• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a safety device (1) for the human head, comprising a protective helmet (2) with a helmet shell (3), an image acquisition system (4) with a first image acquisition unit (5) and a display unit (10). The first image acquisition unit (5) has a first receiving housing (6), a first image sensor (7) recorded therein, a control unit (8), an electrical energy source (9) and a wireless communication interface (12). The display unit (10) is in communication with the control unit (8) and forms together with this a related construction module. The display unit (10) is held at a distance therefrom by means of a semi-rigid, flexible connecting element (11) on the first image acquisition unit (5). The first image acquisition unit (5) is held interchangeably with its first receiving housing (6) in a coupling receptacle (13) formed recessed in the helmet shell (3). Furthermore, the invention also relates to a Einsatzunterstützungsverfahren using such safety equipment (1).
    公开号:AT517332A4
    申请号:T50455/2015
    申请日:2015-06-03
    公开日:2017-01-15
    发明作者:Hartinger Thomas;Ing Thomas Pfatschbacher Dipl;Ing Peter Staudinger Dipl
    申请人:Rosenbauer Int Ag;
    IPC主号:
    专利说明:

    The invention relates to a safety equipment for the human head, in particular for a person in the fire service, rescue operation, labor input, as described in the preamble of claim 1.
    US 2010/0001187 A1 describes a safety equipment for the human head, in particular for a person in the fire service, rescue operation, labor input. This comprises a protective helmet with a helmet shell and with a support structure held thereon for receiving the human head. A base housing of the image acquisition unit is attached to the front shield of the helmet. A separate camera body with the image sensor is laterally mounted on the base housing pivotally thereto. In the base housing, a control unit, an electrical power source and a wireless communication interface is included. A display unit is mounted pivotably about a pivot axis on the base housing and communicates with the control unit for the display in communication. The disadvantage here is the top-heavy arrangement and the front projection on the helmet edge addition.
    EP 2 848 138 A1 describes a protective helmet with an additional device, which reliably dissipates the waste heat when using the LED illumination and thus protects it against overheating and thus also extends the service life. Furthermore, a communication device based on a Bluetooth connection is provided, by means of which in the event of an accident the user can request this assistance. By means of a camera image information can be captured and stored in a memory unit. It may also be provided a radio receiver and a GPS module to receive the corresponding signals. By means of a sensor can be further determined whether the helmet is in use Or not and thus the control device interrupts the communication link. The disadvantage here is that an additional communication means is required for the information and data connection over greater distances.
    Other protective helmets with a thermographic image capture device have become known from US 7,369,174 B1 and DE 196 50 442 A1. These are designed such that the image information captured by the image capture device is displayed directly on an associated display device for the user of the protective helmet.
    The present invention has for its object to provide a compact and autonomous safety equipment for the human head of a person, in which the first image acquisition unit without a large projection on the helmet shell can be arranged and easily exchangeable held on the helmet.
    This object of the invention is achieved in that the first image sensor is likewise accommodated in the first receiving housing and the display unit is held by a semi-rigid, flexible connecting element at the first image acquisition unit, in particular at its first receiving housing, distanced from it and that the first image acquisition unit her first Aufnahmege-housing in a trained deepened in the helmet shell coupling receptacle is kept changeable.
    The advantage achieved by this is that by providing a dedicated, deepened coupling receptacle in the helmet shell, the possibility is created to optionally arrange a plurality of different auxiliary objects on the protective helmet and, depending on the application, be able to easily exchange them against each other. Through the recessed recording of the Clberstand the first image capture unit can be reduced via the helmet shell and reduced the experienced moment on the head of the user. Furthermore, it can also be used to create a related structural unit which can be easily arranged on the protective helmet, in particular the helmet shell and held there. In addition, image information captured directly by the first image acquisition unit can thus be forwarded to the display unit via a short path and displayed there in a corresponding manner. By directly arranging a wireless communication interface as an integral part of the first image capture unit, a mutual transmission of deployment information and / or data is thus made possible over further distances. Thus, it is possible for the person wearing the safety device without additional aids to be able to build up a communication connection with an application counterpart or control center already after setting up the security equipment, in particular the protective helmet. As a result of the fact that the wireless communication interface also makes it possible to exchange data and to forward deployment information over longer distances, no additional transmitting and receiving device needs to be carried by the person in the field. By providing a standardized communication interface not only a voice connection can be established, but also image information and / or other data can be easily and quickly forwarded and also exchanged.
    A further embodiment provides that the coupling receptacle is arranged in an upper end region of the helmet shell as well as centrally with respect to bilateral temples. By this arrangement, the person in action on the display device, a similar image detail can be displayed, which corresponds approximately to the own field of vision or perspective.
    Another embodiment is characterized in that the first image acquisition unit further comprises a global positioning device, which global positioning device is accommodated in the first housing. In this way, in the case of an established communication link, the other party can easily and quickly ascertain the current location of the person in use. In addition, it would also be possible to transfer the current location into a building plan or a town plan and present it there.
    A further preferred embodiment is characterized in that the global positioning device is in communication communication with the control unit of the first image acquisition unit. In this way, operations and the people in action can be better coordinated and, if necessary, faster informed of any dangers in their immediate vicinity.
    Another embodiment is characterized in that the first image acquisition unit further comprises at least one temperature sensor, which communicates with the control unit of the first image acquisition unit in communication. By providing at least one temperature sensor, the temperature prevailing in the immediate surrounding area of the operator can thus be determined and these can be in-formed in a corresponding manner either directly or indirectly. This can be found to high temperature loads and the duration of use of the person are determined in a corresponding manner.
    A further possible embodiment has the features that the temperature sensor is arranged on or in the first image acquisition unit, in particular on its first receiving housing. This can be done on kiirzestem ways a data forwarding to the control unit and from this to the display unit and / or wireless communication interface.
    A further embodiment provides that the temperature sensor is arranged on the Oder in the display unit. This makes it possible to determine the temperature even at a certain distance in front of the face of the wearer of the safety equipment.
    Another embodiment is characterized in that the image acquisition system comprises at least one further image acquisition unit with at least one further image sensor. By providing a further image acquisition unit, an even better and more comprehensive information can be provided in the case of use, either directly to the person in the field and / or to the employment site in communication therewith.
    A further preferred embodiment is characterized in that the further image sensor of the further image acquisition unit has an image acquisition region, which image acquisition region is aligned in the opposite direction with respect to that image acquisition region of the first image sensor of the first image acquisition unit. In this way, the situation around the person in action can be recorded even better and, if there is danger, can be informed more quickly in case of imminent danger. Thus, the safety for the person using can be further increased.
    Furthermore, it is advantageous if the further image acquisition unit is preferably removably held on the helmet shell. Thus, in turn, a compact mission unit can be created as a safety equipment, which considered by itself, is fully operational.
    Another embodiment is characterized in that the further image acquisition unit, in particular its further image sensor, is in communication communication with the control unit of the first image acquisition unit. This enables even more comprehensive recording and deployment steering.
    A further possible embodiment has the features that the display unit is designed to display at least one deployment information, the deployment information being selected from the group of images of the first imaging unit, positional representation of the global positioning device, display of the ambient temperature detected by the temperature sensor, images the second image acquisition unit, a building plan or a location plan, which is transmitted by the mission opposite, of a travel route transmitted by the mission agency. By the most diverse possible display information, the person in use can, depending on the selection and / or communication connection, be provided with the set-up information that is currently required for them and displayed in a corresponding manner.
    However, it is also advantageous if the display unit and / or the first image acquisition unit is provided with an insert information selection module which has selection means with which the display of the insert information on the display unit can be selected by the user. So can already before the
    Start of use Or even during use selectively the number of wished insert information and / or the arrangement thereof are set on the display unit. This makes it possible to respond quickly to changing requirements in the field of application and to adapt it directly on site.
    However, the invention also relates to a Einsatzunterstützungsverfahren for use forces, in particular for a person in the fire brigade, rescue operation, work use, which person is equipped with such a security Ausm-tet or carries this, as described in claim 14. In this case, it is provided that the first image acquisition unit of the image acquisition system and the display unit are activated, and that an image of the application area captured by the first image sensor is prepared by the control unit and displayed on the display unit, and that after triggering a connection request from the control unit by means of the wireless communication interface is established a voice and / or data communication connection with the remote site.
    It is advantageous in this way that a self-sufficient safety feature can be created without further additional communication aids, which is easy to operate in the application. The elimination of additional communication aids, such as for example mobile phones, can thus prevent their damage during the operation and still create a perfect communication link over greater distances.
    A further procedure envisages that the connection request is triggered by the remote unit. This makes it possible in the case of application that the person carrying the security must himself carry out no activities for the establishment of the communication link, and therefore can concentrate directly on the operation.
    Also advantageous is a variant of the method in which the image acquired by the first image acquisition unit is sent to the computer via the data communication connection
    Is transmitted to the remote unit and / or is transmitted from the opposite side use information to the control unit and, if necessary, this is presented under treatment on the display unit. This allows a simple, mutual data forwarding in case of application. As a result of the previously established voice and / or data communication connection, a direct transmission to and / or from the person in use to the control center can take place.
    Finally, another approach is characterized in that the image acquisition unit of the image acquisition system transmits an image of the rear area detected by the further image sensor to the control unit of the first image acquisition unit, is prepared by the control unit and displayed and / or displayed on the display unit the opposite unit is transferred. By providing a further image sensor, an even more comprehensive detection of the surrounding area of the person in use can take place. In order for their security can be additionally increased, where-also the possibility exists that the Clberwachung the detected by the other image sensor incident takes place by a person independent of the use person and distanced person and this in turn can concentrate only on the operation.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in a highly simplified, schematic representation:
    Fig. 1 shows a safety equipment according to the invention in side view.
    By way of introduction, it should be noted that in the embodiments described differently, identical parts are provided with the same reference numerals or the same component designations, wherein the disclosures contained in the overall description can be applied mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as up, down, laterally, etc. related to the immediately described and illustrated figure and these La-geangaben in a change in position mutatis mutandis transferred to the new location.
    The term "in particular" is understood below to mean that it may be a more specific training or specification of a subject matter or a process step, but not necessarily a mandatory, preferred embodiment thereof or a procedure.
    In Fig. 1 shows a simplified safety equipment 1 for the human head, which in particular for a person in the fire service, rescue-deployment, labor or the like is used. The safety equipment 1 usually comprises a plurality of components, which are described below. It is essential that the individual components described below form a coherent, autonomously usable unit, by means of which the person wearing this safety equipment 1 not only in poor visibility conditions, such as in case of fire, in darkness or other adverse environmental conditions supplied with directly captured image information, but also over longer distances or distances a mutual information and / or data exchange with at least one deployment site and / or remote site is possible, in particular a voice and / or data communication.
    In the present embodiment, the safety equipment 1 shown here comprises a protective helmet 2 with a flange shell 3. In the flange shell 3, a support structure held thereon-which is not shown in more detail-can serve for receiving the human head and supporting the flange shell 3 on the head , The support structure is usually arranged at a distance from the inside of the flange shell 3 and thus not only ensures ventilation, but also sufficient distancing for possible impact and / or impact loads.
    Furthermore, the safety equipment 1 also comprises an image acquisition system 4, which in turn may comprise a plurality of components or individual components.
    Thus, a first image acquisition unit 5 is provided here, which has a first receiving housing 6 for receiving further component components. At least one first image sensor 7, which serves to detect and record the surroundings in front of the image sensor 7, is arranged in the housing 6 of the first image acquisition unit 5. The first image sensor 7 is simplified in dashed lines within the first receiving housing 6 indicated. This can be accommodated in a fixed location in the receiving housing 6 and held it.
    Furthermore, within the first receiving housing 6, it is shown in a simplified manner that the first image acquisition unit 5 can also comprise a control unit 8. In order to be able to supply the first image sensor 7, the control unit 8 as well as further components described below with electrical energy, it is further provided in this compact design that the first image detection unit 5 further comprises an electrical energy source 9, which likewise preferably lies within the receptacle housing 6 is included.
    Furthermore, the safety equipment 1 also comprises a display unit 10, which communicates with the control unit 8 of the first image acquisition unit 5 in communication connection. In the present exemplary embodiment, the first image acquisition unit 5 and the display unit 10 form a related construction module. For this purpose, in the present exemplary embodiment, the display unit 10 is held at a distance from it by means of a semi-rigid, flexibly formed connecting element 11 on the first image acquisition unit 5, in particular on its first receiving housing 6.
    By providing the display unit 10 in combination with the first image capture unit 5, the image information captured by the first image sensor 7 can thus be displayed, for the most part, with the interposition of the control unit 8 on the display unit 10 or by the display unit 10. Thus, it would be possible, for example, to equip the display unit 10 with a screen, for example a color display. The size of the screen may be, for example, between 2 inches and 4 inches, preferably 2.4 inches. This screen or the display can further preferably be designed to be suitable for daylighting, with the display of the image information optionally being able to take place in color or grayscale. The brightness and the contrast are usually preset, whereby a subsequent change of the display parameters is possible. The screen size and thus the available display area can be a aspect ratio of width to height of 4: 3.
    The person carrying the security feature 1 can optionally select the display on the display unit 10 so as to have the information important to him depending on the application. But it could also be a multiple display of different information next to each other and / or one above the other. A blending or overlaying of at least two image information would also be conceivable. For this preselection or presetting of the desired number and / or arrangement of the detected or transmitted insertion information on the display unit 10, the display unit 10 and / or the first image acquisition unit 5 can be provided with an insert information selection module. The insert information selection module in turn has selection means with which the display of the insert information on the display unit 10 can be selected by the user.
    Furthermore, the first image acquisition unit 5 shown here comprises a wireless communication interface 12, which is used for direct communication with at least one emergency counterpart, not shown here. For this purpose, the wireless communication interface 12 may be in communication with an antenna not shown in detail in order to be able to carry out a connection setup for the wireless information forwarding and / or the data exchange with the at least one emergency remote site. The wireless communication interface 12 is preferably further designed for communication in a mobile radio network based on the standard selected from the group of UMTS, GSM, CDMA2000, HSDPA. The abbreviation "GSM" stands for "Global System for Mobile Communications" and can cover a wide variety of mobile networks. These mobile networks can either be based on analog systems and / or digital systems. In particular, 3G and 4G as well as all further developments of this are understood. Thus, the necessary for the use SIM card can also be part of the communication interface 12.
    As a result of the integrated arrangement of the wireless communication interface 12 directly in the first image acquisition unit 5, additional communication means, such as e.g. Bluetooth, be waived. Thus, the safety equipment 1, comprising the protective helmet 2, the image acquisition system 4 and the display unit 10 serves as sole autonomous equipment, with which even over greater distances a communication and mutual data exchange both between the safety equipment 1 and the at least one Einsatzgegenstelle as well as between the remote unit and the safety equipment 1 is made possible.
    On the helmet shell 3, preferably in the helmet shell 3, on the outside, a coupling receptacle 13 may be arranged or formed, on which the first image capture unit 5 is kept interchangeable with its first receiving housing 6. The coupling receptacle 13 is preferably recessed formed as a recess and may further be formed such that not only the first image capture unit 5 can be taken with its first receiving housing 6 therein and held during use, but also other attachments, such as bulbs, signalers, sensors Or even only one of the coupling receptacle 13 occlusive cap be held on it. This makes it possible to quickly adapt the safety equipment 1 to a wide variety of operating conditions, with only the appropriate An-module, such as the first image acquisition unit 5, the bulb or the signal transmitter must be attached to the helmet shell 3.
    Preferably, the coupling receptacle 13 is arranged in an upper end region of the helmet shell 3 as well as centrally with respect to bilateral temporal regions thereof. As a result of this arrangement, the person using the security equipment 1 can record image information corresponding to the own viewing angle or field of vision from the first image sensor 7 and display or display it on the display unit 10.
    In addition, it is still possible that the first image acquisition unit 5 may also include a global positioning device 14, which may also be referred to as Global Positioning System (GPS). The global position determination device 14 is preferably also accommodated in the first receiving housing 6. Furthermore, this may also be in communication with the control unit 8 of the first image capture unit 5.
    For detecting the current ambient temperature in the area of the security equipment 1, the first image capture unit 5 can also comprise at least one temperature sensor 15. The temperature sensor 15 may in turn also be in communication with the control unit 8 of the first image acquisition unit 5. This makes it possible to determine the current ambient temperature in the vicinity of the person carrying the safety equipment 1 and to display it by means of the control unit 8 on the display unit 10 as information for the person in use.
    The above-described temperature sensor 15 can be arranged, for example, on or in the first image acquisition unit 5, in particular on its first receiving housing 6. Irrespective of this, however, it would also be possible for the temperature sensor 15 to be arranged on the Oder in the display unit 10. However, it would also be possible to provide a plurality of such temperature sensors 15 and to provide them both on the Oder in the first receiving housing 6 and on the Oder in the display unit 10. Regardless, it would also be possible that the detection of the temperature by means of the image sensor 7 takes place.
    The first image sensor 7 can be formed in particular as a thermographic image sensor. This can have a resolution of 384 x 288 pixels at a frame rate of 9/25 Hz. The recorded temperature range can be between -40 ° C and + 1,200 ° C. The optics may e.g. through a wide-angle with a focal length of 8.5mm. However, it would also be possible to use any other image sensors, e.g. use a CCD sensor, CMOS sensor, a nanosensor or image sensors for other spectral ranges, to record the operation.
    All electrical component components described above may be in direct communication with the control unit 8 and / or line connection. The supply of electrical energy can for example be done directly from the electric power source 9 and / or also via the control unit 8.
    Furthermore, it is shown here that the image acquisition system 4 can encompass at least one further image acquisition unit 16 with at least one further image sensor 17. The further image acquisition unit 16 may in turn comprise a further receiving housing 18, in which the further image sensor 17 is angeord-net or recorded. The further receiving housing 18 may in turn be connected via a coupling device, not shown, with the helmet shell 3, in particular removably held thereto. The supply of electrical energy can either take place from the previously described, first electric energy source 9 or else a further, additional electrical energy source 19 can be provided in the further receiving housing 18. The further image acquisition unit 16, in particular the further image sensor 17, can be in communication communication with the control unit 8 of the first image acquisition unit 5, in particular its control unit 8. This communication connection can be either wireless or wired.
    The wireless connection of the further image sensor 17 with the control unit 8 can be done by communication interfaces, not shown. If, by contrast, an electrical line connection is provided, it can be arranged or provided directly in the or on the helmet shell 3. By providing corresponding contact points between the first receiving housing 6 and the coupling receptacle 13 in the region of the first image acquisition unit 5, the line connection to the further image acquisition unit 16 can thus be created. For this purpose, provision must also be made for a corresponding arrangement of further contact points between the further receiving housing 18 and the helmet shell 3 or a further coupling receptacle.
    In the present exemplary embodiment, as already described above, the first image detection unit 5 is arranged on the front side of the protective helmet 2 and thus above the facial region or end region. By contrast, the further image acquisition unit 16 is arranged on the rear side of the protective helmet 2 facing away from it and thus above the neck region or in the occipital region.
    This makes it possible for the further image sensor 17 of the further image acquisition unit 16 to have an image acquisition area which is aligned in the opposite direction with respect to that image acquisition area of the first image sensor 7 of the first image acquisition unit 5.
    Thus, the person wearing the safety equipment 1, in particular the protective helmet 2, can be represented not only that area on the display unit 10 which is in front of the person, but also that area which is behind the person. In this way, possible dangers can be detected more quickly by the person himself and / or by at least one person in the opposite side of the unit, and from this person the person in action can be informed more quickly. Thus, the safety of the person in use can be additionally increased. Thus, the person in use could only be represented by the display unit 10 of that receiving area which corresponds to the visual field and which is recorded by the first image capture unit 5. That area, which is located behind this person, is received by the further or second image capture unit 16 and this image information, preferably with the interposition of the control unit 8, transmitted via the wireless communication interface 12 to the remote unit and / or control center. Thus, the person in action can concentrate on what is happening in his front area - ie in his field of vision - with the further monitoring taking place externally by another person or a group of other persons. In most cases, the control unit 8 forms the central switching point for all further component components connected thereto, the external communication taking place via the wireless communication interface 12.
    By providing or arranging a plurality of image sensors 7, 17, the or the temperature sensors 15 and the global position determination device 14, not only this information, but also other application information can be displayed on the display unit 10. Thus, the display unit 10 may be configured to display at least one deployment information, wherein the deployment information is selected from the group of images of the first
    Image acquisition unit 5, the positional representation of the global position determination device 14, the display of the ambient temperature detected by the temperature sensor or temperature sensors 15 in the area of the person carrying the security equipment, image second image acquisition unit 16, a building plan transmitted by the counterpart party and / or a town map , a forwarding distance for the user or wearer of the safety equipment 1 transmitted by the counterpart of the operation.
    The further image sensor 17 may be formed by a standard image sensor in color or black and white. This could also be formed by a thermo-graphically formed image sensor.
    Generally, under image, both a still image and an image sequence with e.g. 25 frames per second understood. For the linguistic communication of the deployment person with the deployment counter or control center and vice versa, a microphone and a loudspeaker may also be provided, which may also be part of the image acquisition unit 5. These linguistic Kommunikationsmit-tel, which have not been shown in detail, are also connected between the control unit 8 with the wireless communication interface 12 in combination.
    A deployment support method for emergency personnel, in particular for a person in the fire service operation, rescue operation, labor input, can be carried out using a safety equipment 1 described above. Thus, the first image acquisition unit 5 of the image acquisition system 4 and the display unit 10 are activated, wherein an image of the area of application detected by the first image sensor 7 is processed by the control unit 8 and displayed on the display unit 10. After the triggering of a connection request from the control unit 8, a voice and / or data communication connection with the remote unit is set up by means of the wireless communication interface 12.
    The triggering of the connection request can take place either directly from the person wearing the safety equipment 1 and / or from the opposite side of the operation. Furthermore, the image captured by the first image capturing unit 5 may
    Or the image sequence can be transmitted by means of the data communication connection to the Einsatzge-genstelle and / or be transmitted from the Einsatzgegenstelle a Einsatzin-formation to the control unit 8. The control unit 8 can optionally process this application information and then displayed on the display unit 10.
    The embodiments show possible embodiments of the safety equipment 1, wherein it should be noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are possible under each other and this variation possibility due to the teaching to technical action by objective invention in the skill of those working in this technical field expert.
    Furthermore, individual features or combinations of features from the different exemplary embodiments shown and described can also represent separate, inventive or inventive solutions.
    The task underlying the independent inventive solutions can be taken from the description. All statements of value ranges in the present description should be understood to include any and all sub-ranges thereof, e.g. is the statement 1 to 10 to be understood that all sub-areas, starting from the lower limit 1 and the upper limit 10 are included, ie. all portions begin with a lower limit of 1 or greater and end at an upper limit of 10 or less, e.g. 1 to 1.7, or 3.2 to 8.1, or 5.5 to 10.
    For the sake of order, it should finally be pointed out that in order to better understand the structure of the safety equipment 1, these or their components have been shown partially unevenly and / or enlarged and / or reduced in size.
    REFERENCE SIGNS LIST 1 safety equipment 2 protective helmet 3 helmet shell 4 image acquisition system 5 first image acquisition unit 6 first acquisition housing 7 first image sensor 8 control unit 9 electrical energy source 10 display unit 11 connection element 12 wireless communication interface 13 coupling receptacle 14 global position determination device 15 temperature sensor 16 additional image acquisition unit 17 further image sensor 18 additional receptacle housing 19 electrical energy source
    权利要求:
    Claims (17)
    [1]
    claims
    1. Safety equipment (1) for the human head, in particular for a person in the fire service, rescue operation, labor, comprising a protective helmet (2) with a helmet shell (3) and with a supported support structure for receiving the human head, an image capture system ( 4) with a first imaging unit (5), in particular thermographically formed, which first image acquisition unit (5) comprises a first housing (6), a first image sensor (7), a control unit (8), an electrical energy source (9) and a wireless Communication interface (12) for communicating with at least one remote unit, wherein the wireless communication interface (12) for communication in a mobile network based on the standard selected from the group of UMTS, GSM, CDMA2000, HSDPA is formed, and the control unit (8 ), the electrical energy source (9) and the wireless communication interface (12) in a display unit (10), which display unit (10) with the control unit (8) of the first image capture unit (5) is in communication connection, and the first image capture unit (5) and the display unit (10) together Forming construction module, characterized in that the first image sensor (7) is also accommodated in the first receiving housing (6) and the display unit (10) by means of a semi-rigid, flexible connecting element (11) on the first image detection unit (5), in particular is held at the first receiving housing (6), distanced from it and that the first image acquisition unit (5) with its first receiving housing (6) in a in the helmet shell (3) recessed coupling receptacle (13) is held interchangeable.
    [2]
    2. Safety equipment (1) according to claim 1, characterized in that the coupling receptacle (13) is arranged in an upper end region of the helmet shell (3) and centrically with respect to bilateral temporal regions.
    [3]
    3. safety device (1) according to any one of the preceding claims, characterized in that the first image detection unit (5) further comprises a global positioning device (14), which global position determining device (14) in the first receiving housing (6) is added.
    [4]
    4. Sicherheitsausmstung (1) according to claim 3, characterized in that the global position determining device (14) with the control unit (8) of the first image detection unit (5) is in communication communication.
    [5]
    5. Safety device (1) according to one of the preceding claims, characterized in that the first image acquisition unit (5) further comprises at least one temperature sensor (15) which communicates with the control unit (8) of the first image acquisition unit (5).
    [6]
    6. Sicherheitsausmstung (1) according to claim 5, characterized in that the temperature sensor (15) is arranged on Or in the first image detection unit (5), in particular on the first receiving housing (6).
    [7]
    7. Safety equipment (1) according to claim 5 or 6, characterized marked in that the temperature sensor (15) is arranged on the Oder in the display unit (10).
    [8]
    8. Safety equipment (1) according to any one of the preceding claims, characterized in that the image capture system (4) at least one further image capture unit (16) with at least one further image sensor (17) um-sums.
    [9]
    9. Safety equipment (1) according to claim 8, characterized in that the further image sensor (17) of the further image acquisition unit (16) has an image pickup area, which image pickup area in the opposite direction with respect to that image pickup area of the first image sensor (7) of the first image acquisition unit ( 5) is aligned.
    [10]
    10. Safety equipment (1) according to claim 8 or 9, characterized in that the further image acquisition unit (16) on the helmet shell (3) is preferably held removably detachable.
    [11]
    11. Sicherheitsausmstung (1) according to one of the Anspmche 8 to 10, characterized in that the further image detection unit (16), in particular its further image sensor (17) with the control unit (8) of the first image detection unit (5) is in communication connection.
    [12]
    12. Sicherheitsausmstung (1) according to one of the preceding Anspmche, characterized in that the display unit (10) for displaying at least one application information is formed, wherein the insertion information is selected from the group of images of the first image acquisition unit (5), Positionsdar-position the global position-determining device (14), displaying the ambient temperature determined by the temperature sensor (15), images of the second image-capturing unit (16), a building plan or a local plan transmitted by the counterparty, a travel route transmitted by the counterpart party.
    [13]
    13. Safety equipment (1) according to claim 12, characterized in that the display unit (10) and / or the first image acquisition unit (5) is provided with an insert information selection module having selection means with which the display of the insert information on the display unit (10) is user-selectable.
    [14]
    14. Operation support method for emergency services, in particular for a person in the fire service, rescue operation, labor, which person is equipped with a safety equipment (1) according to one of claims 1 to 13, characterized in that the first image acquisition unit (5) of the image acquisition system (4) and the display unit (10) are activated, and in that an image of the application area detected by the first image sensor (7) is prepared by the control unit (8) and displayed on the display unit (10), and after triggering a connection request from the control unit (8 ) is established by means of the wireless communication interface (12) a voice and / or data communication connection with the remote site.
    [15]
    15. Use support method according to claim 14, characterized in that the triggering of the connection request is carried out by the opposite unit.
    [16]
    16. A deployment assistance method according to claim 14 or 15, characterized in that the image captured by the first image capture unit (5) is transferred by means of the data communication connection to the remote site and / or transferred from the opposite unit mission information to the control unit (8) is and is displayed by this if necessary, on the display unit (10).
    [17]
    17. A deployment assistance method according to claim 14, characterized in that an image of the rearward area captured by the further image sensor (17) from the further image acquisition unit (16) of the image acquisition system (4) is transmitted to the control unit (8) of the first image acquisition unit (5 ) is transferred, processed by the control unit (8) and displayed on the display unit (10) and / or is transmitted to the opposite operation.
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    公开号 | 公开日
    WO2016191789A1|2016-12-08|
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    EP3302115A1|2018-04-11|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50455/2015A|AT517332B1|2015-06-03|2015-06-03|Safety equipment for the human head as well as a deployment support procedure|ATA50455/2015A| AT517332B1|2015-06-03|2015-06-03|Safety equipment for the human head as well as a deployment support procedure|
    TW105117658A| TW201709834A|2015-06-03|2016-06-03|Safety equipment for the human head, and use support method carried out with said safety equipment|
    PCT/AT2016/050176| WO2016191789A1|2015-06-03|2016-06-03|Safety equipment for the human head, and use support method carried out with said safety equipment|
    EP16738052.6A| EP3302115B1|2015-06-03|2016-06-03|Safety equipment for the human head, and use support method carried out with said safety equipment|
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