CN114992598A - Emergency rescue user external illuminating lamp based on vital sign detection - Google Patents

Abstract

The invention provides an emergency rescue user external illuminating lamp based on vital sign detection, which relates to the technical field of outdoor illuminating lamps and comprises a main illuminating lamp, a main control base, a bearing constraint belt and a telescopic supporting column, wherein the main control base is arranged on the bottom surface of the main illuminating lamp, a secondary illuminating device is connected and arranged on the circumference of the surface of the main control base, an integrated control main board is electrically connected with a PLC (programmable logic controller) control main board, the telescopic supporting column comprises a guide inner column and a guide sleeve column, the top end of the guide inner column is in threaded connection with the central position of the main control base, a threaded groove is arranged at the central position of the bottom surface of the guide sleeve column, at least two telescopic supporting columns are arranged, the two ends of the bearing constraint belt are sleeved with the surfaces of the telescopic supporting columns, the main illuminating lamp can disassemble the secondary illuminating device connected with the surfaces for mobile illumination while performing integral illumination, the illuminating range and the using mode are increased, the mobile illumination in the field is convenient, and the detachable telescopic supporting columns can be assembled simply and singly by the sleeving of the bearing constraint belt, is convenient for field emergency rescue.

Description

Emergency rescue user external illuminating lamp based on vital sign detection

Technical Field

The invention relates to the technical field of outdoor illuminating lamps, in particular to an emergency rescue outdoor illuminating lamp based on vital sign detection.

Background

According to the intelligent LED lamp with the non-contact vital sign monitoring function disclosed in the Chinese patent No. CN106963349A, the intelligent LED lamp further comprises an infrared detector module, a non-contact vital sign intelligent monitoring module, a wireless communication module and a microprocessor module connected with all other modules; the infrared detector module is used for monitoring whether a human body exists indoors or not, and if the human body exists, the non-contact type vital sign intelligent monitoring module is driven; the non-contact vital sign intelligent monitoring module is used for monitoring the breath and heartbeat information of an indoor human body, sending the information to the microprocessor module, and transmitting data to the cloud server through the wireless communication module. The health monitoring device is used for monitoring the health condition while illuminating, and is not required to be worn; the method is accurate and reliable, does not influence human health, and is green, safe and healthy; the living body is detected by infrared rays and cannot be interfered by a vibrated room object; monitoring data uploads the server, and the mobile terminal APP is convenient to check at any time.

The outdoor emergency rescue illuminating lamp comprises a shell, an illuminating lamp holder, an interphone module and a GPS positioning module, wherein the illuminating lamp holder is connected to one side wall of the shell through a screw, and a microprocessor is connected to one side wall of the shell through a screw. Has the advantages that: the utility model discloses cross microprocessor, GPS orientation module, the antenna, the design of microphone and lighting lamp holder, make this emergency rescue light on the basis that has the illumination function, GPS location and wireless function of talkbacking still have, be convenient for the first-aid staff in time contact with command center, ensure that the high efficiency of emergency rescue work goes on, design through photosensitive sensor, can realize lighting lamp holder's self-closing when external light is bright, the waste of electric energy has effectively been avoided, the availability factor of this emergency rescue light has been improved, the practicality is good.

When the infrared detector is adopted to simulate and detect human body characteristics for use, the infrared-based monitoring method is easily influenced by the ambient temperature, so that the detection data are inaccurate and the practical use is not facilitated;

the second problem is that the illuminating lamp for outdoor emergency rescue in the second document only realizes the functions of positioning and self-adjusting illumination, so that the safety of the rescuers cannot be guaranteed because the vital signs of the rescuers cannot be monitored, and for the rescuers to be rescued, the rescuers do not have other available tools for rapidly carrying, moving and the like to be rescued, and the actual rescue use is not facilitated;

the three problems are that the whole device has strong independence and no connection exists between adjacent devices in the two files, so that the detection and rescue illumination range of the whole vital sign is small, and the detection and emergency rescue of the vital sign during field illumination are not facilitated.

Disclosure of Invention

Solves the technical problem

Aiming at the defects of the prior art, the invention provides an emergency rescue outdoor illuminating lamp based on vital sign detection, which solves the following problems:

1. the infrared detection simulator is easy to be influenced by external environment by adopting a non-contact vital sign monitoring mode, and vital sign monitoring is carried out by utilizing various parameters such as radar, gas, temperature and the like, so that the monitoring accuracy is guaranteed;

2. the problem that vital signs of rescuers cannot be monitored and guaranteed when the rescuers use the rescuers for rescue is solved, and the vital signs of the rescuers are monitored in real time by utilizing the monitoring function of the rescuers with the auxiliary illuminating lamp when the vital signs are contacted;

3. rescue instrument can not assemble fast and the little problem of no connectivity of detection scope when rescue uses, adopts each main lighting lamp to combine the large tracts of land node cover that each node was interweaved into through PLC control mainboard, and carries out the use of simple and easy list frame through assembling of the flexible support column that supports the use, is convenient for rescue transport.

Technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: emergency rescue user outer lighting lamp based on vital sign surveys, including main lighting lamp, main control base, bearing constraint area and telescopic support post, the main lighting lamp bottom surface is equipped with main control base, main control base surface circumference connection is equipped with vice lighting device, the inside PLC control mainboard that is equipped with of main control base, the inside integrated control mainboard that is equipped with of vice lighting device, integrated control mainboard and PLC control mainboard electric connection, telescopic support post includes direction inner prop and uide bushing post, the post top puts threaded connection with main control base central point in the direction, uide bushing post bottom surface central point puts and is equipped with the thread groove, telescopic support post is equipped with two at least, bearing constraint area both ends cup joint with telescopic support post surface.

Preferably, adjacent vice lighting device passes through integrated control mainboard electric connection, the main light is equipped with a plurality ofly, and is adjacent through PLC control mainboard electric connection between the main light, and is adjacent the main light all is connected with the server through PLC control mainboard, PLC control mainboard mainly includes biological radar detection unit, gaseous detection unit, infrared detection unit, connecting unit, initiative alarm unit, locating unit and memory cell, the integrated control mainboard mainly includes electrocardio monitoring module, pulse monitoring module, sweat monitoring module, body temperature monitoring module, connecting module, passive alarm module, locating module and memory module.

Preferably, the auxiliary illuminating device comprises an auxiliary illuminating lamp and an integrated control main board, a connecting stud is fixedly arranged on the uniform circumference of the side surface of the main control base, the center position of the back surface of the auxiliary illuminating lamp is in threaded connection with the surface of the connecting stud, an arc-shaped accommodating groove is formed in the side surface of the auxiliary illuminating lamp, the distribution position of the arc-shaped accommodating groove is half of the circumference of the auxiliary illuminating lamp, elastic binding belts are fixedly arranged at two ends of the inner portion of the arc-shaped accommodating groove, and the integrated control main board is arranged in the auxiliary illuminating lamp.

Preferably, master control base bottom surface screwed connection is equipped with sealing plate, the master control base side evenly is equipped with three support stop device, support stop device including supporting steel cable and locating pin, three steel cable accumulator has been seted up to the even circumference in the inside bottom surface of master control base, the inside torsional spring pivot that all is equipped with of steel cable accumulator, torsional spring pivot surface is fixed with the one end winding of supporting the steel cable, the one end that torsional spring pivot was kept away from to the support steel cable runs through the master control base side and cup joints and be equipped with the locating pin.

Preferably, the surface of the guide sleeve column is vertically and uniformly provided with positioning holes in an array mode, the surface of the guide inner column, close to the bottom end, is embedded with a spring pin, the spring pin is clamped with the positioning holes, the outer wall of the guide inner column is abutted to the inner wall of the guide sleeve column, and the adjacent telescopic supporting columns are connected with the threaded grooves in the vertical direction through the end portions of the guide inner column to be assembled and molded.

Preferably, the joint of the main illuminating lamp and the main control base is sealed, the vertical central line of the main illuminating lamp coincides with the vertical central line of the main control base, and the vertical central line of the main control base coincides with the vertical central line of the telescopic supporting column.

Preferably, the bearing binding belts are formed by plain weaving of ultra-high molecular weight polyethylene fibers, and at least two bearing binding belts are arranged.

Advantageous effects

The invention provides an emergency rescue outdoor lighting lamp based on vital sign detection. The method has the following beneficial effects:

1. the main illuminating lamp is connected with the telescopic supporting columns through the main base to carry out field fixed supporting illumination, the auxiliary illuminating devices connected with the circumference of the main base carry out auxiliary illumination, the main illuminating lamp can detach the auxiliary illuminating devices connected with the surface to carry out mobile illumination while carrying out integral illumination, the illuminating range and the using mode are increased, the field mobile illumination is convenient to use, and meanwhile, the detachable telescopic supporting columns are simply assembled in a single frame through the sleeving of the bearing constraint belts, so that the field emergency rescue is convenient to use.

2. According to the invention, the PLC is arranged in the main illuminating lamp to control the main board to monitor and actively pre-warn abnormal human body signs in the surrounding environment through biological radar, infrared, gas detection and the like while the main illuminating lamp illuminates, so that the non-contact detection of the vital body signs in the field environment is facilitated, meanwhile, rescue workers carry out rescue use by wearing the auxiliary illuminating device, and the auxiliary illuminating device illuminates and carries out contact type vital body sign monitoring on the rescue workers through all modules on the surface of the integrated control main board, so that the safety of the rescue workers is ensured.

3. According to the invention, the main illuminating lamps are mutually connected through the PLC control main boards to form each position node, the multi-point coverage monitoring is carried out on the field environment at multiple positions, the vital sign monitoring range is increased when the outdoor rescue device is used, the multi-point coverage is convenient for positioning monitoring and using, meanwhile, the integrated control main board in the auxiliary illuminating device is convenient for vital sign monitoring and position positioning of rescuers, the rescue safety of the rescuers is increased, the coverage is wide, and the positioning and rapid rescue use of the emergency rescue condition are facilitated.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 3 is a front cross-sectional view of the present invention;

FIG. 4 is an enlarged view of FIG. 2 at B of the present invention;

FIG. 5 is a disassembled view of the main control base of the present invention;

FIG. 6 is a top view of the present invention;

FIG. 7 is a view of the assembled structure of the telescopic support columns and the load-bearing restraining strips of the present invention;

FIG. 8 is a folded configuration of the present invention;

fig. 9 is a connection plan view of the PLC control main board and the integrated control main board according to the present invention.

Wherein: 1. a main lighting lamp; 2. a main control base; 3. sealing the bottom plate; 4. connecting a stud; 5. a sub-illumination device; 501. a secondary illuminating lamp; 502. an arc-shaped receiving groove; 503. an elastic binding band; 504. an integrated control main board; 6. a supporting and limiting device; 601. a torsion spring shaft; 602. supporting the steel rope; 603. positioning pins; 604. a steel rope recovery groove; 7. a telescopic support column; 8. guiding the inner column; 9. a guide sleeve column; 10. a thread groove; 11. a spring pin; 12. positioning holes; 13. a load-bearing restraining belt; 14. the PLC controls the main board.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-9, the emergency rescue outdoor lighting lamp based on vital sign detection comprises a main lighting lamp 1, a main control base 2, a bearing binding belt 13 and a telescopic supporting column 7, wherein the main control base 2 is arranged on the bottom surface of the main lighting lamp 1, a plurality of auxiliary lighting devices 5 are connected on the surface circumference of the main control base 2, a PLC control mainboard 14 is arranged inside the main control base 2, an integrated control mainboard 504 is arranged inside the auxiliary lighting device 5, the integrated control mainboard 504 is electrically connected with the PLC control mainboard 14, adjacent auxiliary lighting devices 5 are electrically connected through the integrated control mainboard 504, the main lighting lamp 1 is provided with a plurality of main lighting lamps 1, adjacent main lighting lamps 1 are electrically connected through the PLC control mainboard 14, adjacent main lighting lamps 1 are connected with a server through the PLC control mainboard 14, each lighting device is connected with a plurality of auxiliary lighting devices 5 through the main control base 2 for use, a fixed code is arranged inside the integrated control mainboard 504 of each auxiliary lighting device 5 through a positioning module, the auxiliary lighting devices 5 are sequentially arranged and connected on the surface of each main control base 2 in sequence, so that corresponding numbers can be quickly confirmed when the lighting devices are absent and not reset, quick positioning and searching are facilitated, meanwhile, the auxiliary lighting device 5 can also be connected with a connecting stud 4 on the surface of the main control base 2 of any one main lighting lamp 1, the main lighting lamps 1 are mutually communicated through a PLC control main board 14 to form each position node, the multi-point coverage monitoring is carried out on the field environment at a plurality of positions, the vital sign monitoring range is increased when the outdoor rescue is used, the multi-point coverage is convenient for positioning monitoring and using, meanwhile, the integrated control mainboard 504 inside the auxiliary lighting device 5 is convenient for monitoring vital signs and positioning the rescue workers, the safety of rescue workers is improved, the coverage is wide, and the positioning and quick rescue of emergency rescue conditions are facilitated.

The telescopic supporting columns 7 comprise guide inner columns 8 and guide sleeve columns 9, the top ends of the guide inner columns 8 are in threaded connection with the center of the main control base 2, threaded grooves 10 are formed in the center of the bottom surface of the guide sleeve columns 9, at least two telescopic supporting columns 7 are arranged, positioning holes 12 are vertically and uniformly formed in an array mode in the surface of the guide sleeve columns 9, spring pins 11 are embedded into the positions, close to the bottom ends, of the surfaces of the guide inner columns 8 and are clamped with the positioning holes 12, the outer walls of the guide inner columns 8 abut against the inner walls of the guide sleeve columns 9, adjacent telescopic supporting columns 7 are connected with the threaded grooves 10 through the end portions of the guide inner columns 8 in the vertical direction for assembly forming, the telescopic supporting columns 7 are added in quantity according to the height of the main illuminating lamp 1 during actual use, the adjacent telescopic supporting columns 7 are connected with the threaded grooves 10 through the end portions of the guide inner columns 8 and the bottom ends of the guide sleeve columns 9 for assembly, and the adjacent telescopic supporting columns 7 can be separated through the rotation of the end portions of the guide inner columns 8 and the threaded grooves 10, the telescopic supporting column 7 adjusts the integral vertical length through the sliding distance of the inner guiding column 8 in the guiding sleeve column 9, the adjusted length is fixed through the clamping of the spring pin 11 and the positioning hole 12, the two ends of the bearing binding belt 13 are sleeved with the surface of the telescopic supporting column 7, the two ends of the bearing binding belt 13 form a simple single frame through the inserted and disassembled telescopic supporting column 7, the width of the two ends of the bearing binding belt 13 accords with the standard size of the width of the existing single frame, meanwhile, the width of the bearing binding belt 13 can be set to be the size with wider width according to the actual requirement, so that the lifting and the transportation of a large-size person are convenient, the bearing binding belt 13 is formed by plain weaving of ultra-high molecular weight polyethylene fibers, at least two bearing binding belts 13 are arranged, the single longer bearing binding belt 13 takes time when the telescopic supporting column 7 is inserted, the arrangement of the two shorter bearing binding belts 13 can be more convenient when being sleeved, quick inserting of flexible support column 7 of being convenient for, save time, set up simultaneously that ultra high molecular weight polyethylene fiber weaves fashioned bearing constraint area 13 prevents the thorn performance when using, waterproof, fire behavior, it is more excellent to resistance to wears, the field rescue of being convenient for is used, satisfy the needs of the various performance of field rescue, increase the life of bearing constraint area 13, it causes the waste to avoid frequently changing, detachable flexible support column 7 cup joints through bearing constraint area 13 and carries out the assembly of simple and easy list frame, the field emergency rescue of being convenient for is used.

The auxiliary lighting device 5 comprises an auxiliary lighting lamp 501 and an integrated control mainboard 504, a connecting stud 4 is fixedly arranged on the uniform circumference of the side surface of the main control base 2, the central position of the back surface of the auxiliary lighting lamp 501 is in threaded connection with the surface of the connecting stud 4, an arc-shaped accommodating groove 502 is formed in the side surface of the auxiliary lighting lamp 501, the distribution position of the arc-shaped accommodating groove 502 is half of the circumference of the auxiliary lighting lamp 501, elastic binding bands 503 are fixedly arranged at two ends inside the arc-shaped accommodating groove 502, the integrated control mainboard 504 is arranged inside the auxiliary lighting lamp 501, a patch is arranged inside the connection part between the back surface of the auxiliary lighting lamp 501 and the connecting stud 4, a transmission patch is also arranged at the end part of the connecting stud 4, the patch at the end part of the connecting stud 4 is connected with the interior of the PLC control mainboard 14, the patch at the back surface of the auxiliary lighting lamp 501 is connected with the integrated control mainboard 504, the patch is arranged to meet the requirement that the auxiliary lighting lamp 501 is connected with and detached from the main control base 2, the PLC control mainboard 14 can transmit connection state information in time, when carrying out open-air independent removal illumination use or rescue and use, the rotatory vice light 501 of rescuer accessible and the rotatory dismantlement in connecting stud 4 surface, after the dismantlement, main light 1 passes through PLC control mainboard 14 transmission dismantlement signal to the server and carries out real-time backup and control, the rescuer pulls out the elasticity constraint area 503 of vice light 501 side inslot portion, cup joint vice light 501 in the wrist through elasticity constraint area 503, the forehead, positions such as arm and neck, the vice light 501 back sets up the cambered surface, be convenient for when the use is worn to the rescuer with the radian of the wearing position of health, it is more comfortable to make the rescuer wear, adopt main light 1 to connect telescopic support post 7 through main control base 2 and carry out open-air fixed stay illumination use, the vice lighting device 5 of main control base 2 circumference connection carries out the auxiliary lighting use, main light 1 can dismantle the vice lighting device 5 of surface connection when carrying out the whole illumination and move and shine The illumination device is used clearly, the illumination range and the use mode are increased, and the illumination device is convenient for field mobile illumination.

The bottom surface of the main control base 2 is connected with a sealing bottom plate 3 through screws, three supporting and limiting devices 6 are uniformly arranged on the side surface of the main control base 2, the bottom surface of the main control base 2 is vertically supported through a telescopic supporting column 7, and single support is easy to topple when the height is higher, so that the supporting and limiting devices 6 are arranged to support and limit the circumference of the main control base 2 and prevent toppling when the main lighting lamp 1 is lighted and fixed at a higher position, the supporting and limiting devices 6 comprise supporting steel ropes 602 and positioning pins 603, three steel rope recycling grooves 604 are uniformly arranged on the bottom surface inside the main control base 2, torsion spring rotating shafts 601 are respectively arranged inside the steel rope recycling grooves 604, the surfaces of the torsion spring rotating shafts 601 are fixedly wound with one ends of the supporting steel ropes 602, and the ends of the supporting steel ropes 602, which are far away from the torsion spring rotating shafts 601, penetrate through the side surface of the main control base 2 and are sleeved with the positioning pins 603, under the condition of normal nonuse, the supporting steel rope 602 completely recovers the supporting steel rope 602 into the steel rope recovery groove 604 through the resilience of the torsion spring rotating shaft 601, the positioning pin 603 is tightly attached to the side surface of the main control base 2, when the main illuminating lamp 1 is installed and used, the positioning pins 603 in three directions are preferentially stretched to be tightly inserted and fixed with the ground, the telescopic supporting column 7 is spliced and then inserted into the center position of the bottom surface of the main control base 2 for rotary threaded connection, the guide inner column 8 and the guide sleeve column 9 of the telescopic supporting column 7 slide and extend under the condition that the positioning pin 603 is fixed with the ground, the main control base 2 and the main illuminating lamp 1 are jacked upwards, the supporting steel rope 602 on the surface of the torsion spring rotating shaft 601 in the steel rope recovery groove 604 is released for length adaptation in the jacking process until the target height of illumination of the main illuminating lamp 1 is reached, the extension of the telescopic supporting column 7 is stopped, and the supporting steel rope 602 is in a tight state under the resilience force of the torsion spring rotating shaft 601, the side surface of the main control base 2 is limited and supported, the connection mode of the torsion spring rotating shaft 601 and the supporting steel rope 602 is similar to the structure of the existing measuring tape for measuring springback, the concrete structure is not in the protection range of the application, so that the detailed description is not needed, the stability of the installation of the main control base 2 and the main illuminating lamp 1 is kept through the limiting support of the supporting steel rope 602 and the telescopic supporting column 7, the connection part of the main illuminating lamp 1 and the main control base 2 is sealed, the vertical central line of the main illuminating lamp 1 and the vertical central line of the main control base 2 are superposed, the vertical central line of the main control base 2 and the vertical central line of the telescopic supporting column 7 are superposed, the gravity center of the whole device is kept stable through the superposition of the vertical central lines, the installation and the fixation are convenient, meanwhile, corresponding power supply devices such as lithium batteries, solar power supply backing plates and other power storage structures are arranged inside the main illuminating lamp 1 and the auxiliary illuminating lamp 501, the stable operation and use of the main illuminating lamp 1 and the auxiliary illuminating lamp 501 are facilitated.

The second embodiment is as follows:

as shown in fig. 1-9, the PLC control motherboard 14 mainly includes a biological radar detection unit, a gas detection unit, an infrared detection unit, a connection unit, an active alarm unit, a positioning unit and a storage unit, the biological radar detection unit detects by using an FMCW radar, in various radar types for detecting physical signs, the CW radar lacks distance information and cannot meet the requirements under complex scenes, the UWB radar has a complex structure and has a high requirement on sampling rate, the FMCW radar can measure the target distance without a high sampling frequency, so that the FMCW radar is selected for detecting the physical signs, the radar detects the target by using a radio method, detects the electromagnetic wave emitted by a target reflection device, receives the echo by a receiver, and processes and analyzes the echo by using a corresponding algorithm, thereby obtaining the position information of the detected target, because the signal transmission structure and principle in the FMCW radar are the existing structures, and are not in the protection range of the application, the radar life detection technology has the characteristics of strong penetration capability, accurate positioning, strong anti-interference performance and the like, is not easily influenced by noise and climate change of a search and rescue site, can also select electromagnetic waves with different wave bands according to different search and rescue sites, and is widely applied to search and rescue after disasters, through-wall monitoring, medical diagnosis and monitoring, a PLC control mainboard 14 artificially generates infrared radiation through an infrared detection unit active infrared searchlight to irradiate a detection target, processes corresponding reflected signals, and finally converts electric signals into optical signals which can be identified by human eyes so as to detect the existence of life bodies, including but not limited to specific entity structures such as an infrared night vision device, an infrared detection lamp and the like, a gas detection unit mainly comprises a sensor array and a corresponding identification algorithm, the gas sensor array is used for adsorbing gas compounds, the obtained odor signals are identified and analyzed, then the odor signals are distinguished, the gas monitoring technology is applied to the search and rescue work of wounded persons, the gas generated by the respiration of human bodies contains various Volatile Organic Compounds (VOCs), when natural disasters such as earthquakes occur, the VOCs generated by the respiration of survivors can be enriched in the space due to the narrow space below the ruins and the non-circulation of air, the concentration is high, the position information of the survivors can be obtained by monitoring the VOCs, and therefore the purpose of life detection is achieved, the integrated control mainboard 504 mainly comprises an electrocardio monitoring module, a pulse monitoring module, a sweat monitoring module, a body temperature monitoring module, a connecting module, a passive alarm module, a positioning module and a storage module, the electrocardio monitoring module is in contact with rescuers through electrodes to carry out electrocardio contact monitoring, the pulse monitoring module monitors the pulse of rescuers through the pulse sensor, the body temperature monitoring module monitors the body temperature of the rescuers through the body temperature probe, the sweat monitoring module monitors the sweat of the rescuers in a sweat micro-sensing mode, the sweat micro-sensor can monitor indexes such as lactic acid, glucose, potassium ions, sodium ions, chlorides, urea concentration, sweat pH value, sweat rate, total sweat amount and the like in the sweat in a non-invasive mode, physiological and biochemical analysis is carried out in a mode of not collecting blood samples, the rescuers can conveniently obtain high-quality vital sign data in the rescue process, the lactic acid concentration in the sweat of the rescuers is measured and analyzed through the sweat micro-sensor, the exercise intensity of the rescuers is measured and analyzed, the glucose concentration in the sweat is measured and analyzed, the energy consumption of the rescuers is analyzed, the total sweat amount can monitor physiological states such as the hydration state, the thermal regulation state and the like of the rescuers, the sweat microsensor works by combining a micro-fluidic device and a microsensor, the micro-fluidic device carries out electrochemical analysis on sweat, the microsensor obtains voltage data of lactic acid concentration in the sweat, glucose concentration and the like, the sweat microsensor is the same as a pulse sensor and is woven into the elastic binding belt by adopting a mode of weaving yarns together, the wearing comfort is ensured while the life sign monitoring is carried out on rescue workers, the server monitors the life signs of the rescue workers through an integrated control mainboard 504 in real time, when the life sign data of the rescue workers reach a set parameter threshold, the active early warning recall is carried out on the rescue workers wearing the illuminating lamp through a PLC (programmable logic controller) control mainboard 14, the auxiliary illuminating lamp 501 can only realize passive early warning, the emergency recall and the positioning search of the rescue workers are facilitated by setting the passive early warning, and the early warning modes include, but are not limited to sound, glucose concentration and the like, The lamp flashover and vibration lamp mode, meanwhile, passive early warning does not consume power, electric power can be saved, so that the illumination time of the auxiliary illuminating lamp 501 is prolonged, the A/D conversion for transmitting data by each sensor in each monitoring module is arranged on the surface of the integrated control mainboard 504, the monitored data can be conveniently transmitted to the PLC control mainboard 14 and the server, the server positions the position of the auxiliary illuminating lamp 501 in real time through the positioning module, the moving position of a rescuer can be conveniently monitored in real time, the safety of the rescuer can be ensured, the PLC control mainboard 14 is arranged in the main illuminating lamp 1, the abnormal human body signs in the surrounding environment can be monitored and actively early warned through biological radar, infrared, gas detection and the like while the main illuminating lamp 1 illuminates, the non-contact detection of the vital signs in the field environment can be conveniently realized, and meanwhile, the rescuer can carry out rescue use by wearing the auxiliary illuminating device 5, the auxiliary lighting device 5 performs contact vital sign monitoring on the rescue workers through each module on the surface of the integrated control main board 504 during lighting, so that the safety of the rescue workers is guaranteed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Emergency rescue user outer lighting lamp based on vital sign surveys, including main light (1), main control base (2), bearing constraint area (13) and flexible support column (7), its characterized in that: the utility model discloses a main lighting lamp, including main lighting lamp (1), main lighting lamp (1) bottom surface is equipped with main control base (2), main control base (2) surface circumference is connected and is equipped with vice lighting device (5), main control base (2) inside is equipped with PLC control mainboard (14), inside integrated control mainboard (504) that is equipped with of vice lighting device (5), integrated control mainboard (504) and PLC control mainboard (14) electric connection, flexible support column (7) are including direction inner prop (8) and guide sleeve post (9), post (8) top and main control base (2) central point put threaded connection in the direction, guide sleeve post (9) bottom surface central point puts and is equipped with thread groove (10), flexible support column (7) are equipped with two at least, bearing constraint area (13) both ends cup joint with flexible support column (7) surface.

2. An emergency rescue outdoor lighting lamp based on vital sign detection according to claim 1, characterized in that: adjacent vice lighting device (5) are through integrated control mainboard (504) electric connection, main light (1) are equipped with a plurality ofly, and are adjacent through PLC control mainboard (14) electric connection between main light (1), and are adjacent main light (1) all is connected with the server through PLC control mainboard (14), PLC control mainboard (14) mainly include biological radar detection unit, gaseous detection unit, infrared detection unit, connecting unit, initiative alarm unit, positioning unit and memory cell, integrated control mainboard (504) mainly include electrocardio monitoring module, pulse monitoring module, sweat monitoring module, body temperature monitoring module, connecting module, passive alarm module, positioning module and memory module.

3. An emergency rescue outdoor lighting lamp based on vital sign detection as claimed in claim 1, wherein: the auxiliary lighting device (5) comprises an auxiliary lighting lamp (501) and an integrated control main board (504), a connecting stud (4) is fixedly arranged on the uniform circumference of the side surface of the main control base (2), the center of the back surface of the auxiliary lighting lamp (501) is in threaded connection with the surface of the connecting stud (4), an arc-shaped accommodating groove (502) is formed in the side surface of the auxiliary lighting lamp (501), the distribution positions of the arc-shaped accommodating groove (502) are half of the circumference of the auxiliary lighting lamp (501), elastic binding belts (503) are fixedly arranged at two ends of the inner part of the arc-shaped accommodating groove (502), and the integrated control main board (504) is arranged inside the auxiliary lighting lamp (501).

4. An emergency rescue outdoor lighting lamp based on vital sign detection as claimed in claim 1, wherein: main control base (2) bottom surface screwed connection is equipped with sealing bottom plate (3), main control base (2) side evenly is equipped with three support stop device (6), support stop device (6) including supporting steel cable (602) and locating pin (603), three steel cable accumulator (604) have been seted up to the even circumference in main control base (2) inside bottom surface, steel cable accumulator (604) inside all is equipped with torsional spring pivot (601), torsional spring pivot (601) surface is fixed with the one end winding that supports steel cable (602), the one end that torsional spring pivot (601) was kept away from in support steel cable (602) runs through main control base (2) side and cup joints and is equipped with locating pin (603).

5. An emergency rescue outdoor lighting lamp based on vital sign detection as claimed in claim 1, wherein: locating hole (12) have been seted up to vertical even array in uide bushing post (9) surface, the embedding of bottom department on the surface of direction inner prop (8) is close to is equipped with spring catch (11), and spring catch (11) and locating hole (12) block of each other, direction inner prop (8) outer wall offsets with uide bushing post (9) inner wall, and is adjacent flexible support column (7) are connected with thread groove (10) through direction inner prop (8) tip in vertical direction and are assembled the shaping.

6. An emergency rescue outdoor lighting lamp based on vital sign detection as claimed in claim 1, wherein: the main illuminating lamp (1) and the main control base (2) are connected in a sealed mode, the vertical central line of the main illuminating lamp (1) coincides with the vertical central line of the main control base (2), and the vertical central line of the main control base (2) coincides with the vertical central line of the telescopic supporting column (7).

7. An emergency rescue outdoor lighting lamp based on vital sign detection as claimed in claim 1, wherein: the bearing binding belts (13) are formed by plain weaving of ultra-high molecular weight polyethylene fibers, and at least two bearing binding belts (13) are arranged.

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