CN217907742U - Intelligent bracelet - Google Patents

Abstract

The embodiment of the utility model provides a limited space operation field especially relates to an intelligent bracelet, include: a bracelet body; the gas sensor is arranged on the inner side of the upper surface of the bracelet body and used for collecting target gas information in a target area; the vital sign acquisition module is used for acquiring vital sign data of the measured object; the main control chip is used for detecting based on target gas information and/or vital sign data and sending out a first instruction signal based on a detection result; and the alarm module sends out warning information. Through mutually supporting between each module, when detecting to cause poisonous and harmful, flammable and explosive material to gather or oxygen content not enough, in time send the warning to operation personnel and relevant supervisory personnel, withdraw in time the danger area and deal with the dangerous condition, simultaneously, after the danger takes place, also can in time find operation personnel's position, in time rescue through main control chip's locate function.

Description

Intelligent bracelet

Technical Field

The embodiment of the utility model provides a limited space operation field especially relates to an intelligent bracelet.

Background

Under the prior art, for the work in the limited space in the working environment, as the limited space is mostly closed or partially closed and is relatively isolated from the outside, the access and exit are narrow, the working personnel can not work for a long time, the natural ventilation is poor, and the space with toxic, harmful, flammable and explosive substances accumulated or insufficient oxygen content is easily caused. Therefore, the vital signs of the personnel participating in the task execution in the limited space are not detected perfectly, the life safety is difficult to guarantee when the relevant personnel execute the task in the limited space, and after an accident occurs, the optimal rescue time is delayed due to the uncertainty of the personnel distribution position in the limited space, so that tragedy occurs.

Therefore, a more effective monitoring means for the working environment and the state of the operator is required to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, for solving above-mentioned technical problem among the prior art, the embodiment of the utility model provides an intelligent bracelet.

In a first aspect, an embodiment of the present invention provides an intelligent bracelet, include: a bracelet body; the gas sensor is arranged on the inner side of the upper surface of the bracelet body and used for collecting target gas information in a target area; the vital sign acquisition module is arranged on the inner side of the lower surface of the bracelet body and is attached to the skin of a measured object, and the vital sign acquisition module is used for acquiring vital sign data of the measured object and sending the vital sign data; the main control chip is arranged inside the bracelet body, is respectively in communication connection with the gas sensor and the vital sign acquisition module, and is used for acquiring target gas information and/or vital sign data, detecting based on the target gas information and/or the vital sign data, and sending a first instruction signal based on a detection result; and the alarm module is in communication connection with the main control chip and is used for acquiring the first instruction signal and sending out warning information in response to the first instruction signal sent out by the main control chip.

Optionally, the alarm module comprises: the loudspeaker is in communication connection with the main control chip and used for acquiring a first instruction signal and sending sound alarm information in response to the first instruction signal sent by the main control chip; and/or the vibrator is in communication connection with the main control chip and is used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip to send vibration alarm information.

Optionally, the vital signs acquisition module comprises: the heart rate data acquisition module is in communication connection with the main control chip and used for acquiring heart rate data and sending the heart rate data to the main control chip.

Optionally, the vital signs acquisition module further comprises: and the respiration rate data acquisition module is in communication connection with the main control chip and is used for acquiring respiration rate data and sending the respiration rate data to the main control chip.

Optionally, the vital signs acquisition module further comprises: and the blood pressure data acquisition module is in communication connection with the main control chip and is used for acquiring blood pressure data and sending the blood pressure data to the main control chip.

Optionally, the smart band further comprises: and the fall detection module is in communication connection with the main control chip and is used for acquiring vibration data and transmitting the set of vibration data to the main control chip, so that the main control chip performs safety detection based on the set of vibration data and sends a second instruction signal based on a safety detection result.

Optionally, the smart band further comprises: the Bluetooth module is in communication connection with the main control chip and is used for positioning operation; and/or communicating with preset external equipment.

Optionally, the smart band further comprises: the distress button is arranged on the outer side of the bracelet body, is in communication connection with the main control chip and is used for sending a distress signal after being continuously clicked.

Optionally, the smart band further comprises: and the power supply module is in communication connection with the main control chip and is used for providing power so as to ensure that the gas sensor, the main control chip and the alarm module run normally.

Optionally, the smart band further comprises: and the display module is in communication connection with the main control chip and is used for responding to the display instruction sent by the main control chip and displaying the vital signs and/or the gas condition.

The embodiment of the utility model provides a pair of intelligent bracelet, include: a bracelet body; the gas sensor is arranged on the inner side of the upper surface of the bracelet body and used for collecting target gas information in a target area; the vital sign acquisition module is arranged on the inner side of the lower surface of the bracelet body and is attached to the skin of a measured object, and the vital sign acquisition module is used for acquiring vital sign data of the measured object and sending the vital sign data; the main control chip is arranged inside the bracelet body, is respectively in communication connection with the gas sensor and the vital sign acquisition module, and is used for acquiring target gas information and/or vital sign data, detecting based on the target gas information and/or the vital sign data, and sending a first instruction signal based on a detection result; and the alarm module is in communication connection with the main control chip and is used for acquiring the first instruction signal and sending out warning information in response to the first instruction signal sent out by the main control chip. Through mutually supporting between each module, when detecting to cause poisonous and harmful, flammable and explosive material to gather or oxygen content not enough, in time send the warning to operation personnel and relevant supervisory personnel, withdraw in time the danger area and deal with the dangerous condition, simultaneously, after the danger takes place, also can in time find operation personnel's position, in time rescue through main control chip's locate function.

Drawings

Fig. 1 is a schematic view of an intelligent bracelet according to an embodiment of the present invention;

fig. 2 is a schematic view of another smart bracelet provided in an embodiment of the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

To facilitate understanding of the embodiments of the present invention, the following detailed description is given with reference to the accompanying drawings, which are not intended to limit the embodiments of the present invention.

Specifically refer to shown in fig. 1, fig. 1 is that the embodiment of the utility model provides a smart bracelet includes: bracelet body 1, gas sensor 2, vital sign collection module 3, the main control chip 4 and alarm module 5 etc..

The bracelet body 1 is designed into a shape suitable for being attached to the wrist or ankle of a user, so that the bracelet body is convenient for the user to wear and use; illustratively, the shape of the bracelet body 1 includes, but is not limited to, various shapes such as a cylinder, a cube, a sphere, etc., and is not limited herein.

The gas sensor 2 is arranged on the inner side of the upper surface of the bracelet body 1 and used for collecting target gas information in a target area. It should be noted that the terms "upper surface", "lower surface", "inside", and the like, which are described below, are relative concepts, not strictly defined geometrically, and are set in practical applications according to the usage of the related device or module, and are not limited herein.

Illustratively, the gas sensor 2 includes, but is not limited to: the oxygen concentration detection device, the harmful gas detection device, the gas ph detection device, or other devices that can achieve gas component detection in a limited space are not limited herein.

In an alternative embodiment, if the target area is deep in a mine, it may happen that the oxygen content is too low due to carbon dioxide accumulation, and therefore the gas sensor provided at this time is an oxygen content detection device. If the mine is the colliery, when the operation in the colliery, probably produce a large amount of carbon monoxide, harm the operation personnel healthy, then need set up harmful gas detection device this moment, further can set up to carbon monoxide detection device, when carbon monoxide concentration is too high, gas sensor collects gas data information on every side to with gas data information transmission to main control chip 4, so that main control chip 4 controls alarm module 5 and in time sends out warning information.

Vital sign collection module 3 sets up in bracelet body 1's lower surface inboard, laminates mutually with measurand skin, and vital sign collection module 3 is used for gathering the vital sign data of measurand to send vital sign data.

Illustratively, the vital signs acquisition module 3 includes, but is not limited to: body temperature sensors, bioelectric sensors, and the like, without limitation.

In an optional embodiment, if the set vital sign acquisition module 3 is a body temperature sensor, correspondingly, a threshold temperature can be set in the main control chip 4 to be 37 degrees centigrade, the body temperature sensor collects body temperature data of a wearer and sends the body temperature data to the main control chip 4, the main control chip 4 sends out a first instruction signal through comparison of the temperature data when the body temperature of the wearer is obviously higher or lower than the threshold temperature, so as to control the alarm module 5 to send out an alarm and call rescue workers.

Further, the vital signs acquisition module 3 may also include: heart rate data acquisition module, respiratory rate data acquisition module and blood pressure data acquisition module, these modules and main control chip 4 communication connection are used for gathering heart rate data, respiratory rate data and blood pressure data respectively to data transmission to main control chip 4 with gathering, so that main control chip 4 judges according to these data, whether sends first instruction signal.

In an optional embodiment, the vital sign acquisition module 3 is a heart rate data acquisition module, and sets the threshold heart rate to be 60 times per minute, and the heart rate data acquisition module collects the heart rate data of the wearer and sends the heart rate data to the main control chip 4, and when the main control chip 4 detects that the heart rate of the wearer is obviously higher than or lower than the threshold heart rate, the main control chip 4 sends a first instruction signal to control the alarm module 5 to send an alarm and call rescue workers.

In an optional embodiment, the vital sign acquisition module 3 is a respiration rate data acquisition module, and sets a threshold respiration rate to 20 times per minute, the respiration rate data acquisition module collects respiration rate data of a wearer, and sends the respiration rate data to the main control chip 4, and when the main control chip 4 detects that the respiration rate of the wearer is obviously higher than or lower than the threshold respiration rate, the main control chip 4 sends a first instruction signal to control the alarm module 5 to send an alarm to call rescuers.

In an optional embodiment, the vital sign acquisition module 3 is a blood pressure data acquisition module, and sets a threshold blood pressure to 120mmHg, the blood pressure data acquisition module collects blood pressure data of a wearer and sends the blood pressure data to the main control chip 4, and when the main control chip 4 detects that the blood pressure of the wearer is obviously higher or lower than the threshold blood pressure, the main control chip 4 sends a first instruction signal to control the alarm module 5 to send an alarm and call a rescuer.

The main control chip 4 is arranged inside the bracelet body 1, is in communication connection with the gas sensor 2 and the vital sign acquisition module 3 respectively, is used for acquiring target gas information and/or vital sign data, detects based on the target gas information and/or the vital sign data, and sends a first instruction signal based on a detection result.

For example, the main control chip 4 may be provided with a comparator inside, and is configured to compare the target gas information with a preset gas threshold after receiving the target gas information uploaded by the gas sensor 2. It should be noted that the comparison is performed according to the properties of the gases, for example, if oxygen is collected, the comparison is required to be higher than a threshold value, and if harmful gases, the comparison is required to be lower than the threshold value.

Further, the main control chip 4 can also compare the vital sign data with preset normal vital sign data after receiving the vital sign data uploaded by the vital sign acquisition module 3.

In an alternative embodiment, the main control chip 4 may also be an intelligent chip, and is configured to record various analysis, calculation and operation programs, and the functions of the main control chip 4 include, but are not limited to, sending or executing various instructions, completing data turnover, and the like, which is not limited herein.

In an optional embodiment, the main control chip 4 may determine whether the worker is in danger in the current limited space and what kind of measures the rescuer should take to rescue through the collected vital sign data and the collected gas data.

And the alarm module 5 is in communication connection with the main control chip 4 and is used for acquiring the first instruction signal and sending out warning information in response to the first instruction signal sent out by the main control chip 4.

Further, the alarm module 5 may be any alarm means, including but not limited to: a light alarm device, a vibration alarm device, etc., and is not limited herein.

Further, the alarm module 5 may also include: the loudspeaker is in communication connection with the main control chip 4 and used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip 4 to send sound alarm information, and/or the vibrator is in communication connection with the main control chip 4 and used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip 4 to send vibration alarm information.

In an optional embodiment, when danger is met, the main control chip 4 sends the distress signal to the loudspeaker so that the loudspeaker makes a sound to remind relevant personnel of danger and immediate treatment.

Referring to fig. 2, the embodiment of the utility model provides a pair of intelligent bracelet still includes:

fall down detection module 6, set up inside bracelet body 1, with main control chip 4 communication connection for gather vibration data, and will collect vibration data transmission to main control chip 4, so that main control chip 4 carries out safety inspection based on collection vibration data, and sends the second command signal based on the safety inspection result.

Illustratively, the fall detection module 6 includes, but is not limited to: the acceleration detection module, the momentum detection module, and the like, which are not limited herein, may be any detection device that can detect that an object has abnormal motion. In practical application, wear the personnel of bracelet when normal during operation, the acceleration or the relevant parameter such as momentum of production are more stable, and these parameters generally can not take place violent change, even change, also can not take place the sudden change in the short time of relevant parameter, when these data take place the sudden change, can judge that the personnel of wearing the bracelet have taken place unexpected circumstances such as tumble.

In practical application, the detection module 6 for falling is assumed to be an acceleration detection device, and when the acceleration detection device detects that the acceleration is suddenly changed in a short time, the data is sent to the main control chip 4 in time, and after the main control chip 4 warns and processes, whether the early warning is performed or not is determined.

In an optional embodiment, the embodiment of the utility model provides a smart bracelet still includes: and the Bluetooth module 7 is in communication connection with the main control chip 4 and is used for positioning operation and/or communicating with preset external equipment.

Exemplarily, the bluetooth module 7 may enable the positioning of the person wearing the bracelet. Through presetting related Bluetooth beacons in a limited space, according to the connection relation between the Bluetooth module 7 in the bracelet and the preset Bluetooth beacons, the position of the Bluetooth beacon connected with the bracelet is regarded as the position of the bracelet.

In an optional embodiment, assuming that the bluetooth beacon a is deployed at the corner a, as long as the smart band is connected with the bluetooth beacon a and the signal strength exceeds a preset threshold, it is considered that the position of the smart band X is the corner a. Whereby positioning is achieved by means of the bluetooth module 7.

Further, the bluetooth module 7 communicates with other bluetooth-enabled devices, and any device that has bluetooth function and is within range can be linked, which is not limited herein.

In an optional embodiment, assume that there is an intelligent image acquisition device with a bluetooth function, when the image acquisition device finds that the current environment is dangerous, the remote control bracelet needs to be vibrated to warn an operator wearing the bracelet, and at this time, the warning and the remote control information sent by the intelligent image acquisition device can be received in a manner of passing through the bluetooth module 7, so as to achieve the purpose of vibration warning.

In an optional embodiment, the utility model discloses still can be provided with the module of talkbacking in the intelligent bracelet of embodiment, correspondingly, increase the function of talkbacking in the button of this intelligent bracelet to make the user who wears this intelligent bracelet when the operation is on-the-spot (for example be mine etc.) operation, this module of talkbacking of accessible keeps contacting with ground or command center, can report the condition of feedback operation on-the-spot in real time, when appearing dangerous, also can in time report to the police through the module of talkbacking.

In an optional embodiment, the embodiment of the present invention provides an intelligent bracelet, further including: SOS button 8 sets up in bracelet body 1's the outside, and with main control chip 4 communication connection for send SOS signal after being clicked in succession.

Illustratively, the distress button 8 may be any type of button including, but not limited to: a trigger button, a hair-break button. And is not limited thereto.

Further, after the triggering action is completed, the priority of the distress message triggered by the distress button 8 is the highest, and the main control chip 4 needs to stop all actions and start sending distress signals. It should be noted that the triggering action may be any preset action, for example, double-clicking the distress button 8 continuously.

In an alternative embodiment, assuming that double-click is a trigger action, after double-click on the distress button 8 is completed, the main control chip 4 stops all actions and starts sending distress messages.

In an optional embodiment, the embodiment of the utility model provides a smart bracelet still includes: power module 9 sets up inside bracelet body 1, with main control chip 4 communication connection for provide electric power, so that gas sensor 2, main control chip 4 and alarm module 5 normal operating.

Illustratively, the power module 9 may be any battery or power device, including but not limited to button-type storage battery, 5-size battery, and any device capable of providing electric energy, and is not limited herein.

In an optional embodiment, in order to ensure that power can be continuously provided in the target area, the power module 9 may employ a button battery to maintain the operation of the smart band on the premise of saving the internal space of the smart band.

In an optional embodiment, the embodiment of the utility model provides a smart bracelet still includes: display module 10 sets up in bracelet body 1 upper surface, and with main control chip 4 communication connection for respond to main control chip 4 and send the display instruction, show vital sign and/or gaseous condition.

Illustratively, the display module 10 may employ any display device, including, but not limited to, an LCD display screen, an OLED display screen, and the like. The display module 10 is connected with the main control chip 4, and displays the designated information according to the setting of the main control chip 4.

It should be noted that, the embodiment of the present invention provides an application scenario of smart band, which includes but is not limited to: a limited space operation scenario, a hazardous operation scenario, etc., without limitation.

The embodiment of the utility model provides a pair of intelligent bracelet, include: a bracelet body 1; the gas sensor 2 is arranged on the inner side of the upper surface of the bracelet body 1 and used for collecting target gas information in a target area; the vital sign acquisition module 3 is arranged on the inner side of the lower surface of the bracelet body 1 and is attached to the skin of the measured object, and the vital sign acquisition module 3 is used for acquiring vital sign data of the measured object and sending the vital sign data; the main control chip 4 is arranged inside the bracelet body 1, is in communication connection with the gas sensor 2 and the vital sign acquisition module 3 respectively, and is used for acquiring target gas information and/or vital sign data, detecting based on the target gas information and/or the vital sign data, and sending a first instruction signal based on a detection result; and the alarm module 5 is in communication connection with the main control chip 4 and is used for acquiring the first instruction signal and sending out warning information in response to the first instruction signal sent out by the main control chip 4. Through mutually supporting between each module, when detecting to cause poisonous and harmful, flammable and explosive material to gather or oxygen content not enough, in time send the warning to operation personnel and relevant supervisory personnel, withdraw in time the danger area and deal with the dangerous condition, simultaneously, after the danger takes place, also can in time find operation personnel's position, in time rescue through main control chip 4's locate function.

Those of skill would further appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, a software module executed by a processor, or a combination of the two. A software module may reside in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An intelligent bracelet, comprising:

a bracelet body;

the gas sensor is arranged on the inner side of the upper surface of the bracelet body and used for collecting target gas information in a target area;

the vital sign acquisition module is arranged on the inner side of the lower surface of the bracelet body and is attached to the skin of a measured object, and the vital sign acquisition module is used for acquiring vital sign data of the measured object and sending the vital sign data;

the main control chip is arranged inside the bracelet body, is respectively in communication connection with the gas sensor and the vital sign acquisition module, and is used for acquiring the target gas information and/or the vital sign data, detecting based on the target gas information and/or the vital sign data, and sending a first instruction signal based on a detection result;

and the alarm module is arranged inside the bracelet body, is in communication connection with the main control chip and is used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip to send out warning information.

2. The smart bracelet of claim 1, wherein the alarm module comprises:

the loudspeaker is in communication connection with the main control chip and used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip to send out a sound alarm signal;

and/or the vibrator is in communication connection with the main control chip and is used for acquiring the first instruction signal and responding to the first instruction signal sent by the main control chip to send a vibration alarm signal.

3. The smart bracelet of claim 1, wherein the vital sign acquisition module comprises:

the heart rate data acquisition module is in communication connection with the main control chip and used for acquiring heart rate data and sending the heart rate data to the main control chip.

4. The smart bracelet of claim 2, wherein the vital sign acquisition module comprises:

and the respiration rate data acquisition module is in communication connection with the main control chip and is used for acquiring respiration rate data and sending the respiration rate data to the main control chip.

5. The smart bracelet of claim 2, wherein the vital signs acquisition module comprises:

and the blood pressure data acquisition module is in communication connection with the main control chip and is used for acquiring blood pressure data and sending the blood pressure data to the main control chip.

6. The smart bracelet of claim 1, further comprising:

fall detection module, set up in inside the bracelet body, with main control chip communication connection for gather vibration data, and will set vibration data send to main control chip, so that main control chip is based on set vibration data carries out safety inspection, and sends the second command signal based on the safety inspection result.

7. The smart bracelet of claim 1, further comprising:

the Bluetooth module is arranged inside the bracelet body, is in communication connection with the main control chip and is used for positioning operation;

and/or communicating with preset external equipment.

8. The smart bracelet of claim 1, further comprising:

the distress button is arranged on the outer side of the bracelet body and is in communication connection with the main control chip and used for sending a distress signal after being triggered to act.

9. The smart bracelet of claim 1, further comprising:

the power module is arranged inside the bracelet body and is in communication connection with the main control chip and used for providing electric power so as to enable the gas sensor, the main control chip and the alarm module to run normally.

10. The smart bracelet of claim 1, further comprising:

display module set up in bracelet body upper surface, with main control chip communication connection is used for responding to main control chip sends and shows the instruction, and is right vital sign and/or gaseous condition show.

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