CN108082421B - Intelligent control device for protective swimsuit or life jacket - Google Patents

Abstract

The invention discloses an intelligent control device for a protective swimsuit or a life jacket, which comprises a control device body; the control device body comprises an underwater pressure detection unit, an amplifying and driving unit, an misoperation prevention device, a GPS terminal, a remote control receiving unit, a wireless rechargeable battery and battery electric quantity indication signal module, a power actuator, an air bag manual release button, a control valve inner thimble, a high-pressure miniature air storage bottle, an air bag connected with the control device, a wireless charger, a wireless remote controller, wireless mobile rescue monitoring equipment, a rescue monitoring center and a mode selection device with a button and an indication signal; the invention provides an intelligent control device for a protective swimsuit or a life jacket; the control in multiple modes is realized, and the normal work of the protective swimsuit or the life jacket is ensured; and when accidents occur, the real-time, accurate and convenient self-rescue and the rescue of other people are provided, and the life safety is ensured.

Description

Intelligent control device for protective swimsuit or life jacket

Technical Field

The invention relates to the field of intelligent control, in particular to an intelligent control device for a protective swimsuit or a life jacket.

Background

The protective swimwear provides a safety life-saving function on the basis of convenient swimming, and is characterized in that an airbag waistband is additionally arranged on the basis of the swimwear for common adults and young men and women, and a small strip-shaped pocket is sewn on two sides of the crotch of the swimwear for respectively placing left and right 1 miniature gas cylinders. When swimming lovers wear the swimsuit to swim, the swimsuit ensures safety and can freely swim in water like the past, and the swimsuit does not add great resistance to swimming like other life jackets and swim rings at present. In swimming, if the swimmer is in danger of sudden accident, the swimmer can immediately pull the rope on the inflation valve or press the button on the inflation valve to inflate the air bag in the waistband by the miniature air bottle, and the air bag is inflated to become a life buoy quickly, so as to achieve the aim of life saving.

The life jacket (a life pocket) is also called a life vest, is a life-saving garment, is designed to be similar to a vest, and is made of nylon fabric or NEOPRENE (NEOPRENE), buoyancy materials or inflatable materials, reflective materials and the like. The service life is generally 5-7 years, and the life-saving device is one of life-saving devices on ships and airplanes; however, the traditional life jacket or swimsuit has gradually developed towards intelligent life-saving control, but the current intelligent control device for the protective swimsuit or the life jacket; the control of multiple modes cannot be realized, and the normal work of the protective swimsuit or the life jacket is difficult to ensure; and when accidents occur, real-time, accurate and convenient self-rescue and other people rescue cannot be provided.

Disclosure of Invention

The invention aims to provide an intelligent control device for a protective swimsuit or a life jacket, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

an intelligent control device for a protective swimsuit or a life jacket comprises a control device body; the control device body consists of an underwater pressure detection unit, an amplifying and driving unit, an misoperation prevention device, a GPS terminal, a remote control receiving unit, a wireless rechargeable battery and battery electric quantity indication signal module, a power actuator, an air bag manual release button, a control valve inner thimble, a high-pressure miniature air bottle, an air bag connected with the control device, a wireless charger, a wireless remote controller, wireless mobile rescue monitoring equipment, a rescue monitoring center and a mode selection device; the wireless rechargeable battery and the battery electric quantity indication signal module are respectively connected with the mode selection device, the underwater pressure detection unit, the amplifying and driving unit, the misoperation prevention device, the GPS terminal, the remote control receiving unit and the power actuator; the mode selection device is provided with a mode selection button and an indication signal which are respectively connected with the underwater pressure detection unit and the remote control receiving unit; the remote control receiving unit is also connected with a signal amplifying and driving unit which is connected with a power actuator; the power actuator is provided with an airbag manual release button; the power actuator is also connected with an inner thimble of the control valve and an anti-misoperation device; the misoperation preventing device is provided with an misoperation preventing button and is connected with the GPS terminal; the inner thimble of the control valve is connected with a high-pressure miniature air storage bottle which is connected with an air bag.

As a further scheme of the invention: the release modes of the safety airbag controlled by the control device body are three: 1. the safety airbag is released by manually operating the control valve through the safety airbag manual release button; 2. acquiring an underwater pressure signal through an underwater pressure detection unit, and automatically releasing the safety airbag when the pressure signal value reaches a certain set range; 3. the remote control signal receiving unit obtains the signal and releases the safety airbag through the wireless remote controller.

As still further aspects of the invention: the mode selection device has four modes of remote control of the swimming belt on the water surface, no remote control of the swimming belt on the water surface, remote control of the diving belt and pure manual operation, and realizes mode switching by switching on and off the signal path from the underwater pressure detection unit to the electronic signal amplification and driving unit and switching on and off the signal path from the remote control signal receiving unit to the electronic signal amplification and driving unit. When the passage of the signal sent by the underwater pressure detection unit is communicated with the passage of the signal sent by the remote control signal receiving unit, the swimming belt is in a remote control mode, and the device has the functions of automatic release, remote control release and manual release of the safety air bags; the underwater pressure detection unit sends the signal to the channel to be connected, and the remote control signal receiving unit sends the signal to the channel to be cut off, it is swimming to be the water surface that does not have the remote control mode, the apparatus has automatic release and manual release function of the air bag at this moment, there is not the remote control to release the function; the underwater pressure detection unit sends the signal to the channel to cut off, and the remote control signal receiving unit sends the channel to connect to the channel to be in the remote control mode of the diving belt, the apparatus has remote control release and manual release functions, there is no automatic release function of air bag; the underwater pressure detection unit is in a purely manual mode when the signal transmission path of the underwater pressure detection unit and the signal transmission path of the remote control signal receiving unit are cut off simultaneously, and the device can be suitable for various swimming modes but has a manual release function.

As still further aspects of the invention: the amplifying and driving unit acquires an electronic signal through the underwater pressure detecting unit or the remote control signal receiving unit, the electronic signal is subjected to primary amplification by the amplifying and driving unit and then is compared with a reference potential to achieve a set value, a differential signal is transmitted to the differential amplifier, and the signal amplified by the differential amplifier is used for driving a lower-level power actuator.

As still further aspects of the invention: the power actuator is provided with a driving signal by an amplifying and driving unit or a manual release button of an air bag, the actuator triggers an inner thimble of the control valve, the inner thimble of the control valve is provided with power by an energy storage compression spring in the actuator, the power actuator obtains the driving signal and drives a trigger mechanism by electromagnetic force generated by an electromagnetic coil in the power actuator, the trigger mechanism enables the compressed spring to release to drive the inner thimble of the control valve, and the compressed spring can be compressed and reset again for the next repeated use after being released; when the power actuator triggers the inner thimble of the control valve, the actuator also sends a GPS terminal starting signal to the misoperation preventing device.

As still further aspects of the invention: after the GPS terminal starting signal sent by the power actuator is obtained by the misoperation prevention device, the signal is delayed for a period of time to reach the GPS terminal in the transmission process by a delay circuit in the misoperation prevention device, the purpose of starting the GPS terminal in a delayed manner is achieved, and the starting signal which is about to reach the GPS terminal can be closed by pressing an misoperation prevention button on the misoperation prevention device within the set delay time, so that the release of the GPS positioning signal and the distress signal is terminated.

As still further aspects of the invention: the microcomputer and the electric module of the intelligent control system are integrally waterproof packaged, the rechargeable battery in the inner package supplements electric energy in a wireless charging mode, the rechargeable battery is charged by a wireless charger, and the wireless rechargeable battery in the inner package and the battery electric quantity indication signal module are provided with battery electric quantity indication signals.

As still further aspects of the invention: the control device body automatically receives signals of a preset GPS satellite group after the GPS terminal is started, and calculates positioning information of the position, and the calculated position information is transmitted to the wireless communication base station through a wireless signaling channel.

As still further aspects of the invention: the control device body can also realize short message interconnection and intercommunication through a unique bidirectional short message function of the GPS terminal and a preset China Beidou system.

As still further aspects of the invention: the wireless mobile rescue monitoring equipment receives the distress signal and the positioning signal transmitted by the GPS terminal on the control device body through the wireless communication base station to rescue, and can also directly utilize the unique bidirectional short message function of the China Beidou system to realize interconnection and intercommunication and receive the distress signal and the positioning signal transmitted by the GPS terminal on the control device body.

As still further aspects of the invention: the rescue monitoring center can be connected with the wireless communication base station through the wireless communication network and the Internet, and data information transmitted by the short message center is acquired to receive the distress signal and the positioning signal transmitted by the GPS terminal on the protective swimsuit or the life jacket intelligent control device.

Compared with the prior art, the invention has the beneficial effects that: the invention provides an intelligent control device for a protective swimsuit or a life jacket; the control in multiple modes is realized, and the normal work of the protective swimsuit or the life jacket is ensured; and when the accident occurs, the real-time, accurate and convenient self-rescue and the rescue of other people are provided, and the life safety is ensured.

Drawings

Fig. 1 is a schematic diagram of the principle and structure of an intelligent control device for a protective swimsuit or a life jacket.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Referring to fig. 1, an intelligent control device for a protective swimsuit or a life jacket comprises a control device body, wherein the control device body comprises an underwater pressure detection unit 1, an amplifying and driving unit 2, an anti-misoperation device 3, a GPS terminal 5, a remote control receiving unit 6, a wireless rechargeable battery and battery electric quantity indication signal module 7, a power actuator 8, an airbag manual release button 9, a control valve inner thimble 10, a high-pressure miniature air bottle 11, an airbag 12 connected with the control device, a wireless charger 13, a wireless remote controller 14, a GPS satellite group 15, a wireless communication base station 16, a rescue monitoring center 17, wireless mobile rescue monitoring equipment 18, a mode selection device 19 with buttons and indication signals and an integral waterproof package 20;

the release modes of the air bag 12 controlled by the control device body are 3: 1. the airbag 12 is released by manually operating the control valve through the airbag manual release button 9; 2. acquiring an underwater pressure signal by the underwater pressure detection unit 1, and automatically releasing the airbag 12 when the pressure signal value reaches a certain set range; 3. the remote control signal receiving unit 6 acquires the signal by transmitting the signal through the wireless remote control 14 and releases the airbag 12.

The working mode of the intelligent control device comprises four modes of remote control of a swimming zone on the water surface, no remote control of swimming on the water surface, remote control of a diving zone and pure manual operation, and the mode selection device realizes mode switching by switching on and off a signal path from the underwater pressure detection unit to the electronic signal amplification and driving unit and switching on and off a signal path from the remote control signal receiving unit to the electronic signal amplification and driving unit. When the passage of the signal sent by the underwater pressure detection unit is communicated with the passage of the signal sent by the remote control signal receiving unit, the swimming belt is in a remote control mode, and the device has the functions of automatic release, remote control release and manual release of the safety air bags; the underwater pressure detection unit sends the signal to the channel to be connected, and the remote control signal receiving unit sends the signal to the channel to be cut off, it is swimming to be the water surface that does not have the remote control mode, the apparatus has automatic release and manual release function of the air bag at this moment, there is not the remote control to release the function; the underwater pressure detection unit sends the signal to the channel to cut off, and the remote control signal receiving unit sends the channel to connect to the channel to be in the remote control mode of the diving belt, the apparatus has remote control release and manual release functions, there is no automatic release function of air bag; the underwater pressure detection unit is in a purely manual mode when the signal transmission path of the underwater pressure detection unit and the signal transmission path of the remote control signal receiving unit are cut off simultaneously, and the device can be suitable for various swimming modes but has a manual release function.

The underwater pressure detection unit 1 mainly comprises a miniature pressure sensor, an electronic signal obtained by the underwater pressure detection unit 1 or the remote control signal receiving unit 6 is subjected to primary amplification of the electronic signal by the amplifying and driving unit 2, and then compared with a reference potential to achieve a set value, a differential signal is transmitted to a differential amplifier, and the signal amplified by the differential amplifier is used for driving a lower-level power actuator 8. Microelectronic components and circuitry will be fabricated as electronic chips to minimize volume.

The signal is input into the power actuator 8 and then the actuator 8 triggers the control valve inner thimble 10, the working principle of the power actuator 8 is that the control valve inner thimble 10 is powered by the energy storage compression spring in the power actuator 8, the power actuator 8 obtains the driving signal and then drives the triggering mechanism by electromagnetic force generated by the electromagnetic coil in the power actuator 8, the triggering mechanism releases the elasticity of the compressed spring to drive the control valve inner thimble 10, and the triggering mechanism is driven by the electromagnetic force generated by the electromagnetic coil in the power actuator 8 because the electromagnetic force can penetrate the sealing material and be transmitted to the triggering mechanism without affecting the sealing waterproof performance of the intelligent device.

The inner thimble 10 of the control valve pierces the bottle mouth of the high-pressure miniature air bottle 11 under the pushing of spring force, so that CO2 high-pressure air in the bottle is released to inflate the safety air bag 12, and the aim of automatic lifesaving is achieved; when the power actuator 8 triggers the inner thimble 10 of the control valve, the power actuator 8 simultaneously sends out a GPS terminal starting signal, and the starting signal is input into the misoperation preventing device 3 and is transmitted to the GPS terminal 5 on the intelligent control device of the protective swimsuit or the life jacket after a certain time delay, so as to start the GPS function. After the GPS terminal 5 is started, signals of a GPS satellite group 15 (the satellite group refers to a plurality of satellites distributed in space) are automatically received, positioning information of the position is calculated, the calculated position information is transmitted to a wireless communication base station 16 through a wireless signaling channel, the wireless communication base station 16 receives information transmitted by the GPS terminal 5, data information is transmitted to a rescue monitoring center 17 through a short message center to send out distress signals and positioning signals, a worker of the rescue monitoring center 17 can command rescue work by utilizing the data information transmitted by the short message center, and meanwhile, rescue workers on a search and rescue site can also use the wireless mobile rescue monitoring equipment 18 to receive the distress signals transmitted by the GPS terminal 5 on a victim through the wireless communication base station 16 and cooperate with the positioning signals to rescue the rescue monitoring center 17. In a swimming place with conditions, such as a large-scale beach bathing place, a rescue monitoring center 17 can be established and used together with wireless mobile rescue monitoring equipment 18; in swimming places without the establishment of the rescue monitoring center 17, the wireless mobile rescue monitoring equipment 18 can also be used independently to receive distress signals and positioning signals transmitted by the GPS terminal 5 on the patient through the wireless communication base station 16 for carrying out swimming safety monitoring and carrying out water rescue work; in the ocean where the wireless communication base station cannot be established and in the remote areas where the wireless communication base station cannot be established, the wireless mobile rescue monitoring equipment 18 can meet the requirements of realizing interconnection and intercommunication in the areas where no mobile phone signal is covered, namely the areas where the wireless communication base station 16 cannot be covered, by utilizing the unique bidirectional short message function of the China Beidou system, swimming safety monitoring is carried out, and water rescue work is carried out.

The anti-misoperation device 3 is arranged for preventing a user from accidentally triggering and releasing the safety airbag 12, and the system automatically starts the GPS terminal 5 to send out positioning and distress signals and misleading the rescue personnel. If the user releases the safety airbag 12 by careless false triggering, the anti-misoperation button 4 on the anti-misoperation device 3 should be pressed within a set time to close the starting signal which is about to reach the GPS terminal 5, so as to prevent the GPS terminal 5 from emitting positioning and calling for help signals to misguide rescue workers. Normally, after the system triggers and releases the safety airbag 12, the GPS terminal 5 automatically transmits positioning and distress signals after a set certain time, and rescue workers learn to deploy rescue work.

The principle of the misoperation prevention device 3 is as follows: when the power actuator 8 triggers the control valve inner thimble 10 to release the air bag 12, the power actuator 8 simultaneously sends a GPS terminal starting signal which automatically reaches the GPS terminal 5 to start the GPS terminal 5. If the airbag 12 is released by false triggering or the user does not need rescue personnel to rescue after the airbag 12 is released, in order to enable the user to manually stop the GPS starting signal before the GPS terminal 5 is started after the airbag 12 is released by triggering, the starting signal automatically reaching the GPS terminal 5 needs to be set with a certain time delay before the starting signal reaches so as to delay the GPS starting signal to reach. If the safety airbag 12 is normally released without false triggering and rescue personnel are needed, the GPS starting signal is transmitted to the GPS terminal 5 after a certain set time delay through the misoperation prevention device 3, and the GPS function is started to emit positioning and distress signals.

The microcomputer and the electric module of the intelligent control system adopt an integral waterproof package 20, the internally packaged rechargeable battery supplements electric energy in a wireless charging mode, the wireless charger 13 charges the rechargeable battery, and the internally packaged wireless rechargeable battery and the battery electric quantity indication signal module 7 are provided with battery electric quantity indication signals to indicate whether the electric energy in the battery is full or not, and the fully packaged rechargeable battery is ensured to be full before use.

The function of the remote control release air bag 12 is mainly used for swimming learners such as children needing to be monitored, and the remote control operation of the remote control release air bag 12 can be carried out by the guardian when the swimming learners encounter danger, so that the aim of lifesaving is achieved.

When a swimmer or a person falling into water for various reasons falls into a certain set depth range after being in danger, the underwater pressure detection unit 1 can detect that the underwater pressure value of the water depth position where the intelligent control device is positioned reaches a certain corresponding set pressure value range, so that the intelligent control device automatically releases the safety airbag 12 to achieve the aim of lifesaving.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (9)

1. An intelligent control device for a protective swimsuit or life jacket comprises a control device body; the control device is characterized in that the control device body consists of an underwater pressure detection unit, an amplifying and driving unit, an anti-misoperation device, a GPS terminal, a remote control receiving unit, a wireless rechargeable battery and battery electric quantity indication signal module, a power actuator, an air bag manual release button, a control valve inner thimble, a high-pressure miniature air bottle, an air bag connected with the control device, a wireless charger, a wireless remote controller, wireless mobile rescue monitoring equipment, a rescue monitoring center and a mode selection device with a button and an indication signal; the wireless rechargeable battery and the battery electric quantity indication signal module are respectively connected with the mode selection device, the underwater pressure detection unit, the amplifying and driving unit, the misoperation prevention device, the GPS terminal, the remote control receiving unit and the power actuator; the mode selection device is provided with a mode selection button and an indication signal which are respectively connected with the underwater pressure detection unit and the remote control receiving unit; the remote control receiving unit is also connected with a signal amplifying and driving unit which is connected with a power actuator; the power actuator is provided with an airbag manual release button; the power actuator is also connected with an inner thimble of the control valve and an anti-misoperation device; the misoperation preventing device is provided with an misoperation preventing button and is connected with the GPS terminal; the inner thimble of the control valve is connected with a high-pressure miniature air storage bottle which is connected with an air bag;

the release modes of the safety airbag controlled by the control device body are three: 1. the safety airbag is released by manually operating the control valve through the safety airbag manual release button; 2. acquiring an underwater pressure signal through an underwater pressure detection unit, and automatically releasing the safety airbag when the pressure signal value reaches a certain set range; 3. transmitting signals through a wireless remote controller, and releasing the safety airbag after the remote control signal receiving unit acquires the signals; the mode selection device has four modes of remote control of the swimming zone on the water surface, no remote control of the swimming zone on the water surface, remote control of the diving zone and purely manual operation, and realizes the mode switching by switching on and off the signal passage from the underwater pressure detection unit to the electronic signal amplification and driving unit and switching on and off the signal passage from the remote control signal receiving unit to the electronic signal amplification and driving unit, and the device has the functions of automatic release, remote control release and manual release of the safety air bags when the passage from the underwater pressure detection unit to the signal passage is switched on and the passage from the remote control signal receiving unit to the signal passage is simultaneously switched on; the underwater pressure detection unit sends the signal to the channel to be connected, and the remote control signal receiving unit sends the signal to the channel to be cut off, is the swimming of the water surface to have no remote control mode, at this moment the apparatus has automatic release and manual release function of the air bag, there is no remote control to release the function; the underwater pressure detection unit sends the signal to the channel to cut off, and the remote control signal receiving unit sends the channel to connect to the channel to be in the remote control mode of the diving belt, the apparatus has remote control release and manual release functions, there is no automatic release function of air bag; the underwater pressure detection unit is in a purely manual mode when the signal transmission path of the underwater pressure detection unit and the signal transmission path of the remote control signal receiving unit are cut off simultaneously, and the device can be suitable for various swimming modes but has a manual release function.

2. The intelligent control device for a protective swimsuit or life jacket according to claim 1, wherein the amplifying and driving unit acquires the electronic signal from the underwater pressure detecting unit or the remote control signal receiving unit, and when the electronic signal is compared with the reference potential to reach the set value after being primarily amplified by the amplifying and driving unit, the differential signal is transmitted to the differential amplifier, and the signal amplified by the differential amplifier is used for driving the lower power actuator.

3. The intelligent control device for a protective swimsuit or a life jacket according to claim 1, wherein the power actuator is provided with a driving signal by an amplifying and driving unit or by an airbag manual release button, the actuator triggers the inner thimble of the control valve, the inner thimble of the control valve is provided with power by an energy storage compression spring in the actuator, the electromagnetic force generated by an electromagnetic coil in the power actuator drives a triggering mechanism after the power actuator obtains the driving signal, the triggering mechanism releases the elasticity of the compressed spring to drive the inner thimble of the control valve, and the compressed spring can be compressed again to reset for the next repeated use after being released; when the power actuator triggers the inner thimble of the control valve, the actuator also sends a GPS terminal starting signal to the misoperation preventing device.

4. The intelligent control device for a protective swimsuit or a life jacket according to claim 1, wherein after the anti-misoperation device obtains a starting signal of a GPS terminal sent by the power actuator, the signal delays for a period of time to reach the GPS terminal in the transmission process through a delay circuit in the anti-misoperation device, the purpose of starting the GPS terminal in a delayed manner is achieved, and a start signal which is about to reach the GPS terminal can be closed by pressing an anti-misoperation button on the anti-misoperation device within a set delay time, so that the release of a GPS positioning signal and a distress signal is terminated.

5. The intelligent control device for the protective swimwear or the life jacket according to claim 1, wherein the microcomputer and the electric module of the intelligent control device adopt integral waterproof packaging, the internally packaged rechargeable battery supplements electric energy in a wireless charging mode, the wireless charger charges the rechargeable battery, and the internally packaged wireless rechargeable battery and the battery power indication signal module are provided with battery power indication signals.

6. The intelligent control device for a protective swimsuit or life jacket according to claim 1, wherein the GPS terminal automatically receives signals from a GPS satellite group after being started, and calculates positioning information of the position, and the calculated positioning information is transmitted to the wireless communication base station through a wireless signaling channel.

7. The intelligent control device for the protective swimsuit or the life jacket according to claim 1, wherein the control device body realizes short message interconnection and intercommunication with a preset bidirectional short message function of the Chinese Beidou system through a GPS terminal.

8. The intelligent control device for the protective swimwear or the life jacket according to claim 1, wherein the wireless mobile rescue monitoring equipment receives the distress signal and the positioning signal transmitted by the GPS terminal on the intelligent control device for the protective swimwear or the life jacket through the wireless communication base station to implement rescue, and the wireless mobile rescue monitoring equipment is interconnected and communicated by directly utilizing the bidirectional short message function of the beidou system in China to receive the distress signal and the positioning signal transmitted by the GPS terminal on the control device body.

9. The intelligent control device for the protective swimsuit or the life jacket according to claim 1, wherein the rescue monitoring center can be connected with the wireless communication base station through a wireless communication network and the internet, and the data information transmitted by the short message center is acquired to receive the distress signal and the positioning signal transmitted by the GPS terminal on the intelligent control device for the protective swimsuit or the life jacket.