through the transmitting end, and receive the detection signal transmitted by the induction coils through the receiving end, if the processor does not receive the detection signal transmitted by the induction coil or the received detection signal transmitted by the induction coil is distorted, the processor controls the alarm device to give an alarm, considering that the common helmet only has simple functions of positioning, illumination and the like, when the helmet is damaged, a wearer cannot find the helmet in time, and great potential safety hazards exist, the Internet of things helmet provided by the application has a plurality of induction coils embedded in the helmet shell, if the helmet shell is deformed and damaged, the induction coils embedded in the helmet shell can be correspondingly damaged, the damaged induction coils can transmit signals or transmit signals which are distorted, the control device of the Internet of things helmet can transmit the detection signals to the induction coils and receive the detection signals transmitted by the induction coils, and once the control device cannot receive the detection signals transmitted by the induction coils, or the received detection signal transmitted by the induction coil is distorted, which indicates that the helmet shell is damaged and has safety risk, and immediately gives an alarm to attract the attention of the wearer and surrounding workers to replace or repair the helmet in time.

In another embodiment, the control device of the helmet with internet of things may be as shown in fig. 5, fig. 5 does not show the transmitting end and the receiving end of the control device, the control device 13 shown in fig. 5 includes a processor 131 and a gas detector 1342, the gas detector 1342 is connected to the processor 131, a gas collection port 1341 is further formed on the housing of the control device 13, the gas collection port 1341 is connected to the gas detector 1342, for convenience of description, an alarm device 15 is further shown in fig. 5, and the alarm device 15 is connected to the processor 131.

In specific implementation, as shown in fig. 5, the gas collection port 1341 may be connected to the gas detector 1342 through a pipe, and the gas collection port 1341 and the gas detector 1342 together form the gas detection unit 134 of the internet of things helmet.

The gas collection port 1341 is configured to collect gas from the environment external to the internet of things helmet.

The gas detector 1342 is configured to detect a concentration of a target gas in the collected gas, and send the concentration of the target gas to the processor 131, where the target gas includes oxygen, carbon dioxide, and a preset hazardous gas, and the preset hazardous gas may be set by a worker in the field according to an environment in which the worker works, which is not limited in this embodiment of the present application.

The processor 131 is further configured to control the alarm device 15 to issue an alarm if the concentration of the target gas does not meet a preset concentration standard corresponding to the target gas, where the preset concentration standard may be set by a person skilled in the art according to actual needs, and the embodiment of the present application is not particularly limited thereto.

In this embodiment, consider underground work scenes such as mineral exploitation, oxygen is thin, and carbon dioxide concentration is high, and dangerous gas such as gas leakage may exist, the thing networking helmet of this embodiment is provided with gas collection mouth and gas detector for the thing networking helmet possesses gaseous function of detecting, under oxygen concentration is low excessively, carbon dioxide concentration is too high, or there is dangerous gas's the condition, in time send out the police dispatch newspaper, remind the person of wearing and around workman to avoid danger, further ensured workman's life safety.

In another embodiment, the control device of the helmet of the internet of things may be as shown in fig. 6, fig. 6 does not show the transmitting end and the receiving end of the control device, the control device 13 shown in fig. 6 includes a processor 131 and a gravity sensor 135, the gravity sensor 135 is connected with the processor 131, for convenience of description, an alarm device 15 is also shown in fig. 6, and the alarm device 15 is connected with the processor 131.

Gravity sensor 135 is used for detecting the acceleration of gravity of thing networking helmet to the acceleration of gravity that will detect out sends the treater 131, and gravity sensor 135 is also the tumble detecting unit of thing networking helmet.

The processor 131 is further configured to control the alarm device 15 to issue an alarm if the received gravitational acceleration detected by the gravitational sensor 135 is greater than a preset maximum gravitational acceleration value, where the preset maximum gravitational acceleration value may be set by a person skilled in the art according to actual needs, and the embodiment of the present application is not limited in this respect.

This embodiment, consider the workman at the during operation, normal work action can not make the thing networking helmet obtain very big acceleration of gravity, and if the workman falls down, falls, the thing networking helmet then can obtain very big acceleration of gravity, be provided with gravity sensor in the thing networking helmet of this embodiment, whether the acceleration of gravity of real-time detection thing networking helmet is too big, if acceleration of gravity too big then explain the wearer and fall down very likely, alarm device sends out the police dispatch newspaper immediately, reminds around the workman to give help.

In another embodiment, the control device of the internet-of-things helmet may be as shown in fig. 7, fig. 7 does not show a transmitting end and a receiving end of the control device, the control device 13 shown in fig. 7 includes a processor 131 and a communication module 136, the communication module 136 is connected to the processor 131, the communication module 136 includes a first communication module 1361 and a second communication module 1362, both the first communication module 1361 and the second communication module 1362 are actually connected to the processor 131, the first communication module 1361 may be a cellular module, and the second communication module 1362 may include a Wi-Fi module and a bluetooth module, for convenience of description, an alarm device 15 is also shown in fig. 7, and the alarm device 15 is connected to the processor 131.

The communication module 136 is configured to send the work log of the control device 13 to a preset receiving party, where the preset receiving party can be set by a user according to actual needs.

The processor 131 is further configured to generate an exception report when the detection signal transmitted by the induction coil is not received or the received detection signal transmitted by the induction coil is distorted, and send the exception report to a preset receiver through the communication module 136.

In an example, the first communication module may be a cellular module, that is, the first communication module is used for remote bidirectional communication, the first communication module sends a work log, an exception report and the like to remote devices such as a cloud server and an administrator server, and may also receive an instruction, an upgrade program and the like sent by the remote devices such as the cloud server and the administrator server, and the cloud server and the administrator server may also actively send an instruction to a helmet of the internet of things to control the alarm device to send an alarm.

In one example, the second communication module may be a Wi-Fi module and a bluetooth module, that is, the second communication module is used for short-distance bidirectional communication, the second communication module sends a work log, an exception report, and the like to a mobile device located in the same bluetooth network or a local area network as the internet of things helmet, and may also receive an instruction, an upgrade program, and the like sent by the mobile device, and the mobile device may also actively send an instruction to the internet of things helmet and control the alarm device to send an alarm.

In one example, the control device is further provided with a gas detector, the gas detector is connected with the processor, a gas collecting port is formed in a shell of the control device and connected with the gas detector, the gas collecting port is used for collecting gas in the environment outside the helmet connected with the internet of things, the gas detector is used for detecting the concentration of target gas in the collected gas and sending the concentration of the target gas to the processor, and the processor is further used for generating an exception report when the concentration of the target gas does not accord with a preset concentration standard corresponding to the target gas and sending the exception report to a preset receiving party through the communication module.

In one example, the control device is further provided with a gravity sensor, the gravity sensor is connected with the processor, the gravity sensor is used for detecting the gravity acceleration of the helmet of the internet of things and sending the gravity acceleration to the processor, and the processor is further used for generating an exception report and sending the exception report to a preset receiver through the communication module under the condition that the gravity acceleration is larger than a preset gravity acceleration maximum value.

In this embodiment, be provided with communication module among the controlling means of thing networking helmet to keep being connected with the thing networking, communication module in time sends the unusual condition that controlling means's work log and thing networking helmet met with for the receiver of presetting such as administrator, building site safety guard department, further ensures workman's life safety.

In another embodiment, the control device of the helmet of internet of things may be as shown in fig. 8, fig. 8 does not show a transmitting end and a receiving end of the control device, the control device 13 shown in fig. 8 includes a processor 131, a communication module 136 and a touch chip 137, the touch chip 137 corresponds to a touch display screen arranged on a housing of the control device 13, for convenience of description, the touch display screen 16 arranged on the housing of the control device 13 is shown in fig. 8, the touch chip 137 is connected to the processor 131, the touch chip 137 is further connected to the touch display screen 16, and the communication module 136 is connected to the processor 131.

The touch display screen 16 is used for displaying status information of the helmet of the internet of things, wherein the status information of the helmet of the internet of things includes electric quantity, communication signal intensity, weather, time, a work log of the control device 13, and the like.

Specifically, the touch chip and the touch display screen provide a way for a user to perform human-computer interaction with a control device of the helmet of the internet of things.

The touch chip 137 is configured to obtain selection information of a user through the touch display screen 16 and send the selection information to the processor 131.

The processor 131 is further configured to initiate, through the communication module 136, a communication to a recipient of the communication request in a case that the selection information of the user is the communication request, where the communication request includes a telephone communication request and a short message communication request.

This embodiment, the thing networking helmet disposes the touch-control display screen, and the person of wearing can master the relevant information of thing networking helmet at any time, and the person of wearing can also dial the phone, send the short message through the thing networking helmet, further promotes the intellectuality of thing networking helmet, provides convenience for the person of wearing.

In another embodiment, the control device of the internet-of-things helmet may be as shown in fig. 9, fig. 9 does not show the transmitting end and the receiving end of the control device, the control device 13 shown in fig. 9 includes a processor 131, a communication module 136, and a voice recognizer 138, the voice recognizer 138 includes a radio receiving module 1381 and a conversion module 1382, the conversion module 1382 is connected to the radio receiving module 1381 and the processor 131, respectively, and the communication module 136 is connected to the processor 131.

The radio module 1381 is configured to acquire first voice information of an external environment in real time, and wake up the conversion module 1382 when the acquired first voice information includes a preset wake-up word, where the preset wake-up word may be set by a person skilled in the art according to an actual need, and an embodiment of the present application is not specifically limited thereto.

The sound receiving module 1381 is further configured to obtain second voice information of the external environment after the conversion module 1382 is awakened, and send the obtained second voice information to the conversion module 1382.

The conversion module 1382 is configured to generate a voice control command according to the second voice information, and send the voice control command to the processor 131.

The processor 131 is further configured to initiate a communication to a recipient of the communication request through the communication module 136 in case the received voice control instruction is the communication request.

In this embodiment, when considering that the thing networking helmet suffers serious damage, touch-control display screen probably can't use, perhaps the person of wearing is injured seriously, unable manually operation thing networking helmet, therefore the thing networking helmet of this embodiment carries on speech recognizer, supports the person's of wearing speech control thing networking helmet, initiates calling, SOS, has further ensured the life safety of wearing.

In another embodiment, as shown in fig. 10, the control device of the helmet of the internet of things may be as shown in fig. 10, where fig. 10 does not show a transmitting end and a receiving end of the control device, the control device 13 shown in fig. 10 includes a processor 131, a communication module 136 and a positioning module 139, the positioning module 139 is connected to the processor 131, the communication module 136 is connected to the processor 131, and the positioning module 139 is configured to obtain position coordinate information of the helmet of the internet of things and send the position coordinate information to the preset receiving party through the communication module 136, so as to report the position of the helmet of the internet of things in real time, and find a lost helmet of the internet of things is facilitated.

In another embodiment, as shown in fig. 11, fig. 11 does not show a transmitting end and a receiving end of the control device, a data interface 171 is further disposed on a housing of the control device 13 shown in fig. 11, the control device 13 includes a processor 131 and a rechargeable battery 172, the data interface 171 is connected to the rechargeable battery 172 and the processor 131, respectively, and the rechargeable battery 172 is further connected to the processor 131.

The rechargeable battery 172 is used to power the internet of things helmet.

The data interface 171 is used for charging the rechargeable battery 172 through an external power supply, exporting a working log of the control device 13, and importing an upgrading program corresponding to the helmet of the internet of things.

In another embodiment, as shown in fig. 12, fig. 12 does not show a transmitting end and a receiving end of the control device, a data interface 171 is further disposed on a housing of the control device 13 shown in fig. 12, the control device 13 includes a processor 131 and a rechargeable battery 172, the data interface 171 is respectively connected to the rechargeable battery 172 and the processor 131, the rechargeable battery 172 is further connected to the processor 131, and a solar panel is further disposed on the housing of the control device 13, for convenience of description, fig. 12 shows a solar panel 173, and the solar panel 173 is respectively connected to the processor 131 and the rechargeable battery 172.

The solar panel 173 is used for charging the rechargeable battery 172 and supplying power to the internet of things helmet.

In one example, the layout of the touch display screen and the solar panel on the housing of the control device is shown in fig. 13, the left shaded rectangular block is the solar panel, and the right white rectangular block is the touch display screen.

This embodiment, consider when carrying out the work in outdoor environment, charge more difficultly, the thing networking helmet of this embodiment carries there is solar cell panel, can be the power supply of whole thing networking helmet in the good daytime of illumination to for rechargeable battery charges, solar cell can't trun into again to being supplied power by rechargeable battery to the during operation evening, can prolong the operating time of thing networking helmet well, prevents that the thing networking helmet from breaking the net because of the electric quantity exhausts.

Another embodiment of the present application relates to an internet of things helmet, and details of implementation of the internet of things helmet of this embodiment are specifically described below, and the following description is only provided for facilitating understanding of the details of implementation and is not necessary to implement this embodiment, and the internet of things helmet of this embodiment includes a helmet shell, a fixing member, a control device, a plurality of induction coils, and an alarm device, and the internet of things helmet of this embodiment may be as shown in fig. 14, where the helmet shell and the fixing member of the internet of things helmet are not shown in fig. 14, and only one induction coil is shown.

A gas collection port 2341 and a data interface 271 are formed in a casing of the control device 23, a touch display screen 26 and a solar cell panel 273 are further arranged on the casing of the control device 23, the control device 23 comprises a processor 231, a transmitting end 232, a receiving end 233, a gas detector 2342, a gravity sensor 235, a communication module 236, a touch chip 237, a voice recognizer 238, a positioning module 239 and a rechargeable battery 272, the communication module 236 comprises a first communication module 2361 and a second communication module 2362, the voice recognizer 238 comprises a radio module 2381 and a conversion module 2382, the processor 231 is respectively connected with the alarm device 25, the transmitting end 232, the receiving end 233, the gas detector 2342, the gravity sensor 235, the first communication module 2361, the second communication module 2362, the touch chip 237, the conversion module 2382, the positioning module 239, the data interface 271, the rechargeable battery 272 and the solar cell panel 273, the transmitting end 232 is further connected with a first section 241 of the induction coil 24, the receiving end 233 is further connected with a second end 242 of the induction coil 24, the gas collection port 2341 is connected with the gas detector 2, the data interface 2342 is further connected with the rechargeable battery panel 272, the solar cell panel is further connected with the touch display screen 273, and the rechargeable battery panel 273.

It should be noted that all the modules referred to in the foregoing embodiments are logic modules, and in practical applications, a logic unit may be one physical unit, may also be a part of one physical unit, and may also be implemented by a combination of multiple physical units. In addition, in order to highlight the innovative part of the present application, the above-mentioned embodiments do not introduce elements that are not so closely related to solve the technical problems proposed by the present application, but this does not indicate that there are no other elements in the above-mentioned embodiments.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the present application, and that various changes in form and details may be made therein without departing from the spirit and scope of the present application in practice.

Claims

1. An Internet of things helmet is characterized by comprising a helmet shell, a fixing piece, a control device, a plurality of induction coils and an alarm device;

the fixing piece and the alarm device are both arranged outside the helmet shell, the control device is fixed on the helmet shell through the fixing piece, the control device comprises a processor, a transmitting end and a receiving end, the processor is respectively connected with the receiving end and the transmitting end, and the alarm device is connected with the processor;

the induction coils are embedded in the helmet shell at preset intervals and comprise first ends and second ends, the first ends are connected with the transmitting ends, and the second ends are connected with the receiving ends;

the processor is used for sending a detection signal to the induction coil through the transmitting end, receiving the detection signal transmitted by the induction coil through the receiving end, and controlling the alarm device to give an alarm if the detection signal transmitted by the induction coil is not received or the received detection signal transmitted by the induction coil is distorted.

2. The helmet of the internet of things according to claim 1, wherein a gas detector is further arranged in the control device, the gas detector is connected with the processor, a gas collecting port is formed in a shell of the control device, and the gas collecting port is connected with the gas detector;

the gas collecting port is used for collecting gas in the environment outside the helmet of the Internet of things;

the gas detector is used for detecting the concentration of a target gas in the collected gas and sending the concentration of the target gas to the processor; wherein the target gas comprises oxygen, carbon dioxide and a preset dangerous gas;

the processor is also used for controlling the alarm device to give an alarm when the concentration of the target gas does not accord with the preset concentration standard corresponding to the target gas.

3. The helmet of the internet of things according to claim 1, wherein a gravity sensor is further disposed in the control device, and the gravity sensor is connected to the processor;

the gravity sensor is used for detecting the gravity acceleration of the helmet of the Internet of things and sending the gravity acceleration to the processor;

the processor is further used for controlling the alarm device to give an alarm under the condition that the gravity acceleration is larger than a preset gravity acceleration maximum value.

4. The helmet of the internet of things according to any one of claims 1 to 3, wherein a communication module is further provided in the control device, the communication module is connected with the processor, the communication module includes a first communication module and a second communication module, the first communication module is a cellular module, and the second communication module includes a Wi-Fi module and a Bluetooth module;

the communication module is used for sending the working log of the control device to a preset receiver;

the processor is further configured to generate an exception report when the detection signal transmitted by the induction coil is not received or the received detection signal transmitted by the induction coil is distorted, and send the exception report to the preset receiver through the communication module.

5. The helmet of the internet of things according to claim 4, wherein a touch chip is further arranged in the control device, a touch display screen is arranged on a shell of the control device, the touch chip is connected with the processor, and the touch display screen is connected with the touch chip;

the touch display screen is used for displaying the state information of the Internet of things helmet; wherein the status information comprises power, communication signal strength, weather, time, and a work log of the control device;

the touch control chip is used for acquiring selection information of a user through the touch control display screen and sending the selection information to the processor;

the processor is further configured to initiate, by the communication module, communication to a recipient of the communication request if the selection information is a communication request; the communication request comprises a telephone communication request and a short message communication request.

6. The helmet of the internet of things of claim 5, wherein a voice recognizer is further arranged in the control device, the voice recognizer comprises a radio receiving module and a conversion module, and the conversion module is respectively connected with the radio receiving module and the processor;

the radio module is used for acquiring first voice information of an external environment in real time and awakening the conversion module when the first voice information contains a preset awakening word;

the radio receiving module is also used for acquiring second voice information of the external environment after the conversion module is awakened and sending the second voice information to the conversion module;

the conversion module is used for generating a voice control instruction according to the second voice information and sending the voice control instruction to the processor;

the processor is further configured to initiate, through the communication module, communication to a recipient of the communication request if the voice control instruction is a communication request.

7. The helmet of the internet of things according to claim 4, wherein a positioning module is further arranged in the control device, and the positioning module is connected with the communication module;

the positioning module is used for acquiring the position coordinate information of the Internet of things helmet and sending the position coordinate information to the preset receiver through the communication module.

8. The helmet of any of claims 1 to 3, wherein a data interface is further disposed on the outer shell of the control device, a rechargeable battery is further disposed in the control device, the data interface is respectively connected to the rechargeable battery and the processor, and the rechargeable battery is further connected to the processor;

the rechargeable battery is used for supplying power to the Internet of things helmet;

the data interface is used for charging the rechargeable battery through an external power supply;

the data interface is also used for exporting a working log of the control device;

the data interface is further used for importing an upgrading program corresponding to the Internet of things helmet.

9. The helmet of the internet of things of claim 8, wherein a solar panel is further arranged on the shell of the control device, and the solar panel is respectively connected with the processor and the rechargeable battery;

the solar cell panel is used for charging the rechargeable battery and supplying power to the Internet of things helmet.

10. The helmet of the internet of things according to any one of claims 1 to 3, wherein the alarm device comprises an alarm lamp and a buzzer alarm, and the processor controls the alarm device to give an alarm specifically: the controller starts the alarm lamp and the buzzer alarm.