CN204465738U - A kind of disaster relief rescue visible system - Google Patents

Abstract

The utility model discloses a kind of disaster relief rescue visible system, belong to augmented reality field.The utility model system comprises intelligent glasses and intelligent terminal, wherein: described intelligent glasses comprises intelligent glasses processor, micro projector and intelligent glasses eyeglass; Described intelligent terminal comprises position positioning unit, intelligent terminal memory, intelligent terminal processor, intelligent glasses communication interface and external communication interface.The utility model utilizes virtual reality technology, by positioning the position of disaster relief rescue personnel, generating the virtual reality image of rescue personnel position, the virtual reality image of generation is sent to intelligent glasses.The utility model utilizes augmented reality at the scene scene image basis to superpose on-the-spot map or other information, enables disaster relief rescue personnel locate the place, position at oneself place in time by visual mode, improves rescue efficiency.

Description

A kind of disaster relief rescue visible system

Technical field

The utility model belongs to augmented reality field, more specifically, relates to a kind of disaster relief rescue visible system.

Background technology

China is the multiple country of earthquake disaster, and in recent years, the earthquake taken place frequently has had a strong impact on the life of people, causes heavy casualties.After the earthquake, personnel are buried to pressure and rescues more fast more timely, rescue the possibility of bringing back to life larger.The earthquake rescue team of China has been equipped with rescue dogs and multiple search and rescue instrument, comprises audio-type, video type and radar life-detector etc.Although these means can detect the existence of life-information, do not enough in accurate location, often delay valuable rescue time, have impact on the efficiency of rescue.In addition at disaster relief rescue site, rescue personnel is often also difficult to locate trapped personnel position, causes to rescue trapped personnel in time.Therefore how disaster accurately locates after occurring, visual rescue is a difficult problem urgently to be resolved hurrily in current disaster relief rescue.

Utility model content

For above defect or the Improvement requirement of prior art, the utility model provides a kind of disaster relief to rescue visible system, its object is at disaster relief rescue site, accurately can locate disaster relief rescue personnel, and the data messages such as ready-made map are shown to disaster relief rescue personnel in visual mode, be convenient to the bailout enforcement of the disaster relief.

For achieving the above object, the utility model provides a kind of disaster relief rescue visible system, comprises intelligent glasses and intelligent terminal, wherein:

Described intelligent glasses comprises intelligent glasses processor, micro projector and intelligent glasses eyeglass, wherein:

Described intelligent glasses processor, for receiving the virtual reality image that intelligent terminal sends, and is sent on micro projector by described virtual reality image; Wherein said virtual reality image is the map at disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief;

Described micro projector, for receiving the virtual reality image that described intelligent glasses processor sends, and projects on described intelligent glasses eyeglass by described virtual reality image under the control of described intelligent glasses processor;

Described intelligent glasses eyeglass is penetration, for being superposed with on-the-spot actual environment image by the virtual reality image projected on intelligent glasses eyeglass, forms augmented reality image;

Described intelligent terminal comprises position positioning unit, intelligent terminal memory, intelligent terminal processor, intelligent glasses communication interface and external communication interface, wherein:

Described position positioning unit, for positioning the position of disaster relief rescue personnel;

Described intelligent terminal memory, stores the map at disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief;

Described intelligent terminal processor, for the positioning result according to position positioning unit, the map at disaster relief scene is obtained from intelligent terminal memory, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief, and according to the map at described disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief generates the virtual reality image of rescue personnel position;

Described intelligent glasses communication interface, is sent to intelligent glasses for the virtual reality image generated by described intelligent terminal processor;

Described external communication interface, for described virtual reality image being sent to floor manager terminal or backstage support terminal, to make floor manager Terminal-decision or to remind disaster relief rescue personnel.

In an embodiment of the present utility model, described intelligent glasses also comprises infrared transmitter, colour imagery shot, infrared camera, wherein:

Described infrared transmitter for generation of and launch infrared laser, the object that infrared laser is irradiated to disaster relief rescue site forms reflection;

Described infrared camera, the Infrared that the object receiving disaster relief rescue site for receiving infrared camera reflects also generates site infrare image;

Described colour imagery shot, the Infrared that the object for receiving disaster relief rescue site reflects also generates on-the-spot coloured image;

Described intelligent glasses processor, infrared image also for the coloured image that gathers described colour imagery shot and infrared camera collection carries out preliminary treatment, and the described coloured image through preliminary treatment and infrared image are sent to described intelligent terminal, also send the three-dimensional reconstruction image of returning for receiving described intelligent terminal;

Described micro projector, also for receiving the three-dimensional reconstruction image that described intelligent glasses processor sends, and projects on described intelligent glasses eyeglass by described three-dimensional reconstruction image under the control of described intelligent glasses processor;

Described intelligent glasses communication interface, also for receiving the coloured image through preliminary treatment and the infrared image of intelligent glasses transmission; And after intelligent terminal processor completes three-dimensional reconstruction, three-dimensional reconstruction image is sent it back intelligent glasses;

In described intelligent terminal, intelligent terminal processor, also obtain depth data information for extracting from the coloured image being received from intelligent glasses, and to being received from the coloured image through preliminary treatment that intelligent glasses sends and infrared image carries out fusion treatment and obtains fused images, then build the three-dimensional reconstruction image of disaster relief rescue site according to the depth data information extracted and fused images;

Described external communication interface, also for being received from infrared image and the coloured image of intelligent glasses, and the three-dimensional reconstruction image that intelligent terminal processor generates is sent to floor manager terminal, or other intelligent glasses are for display; In addition, the information of described external communication interface also for being gathered by the transducer on intelligent glasses is sent to floor manager terminal, for floor manager Terminal-decision or prompting disaster relief rescue personnel;

Described intelligent terminal memory, is also received from infrared image and the coloured image of intelligent glasses for buffer memory, and the three-dimensional reconstruction image that intelligent terminal processor generates.

In an embodiment of the present utility model, described intelligent glasses also include in following transducer one or more: for the Smoke Sensor of the smokescope information of collection site, or the temperature sensor of the temperature information for collection site, or for gathering the concentration of toxic gases transducer of concentration of toxic gases.

In an embodiment of the present utility model, described intelligent glasses also includes the infrared image that the coloured image that gathers for colour imagery shot described in buffer memory and infrared camera gather, and the intelligent glasses memory of coloured image after the preliminary treatment of described intelligent glasses processor and infrared image.

In an embodiment of the present utility model, described intelligent glasses also includes voice intercom device, form the disaster relief with the voice intercom device be arranged on command terminal to rescue individual soldier and be connected with the double-directional speech of command terminal, wherein voice intercom device comprises answering earphone and intercommunication receiver interface.

In an embodiment of the present utility model, also comprise in following transducer in described intelligent terminal one or more: electronic compass, gravity sensor, acceleration sensor, photoelectric sensor or ultrasonic distance transducer.

In an embodiment of the present utility model, be also integrated with indoor locating system in described intelligent terminal, indoor locating system is WiFi navigation system or the legendary ruler of great antiquity, the first of the Three August Ones and system.

In an embodiment of the present utility model, described position positioning unit is GPS positioning chip or Big Dipper positioning chip.

In an embodiment of the present utility model, described system also includes floor manager terminal, described floor manager terminal is used for being responsible for contacting with rescue personnel and communicating, receive video, the voice-and-data information from the intelligent terminal of rescue personnel, and according to described information, judgement decision-making is carried out to the situation at scene, and decision instruction and support data are sent to on-the-spot rescue personnel;

In an embodiment of the present utility model, described system also includes backstage and supports terminal, terminal is supported for receiving video, the voice-and-data information of intelligent terminal from rescue personnel or floor manager terminal in described backstage, and according to described information, judgement decision-making is carried out to the situation at scene, and decision instruction and support data are sent to on-the-spot rescue personnel or floor manager terminal.

In general, the above technical scheme conceived by the utility model compared with prior art, there is following beneficial effect: the utility model utilizes virtual reality technology, by positioning the position of disaster relief rescue personnel, according to positioning result, obtain the plane graph of the on-the-spot building of the map at disaster relief scene or the data message of destination object or the disaster relief, and generate the virtual reality image of rescue personnel position; The virtual reality image of generation is sent to intelligent glasses; And described virtual reality image can be sent to floor manager terminal or backstage support terminal, to make floor manager Terminal-decision or to remind disaster relief rescue personnel.The utility model utilizes augmented reality at the scene scene image basis to superpose on-the-spot map or other information, enables disaster relief rescue personnel locate the place, position at oneself place in time by visual mode, improves rescue efficiency.

Accompanying drawing explanation

Fig. 1 is a kind of disaster relief rescue visible system structural representation in the utility model embodiment;

Fig. 2 is another kind of disaster relief rescue visible system structural representation in the utility model embodiment;

Fig. 3 is the structural representation of intelligent glasses in the utility model embodiment;

Fig. 4 is the structural representation of intelligent terminal in the utility model embodiment;

Fig. 5 is the combining structure schematic diagram of intelligent glasses and intelligent terminal in the utility model embodiment;

Fig. 6 is the projection imaging schematic diagram at the intelligent glasses at maintenance of equipment scene in the utility model embodiment.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.In addition, if below in described each execution mode of the utility model involved technical characteristic do not form conflict each other and just can mutually combine.

Augmented reality is the new research direction of of growing up on virtual reality Research foundation in recent years, is also a difficult point and the hot issue of virtual reality research field.In the actual environment that augmented reality is by the virtual image of Practical computer teaching or other information is organic, the observer that in real time, is dynamically added to sees, make the technology that the actual environment around these virtual informations and user combines together.

The utility model disaster relief rescue visible system utilizes augmented reality at the scene scene image basis to superpose on-the-spot map or other information exactly, disaster relief rescue personnel is located in time and need rescue position or personnel place, improve rescue efficiency.

Be illustrated in figure 1 a kind of disaster relief rescue visible system structural representation in the utility model, comprise intelligent glasses, intelligent terminal and backstage and support terminal.Wherein, the field data that terminal is used for feeding back according to intelligent glasses and intelligent terminal is supported on backstage, and the rescue Locale information preserved in terminal is supported on backstage, formulates rescue measure and arranges rescue resource.Backstage is supported terminal and is adopted wireless mode to be connected with intelligent terminal.

Be illustrated in figure 2 another kind of disaster relief rescue visible system structural representation in the utility model, this system further comprises floor manager terminal on the disaster relief rescue visible system architecture basics of Fig. 1.Described floor manager terminal is in intelligent terminal and backstage is supported between terminal, for receiving the field data of intelligent terminal feedback, formulating rescue measure and implementing rescue action to command field rescue personnel; Or the field data that intelligent terminal feeds back is sent to backstage support terminal, supports terminal by backstage and formulate rescue measure or arrange rescue resource, and carry out disaster relief rescue command at the scene according to the rescue measure that backstage support terminal is formulated.Described floor manager terminal and intelligent terminal and backstage are supported terminal and are all adopted wireless mode to be connected.

Described intelligent terminal is used for processing by application program the result that field data obtains needs.Intelligent glasses is for showing the result of intelligent terminal.Intelligent terminal and intelligent glasses adopt wireless mode to be connected or wired mode connects.

As shown in Figure 3, be the structural representation of intelligent glasses in the utility model embodiment; Described intelligent glasses and intelligent terminal communicate to connect, and support terminal by intelligent terminal via communication and floor manager end or backstage and carry out RFDC.Described intelligent glasses receives the virtual reality image that intelligent terminal sends, and after the process of intelligent glasses processor, is projected on intelligent glasses eyeglass, superimposed by image scene and virtual reality image, formation augmented reality image.

Particularly, described intelligent glasses at least comprises intelligent glasses processor, micro projector and intelligent glasses eyeglass, wherein:

Described intelligent glasses processor, for receiving the virtual reality image that intelligent terminal sends, and is sent to described virtual reality image on micro projector.Wherein said virtual reality image can be the plane graph etc. of the on-the-spot building of the map at disaster relief scene, the data message of destination object or the disaster relief.

Described micro projector, for receiving the virtual reality image that described intelligent glasses processor sends, and projects to described virtual reality image on described intelligent glasses eyeglass under the control of described intelligent glasses processor.

Described intelligent glasses eyeglass is penetration, is superposed by the virtual reality image projected on intelligent glasses eyeglass with on-the-spot actual environment image, forms augmented reality image.

Further, in order to can site environment be seen clearly when disaster relief rescue site has dense smoke and big fire, infrared camera collection site infrared image can be passed through, and the on-the-spot coloured image of site infrare image and collection is sent to intelligent terminal carries out three-dimensional reconstruction, generate three-dimensional reconstruction image, and project on intelligent glasses eyeglass and show, thus the image of image and the disaster relief rescue site shown in intelligent glasses is coincide.Particularly, described intelligent glasses is also provided with infrared transmitter, colour imagery shot, infrared camera, wherein, described Infrared laser emission device is for launching infrared laser, the object that infrared laser is irradiated to disaster relief rescue site forms reflection, the signal that the object that infrared camera receives disaster relief rescue site reflects, and deliver to intelligent terminal and process, intelligent terminal generates three-dimensional reconstruction image according to the signal reconstruction received, three-dimensional reconstruction image is transferred to and intelligent glasses projects to intelligent glasses eyeglass through micro projector shows from intelligent terminal, thus the image of image and the disaster relief rescue site shown in intelligent glasses is coincide.

Described infrared transmitter for generation of and launch infrared laser, the object that infrared laser is irradiated to disaster relief rescue site forms reflection;

Described infrared camera, the Infrared that the object receiving disaster relief rescue site for receiving infrared camera reflects also generates site infrare image;

Described colour imagery shot, the Infrared that the object for receiving disaster relief rescue site reflects also generates on-the-spot coloured image;

Described intelligent glasses processor, infrared image also for the coloured image that gathers described colour imagery shot and infrared camera collection carries out preliminary treatment, particularly, described preliminary treatment can be noise reduction, filtering or enhancing process, and the process that other needs carry out.And for the described coloured image through preliminary treatment and infrared image are sent to described intelligent terminal, also send the three-dimensional reconstruction image of returning for receiving described intelligent terminal;

Described micro projector, also for receiving the three-dimensional reconstruction image that described intelligent glasses processor sends, and projects to described three-dimensional reconstruction image on described intelligent glasses eyeglass under the control of described intelligent glasses processor.

Further, described intelligent glasses also includes memory, the infrared image that the coloured image gathered for colour imagery shot described in buffer memory and infrared camera gather, and coloured image after the preliminary treatment of described intelligent glasses processor and infrared image.

Further, described intelligent glasses also includes multiple sensors, such as the Smoke Sensor of the smokescope information of collection site, or the temperature sensor of temperature information for collection site, or for gathering the concentration of toxic gases transducer of concentration of toxic gases.Certainly other types transducer can also be equipped with according to actual needs.

Further, described intelligent glasses also includes voice intercom device, is arranged in intelligent glasses and floor manager terminal.Thus formation disaster relief rescue individual soldier is connected with the double-directional speech of floor manager terminal.Voice intercom device comprises answering earphone and intercommunication receiver interface.

Further, described intelligent glasses also includes battery, and described battery is used for powering to each parts of other in described intelligent glasses.

As shown in Figure 4, for the electrical block diagram of intelligent terminal in the utility model embodiment, described intelligent terminal at least comprises position positioning unit, such as GPS positioning chip or Big Dipper positioning chip, and intelligent terminal memory, store various APP, various sensor application, and map denotation application, to provide effective map display function when the disaster relief is rescued, and transducer is utilized to gather various field data information; In addition, described intelligent terminal memory can also store map datum, constructure inner structure diagram data etc., constructure inner structure figure is generated according to described map datum and constructure inner structure diagram data to make intelligent terminal, be convenient to disaster relief rescue personnel and have a clear understanding of constructure inner structure and topographic features in disaster relief rescue operations, formulate rational disaster relief rescue method.

Particularly, described intelligent terminal at least comprises position positioning unit, intelligent terminal memory, intelligent terminal processor, intelligent glasses communication interface and external communication interface, wherein:

Described position positioning unit, for positioning the position of disaster relief rescue personnel, such as GPS positioning chip or Big Dipper positioning chip.

Described intelligent terminal memory, stores the data messages such as the plane graph of the on-the-spot building of the map at disaster relief scene, the data message of destination object or the disaster relief, generates the virtual reality image at disaster relief scene to make intelligent terminal according to described data message;

Described intelligent terminal processor, for the positioning result according to position positioning unit, the map at disaster relief scene is obtained from intelligent terminal memory, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief, and according to the map at described disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief generates the virtual reality image of rescue personnel position;

Described intelligent glasses communication interface, is sent to intelligent glasses for the virtual reality image generated by described intelligent terminal processor;

Described external communication interface, for described virtual reality image being sent to floor manager terminal or backstage support terminal, to make floor manager Terminal-decision or to remind disaster relief rescue personnel.

Further, in order to can site environment be seen clearly when disaster relief rescue site has dense smoke and big fire, can by being passed through the infrared image after preliminary treatment and the coloured image of the transmission of intelligent glasses interface intelligent glasses by intelligent terminal, three-dimensional image reconstruction is carried out according to described infrared image and coloured image by intelligent terminal processor, thus generation three-dimensional reconstruction image, the three-dimensional reconstruction image generated is shown to described intelligent glasses by intelligent glasses communications interface transmission, and be transferred to floor manager terminal by external communication interface simultaneously and show, thus the image of image and the disaster relief rescue site shown in intelligent glasses is coincide.Wherein:

Described intelligent glasses communication interface, also for receiving the coloured image through preliminary treatment and the infrared image of intelligent glasses transmission; And after intelligent terminal processor completes three-dimensional reconstruction, three-dimensional reconstruction image is sent it back intelligent glasses;

Intelligent terminal processor, also obtain depth data information for extracting from the coloured image being received from intelligent glasses, and to being received from the coloured image through preliminary treatment that intelligent glasses sends and infrared image carries out fusion treatment and obtains fused images, then build the three-dimensional reconstruction image of disaster relief rescue site according to the depth data information extracted and fused images;

Described external communication interface, also for being received from infrared image and the coloured image of intelligent glasses, and the three-dimensional reconstruction image that intelligent terminal processor generates is sent to floor manager terminal, or other intelligent glasses are for display; In addition, the information of described external communication interface also for being gathered by the transducer on intelligent glasses is sent to floor manager terminal, for floor manager Terminal-decision or prompting disaster relief rescue personnel;

Described intelligent terminal memory, is also received from infrared image and the coloured image of intelligent glasses for buffer memory, and the three-dimensional reconstruction image that intelligent terminal processor generates.

Further, also comprise in electronic compass, gravity sensor, acceleration sensor, photoelectric sensor, ultrasonic distance sensor transducer in described intelligent terminal one or more.

Further, in described intelligent terminal, be also integrated with indoor locating system, indoor locating system can be WiFi navigation system or the legendary ruler of great antiquity, the first of the Three August Ones and system etc.

Further, described intelligent terminal also includes short-range communication unit, and short-range communication unit can be WiFi, Bluetooth, or intercom.

Concrete described intelligent terminal can be special intelligent terminal, also can use IPad and the such terminal of smart mobile phone.The effect of intelligent terminal is the information at process scene, such as locating information, on-the-spot cartographic information etc.In fire-fighting environment, the plane graph of the building at intelligent terminal process scene, and be presented on intelligent glasses.Meanwhile, in fire-fighting scene, also floor manager terminal to be treated that the information displaying of rescue personnel is on intelligent glasses, facilitate rescue personnel to implement rescue.Intelligent terminal also will be responsible for communicating with on-the-spot floor manager terminal, and the mode of communication is communication.Content of Communication comprises image, voice-and-data.

In order to be applicable to various environment, the application on intelligent terminal adopts the mode of APP usually.Different applied environments, uses different APP.These APP are application APP of some specialties.Such as on-the-spot in fire-fighting, just use the APP of fire-fighting.At the on-the-spot APP just using antidetonation of antidetonation.In maintenance sites, with regard to the APP etc. of use and maintenance.Adopt the pattern of APP to be conducive to third party and can develop the more application being applicable to site environment, the promotion and application of system of the present utility model can be promoted.

In the utility model embodiment, intelligent glasses can be monocular, also can be binocular.Intelligent glasses should be penetration, and like this, combine with technique together the result of intelligent terminal and on-the-spot actual environment can be passed through augmented reality (Augmented Reality, AR).The connection of intelligent glasses and intelligent terminal adopts wired mode or wireless mode to connect, such as WiFi, Bluetooth etc.

In some environments for use, such as, in the environment for use of fire-fighting, intelligent glasses can be combined with the helmet, and such as, shown in Fig. 5, intelligent glasses is connected by wired mode with intelligent terminal, and intelligent glasses is integrated on the helmet.

In order to be applicable to various environment, the application on intelligent terminal adopts the mode of APP usually.Different applied environments, uses different APP.These APP are application APP of some specialties.Such as at the on-the-spot APP just using fire-fighting of fire-fighting; At the on-the-spot APP just using antidetonation of antidetonation; At the APP etc. of maintenance sites with regard to use and maintenance.Adopt the pattern of APP to be conducive to third party and can develop the more application being applicable to site environment, system of the present utility model and application can be promoted.

Floor manager terminal is a system centered by computer, is responsible for contacting with rescue personnel and communicating.Receive video, the voice-and-data information from the intelligent terminal of rescue personnel, understand on-the-spot actual conditions, the situation at scene is judged, is convenient to make effective commander.Instruction and support data are sent to on-the-spot rescue personnel simultaneously.

Floor manager terminal can also be supported terminal with backstage and be communicated, and the actual conditions at scene is sent to backstage to support terminal in time.Meanwhile, the information obtaining on-the-spot needs and data, such as on-the-spot map etc. are supported terminal from backstage.In the environment of fire-fighting, obtain the information such as the plane graph of building.

It is a system centered by computer that terminal is supported on backstage.Receive from the intelligent terminal of rescue personnel or video, the voice-and-data information of floor manager terminal, understand on-the-spot actual conditions, the form at scene is judged, is convenient to make effective commander.Instruction and support data are sent to on-the-spot rescue personnel or floor manager terminal simultaneously.

Backstage is supported terminal and is also responsible for providing required information to rescue personnel or floor manager terminal, and such as the on-the-spot map needed, treats the information such as the position of rescue personnel.In the environment of fire-fighting, be responsible for the information such as the plane graph that building is provided.Meanwhile, in different applied environments, also to provide special APP to rescue personnel or floor manager terminal, make the efficiency of rescue personnel or floor manager terminal higher.

The APP that terminal is supported on backstage can be from third-party APP.The information such as the map needed, the plane graph etc. such as built, can make from third-party.This opening system structure, is conducive to driving third-party enthusiasm, thus whole industry is rapidly developed.

The utility model utilizes virtual reality technology, by location, position is single, the position of disaster relief rescue personnel is positioned, according to the positioning result of position positioning unit, obtain the map at disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief, and generate the virtual reality image of rescue personnel position; The virtual reality image of generation is sent to intelligent glasses; And described virtual reality image can be sent to floor manager terminal or backstage support terminal, to make floor manager Terminal-decision or to remind disaster relief rescue personnel.The utility model utilizes augmented reality at the scene scene image basis to superpose on-the-spot map or other information, enables disaster relief rescue personnel locate the place, position at oneself place in time by visual mode, improves rescue efficiency.

The utility model adopts active infrared three-dimensional reconstruction image to compare with general thermal imaging, can provide image scene more clearly.Meanwhile, active infrared three-dimensional reconstruction image adopts launches the mode of infrared laser, can the distance of detecting object, and Formation Depth information, builds 3-D view, instead of the two dimensional image of thermal imaging.The image that active infrared three-dimensional reconstruction image is formed can match with the actual environment at scene, is consistent with fire control and disaster rescue individual soldier vision at ordinary times, enables the actual conditions at fire control and disaster rescue individual soldier more accurate assurance scene.

The utility model adopts active infrared three-dimensional reconstruction image to compare with general thermal imaging, cost only has part, is convenient to promote on a large scale.

The utility model adopts active infrared three-dimensional reconstruction image to compare with general thermal imaging, lightweight, be convenient for carrying, and may be used for the various disaster relief scenes such as cold district.

The utility model adopts the sign information of various sensing technology to fire control and disaster rescue individual soldier to gather constantly, and is sent to floor manager terminal by channel timely and effectively, for ensureing that the life of fireman provides effective guarantee.

The application scenarios of the utility model disaster relief rescue visible system is described with specific embodiment below:

Embodiment one, fire-fighting field rescue

By the plane graph of building and treat that the information displaying of rescue personnel is on intelligent glasses, facilitates rescue personnel to position, Rapid Implementation is rescued.All dense smoke at fire-fighting scene, when human eye vision cannot be observed, by AR and virtual reality (Virtual Reality, VR) technology, actual, almost consistent with a site environment on-the-spot visual pattern can be reproduced on intelligent glasses, make rescue personnel feel reality, move in the scene that do not have dense smoke, thus reach and implement effective rescue.

When rescue personnel arrives the scene of a fire, APP just can pass through phonetic order instruction immediately for rescue personnel provides scene of fire plane graph, searches and rescues position, rescue personnel can also be helped to find nearest fire hydrant to find out emphasis.

The location of rescue personnel in building, adopt WiFi location or the legendary ruler of great antiquity, the first of the Three August Ones and navigation system, positioning precision can reach 2 meters.By the mode of target lock-on, make rescue personnel when movement and head rotation, the virtual field seen is almost consistent with actual scene.Like this, rescue personnel just can find the position of door, stair etc. easily, makes rescue convenient and effective.

Intelligent glasses shows on-the-spot cartographic information, and shows the position of rescue personnel on map, be convenient to rescue personnel and understand site contour distribution, arrive emergency place in time, implement rescue action.

Embodiment two, target lock-on

In Defences field, visual natural environment combine with not visible data message soldier can be helped better to carry out weapon operation, take action supervise, logistic support, military exercise etc.The intelligent glasses of built-in gyroscope, accelerometer, magnetic compass, support head motion tracking and hands-free navigation, carrys out lock onto target by AR technology.When head rotation, the position of target remains on the position of visual field scene.

Embodiment three, complex mechanical equipment keeps in repair

In industrial products production and maintenance process, particularly to the assembling of large complicated machinery, maintenance and maintenance, technical staff can by wear intelligent glasses of the present utility model see overlap in a large number mechanically annotation explain, figure and word, thus clearly obtaining information intuitively, to simplify engineering difficulty, increase work efficiency and difficulty action accomplishment.

Embodiment four, remote guide communication equipment keeps in repair

Maintenance of equipment system can cover a lot of aspects of augmented reality as an auxiliary operation system, comprise guidance information, Images uniting, operator's operation and mode of operation and detect 4 aspects, various aspects cooperatively interact, and form a complete Maintenance Guide system.

As shown in Figure 6, operating maintenance process is made up of according to the order that operating procedure specifies sequence of operations behavior.Operating personnel implement once-through operation behavior according to operating procedure, the special color on the equipment of operated object is caused to identify the change changing and then got by camera this colour code information, then computer carries out mode of operation detection judgement by existing program, send next step operational order according to testing result simultaneously, instruct the maintenance operation of operator's finishing equipment, this process is once complete operation, then circulates until operation terminates successively.

Embodiment five, complex communication equipment is installed

In the process of carrying out the installation of complex communication equipment, the prompting that engineering staff is shown by intelligent glasses is installed by flow process.

Those skilled in the art will readily understand; the foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection range of the present utility model.

Claims (10)

1. a disaster relief rescue visible system, it is characterized in that, described system comprises intelligent glasses and intelligent terminal, wherein:

Described intelligent glasses comprises intelligent glasses processor, micro projector, battery and intelligent glasses eyeglass, wherein:

Described intelligent glasses processor, for receiving the virtual reality image that intelligent terminal sends, and is sent on micro projector by described virtual reality image; Wherein said virtual reality image is the map at disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief;

Described micro projector, for receiving the virtual reality image that described intelligent glasses processor sends, and projects on described intelligent glasses eyeglass by described virtual reality image under the control of described intelligent glasses processor;

Described intelligent glasses eyeglass is penetration, for being superposed with on-the-spot actual environment image by the virtual reality image projected on intelligent glasses eyeglass, forms augmented reality image;

Described battery is used for powering to each parts of other in described intelligent glasses;

Described intelligent terminal comprises position positioning unit, intelligent terminal memory, intelligent terminal processor, intelligent glasses communication interface and external communication interface, wherein:

Described position positioning unit, for positioning the position of disaster relief rescue personnel;

Described intelligent terminal memory, stores the map at disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief;

Described intelligent terminal processor, for the positioning result according to position positioning unit, the map at disaster relief scene is obtained from intelligent terminal memory, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief, and according to the map at described disaster relief scene, or the data message of destination object, or the plane graph of the on-the-spot building of the disaster relief generates the virtual reality image of rescue personnel position;

Described intelligent glasses communication interface, is sent to intelligent glasses for the virtual reality image generated by described intelligent terminal processor;

Described external communication interface, for described virtual reality image being sent to floor manager terminal or backstage support terminal, to make floor manager Terminal-decision or to remind disaster relief rescue personnel.

2. disaster relief rescue visible system as claimed in claim 1, is characterized in that, in described intelligent glasses, also comprise infrared transmitter, colour imagery shot, infrared camera, wherein:

Described infrared transmitter for generation of and launch infrared laser, the object that infrared laser is irradiated to disaster relief rescue site forms reflection;

Described infrared camera, the Infrared that the object receiving disaster relief rescue site for receiving infrared camera reflects also generates site infrare image;

Described colour imagery shot, the Infrared that the object for receiving disaster relief rescue site reflects also generates on-the-spot coloured image;

Described intelligent glasses processor, infrared image also for the coloured image that gathers described colour imagery shot and infrared camera collection carries out preliminary treatment, and the described coloured image through preliminary treatment and infrared image are sent to described intelligent terminal, also send the three-dimensional reconstruction image of returning for receiving described intelligent terminal;

Described micro projector, also for receiving the three-dimensional reconstruction image that described intelligent glasses processor sends, and projects on described intelligent glasses eyeglass by described three-dimensional reconstruction image under the control of described intelligent glasses processor;

Described intelligent glasses communication interface, also for receiving the coloured image through preliminary treatment and the infrared image of intelligent glasses transmission; And after intelligent terminal processor completes three-dimensional reconstruction, three-dimensional reconstruction image is sent it back intelligent glasses;

In described intelligent terminal, described intelligent terminal processor, also obtain depth data information for extracting from the coloured image being received from intelligent glasses, and to being received from the coloured image through preliminary treatment that intelligent glasses sends and infrared image carries out fusion treatment and obtains fused images, then build the three-dimensional reconstruction image of disaster relief rescue site according to the depth data information extracted and fused images;

Described external communication interface, also for being received from infrared image and the coloured image of intelligent glasses, and the three-dimensional reconstruction image that intelligent terminal processor generates is sent to floor manager terminal, or other intelligent glasses are for display; In addition, the information of described external communication interface also for being gathered by the transducer on intelligent glasses is sent to floor manager terminal, for floor manager Terminal-decision or prompting disaster relief rescue personnel;

Described intelligent terminal memory, is also received from infrared image and the coloured image of intelligent glasses for buffer memory, and the three-dimensional reconstruction image that intelligent terminal processor generates.

3. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, described intelligent glasses also include in following transducer one or more: for the Smoke Sensor of the smokescope information of collection site, or the temperature sensor of the temperature information for collection site, or for gathering the concentration of toxic gases transducer of concentration of toxic gases.

4. disaster relief rescue visible system as claimed in claim 2, it is characterized in that, described intelligent glasses also includes the infrared image that the coloured image that gathers for colour imagery shot described in buffer memory and infrared camera gather, and the intelligent glasses memory of coloured image after the preliminary treatment of described intelligent glasses processor and infrared image.

5. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, described intelligent glasses also includes voice intercom device, form the disaster relief with the voice intercom device be arranged on command terminal to rescue individual soldier and be connected with the double-directional speech of command terminal, wherein voice intercom device comprises answering earphone and intercommunication receiver interface.

6. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, also comprise in following transducer in described intelligent terminal one or more: electronic compass, gravity sensor, acceleration sensor, photoelectric sensor or ultrasonic distance transducer.

7. disaster relief rescue visible system as claimed in claim 1 or 2, is characterized in that, be also integrated with indoor locating system in described intelligent terminal, and indoor locating system is WiFi navigation system or the legendary ruler of great antiquity, the first of the Three August Ones and system.

8. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, described position positioning unit is GPS positioning chip or Big Dipper positioning chip.

9. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, described system also includes floor manager terminal, described floor manager terminal is used for being responsible for contacting with rescue personnel and communicating, receive video, the voice-and-data information from the intelligent terminal of rescue personnel, and according to described information, judgement decision-making is carried out to the situation at scene, and decision instruction and support data are sent to on-the-spot rescue personnel.

10. disaster relief rescue visible system as claimed in claim 1 or 2, it is characterized in that, described system also includes backstage and supports terminal, terminal is supported for receiving video, the voice-and-data information of intelligent terminal from rescue personnel or floor manager terminal in described backstage, and according to described information, judgement decision-making is carried out to the situation at scene, and decision instruction and support data are sent to on-the-spot rescue personnel or floor manager terminal.