• 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:
    In order to increase the security against electric shocks when working in the vicinity of a mobile electrical distributor (10) by a person (8), it is provided that an additional emergency signal input (21) is provided on the mobile electrical distributor (10), which is received when an external emergency signal (S ) at the emergency signal input (21) actuates the at least one separation unit (16a, 16b, 16c, 16d, 16e, 23), the emergency signal (S) preferably being generated by a protective device (1) carried by the person (8).
    公开号:AT521697A4
    申请号:T50097/2019
    申请日:2019-02-08
    公开日:2020-04-15
    发明作者:Klapper Ulrich
    申请人:Adaptive Regelsysteme Ges M B H;
    IPC主号:
    专利说明:

    Mobile electrical distributor with emergency signal input
    The present invention relates to a mobile electrical distributor with a distribution box with at least one circuit, which is connected to a sub-distributor and / or an electrical consumer, at least one isolating unit being provided on the mobile electrical distributor in order to thereby disconnect at least part of the mobile electrical distributor, an arrangement for performing work with a mobile electrical distributor and a method for performing work of a person using a mobile electrical distributor.
    Electrical energy is needed on construction sites. So-called building electrical boxes or mobile electrical distributors are often installed for the duration of the construction work. Such mobile electrical distributors are not only used on construction sites, but can also be used wherever electrical energy is required and has to be distributed at a location for a certain time. "Mobile" means that the electrical distributor is not firmly integrated into one Building or facility is installed. Nevertheless, a mobile electrical distributor can remain in the same location for years. The energy is then distributed at the location by means of extension cables and further distribution sockets so that electrical devices can be supplied with electrical energy on site, for example from the drilling machine, the grinder to the concrete mixing machine, etc. Because on construction sites or at other locations of such a temporary electrical installation, the risk of damage to cables or devices is particularly high, there is also a particularly high risk that - especially if water is still involved - people get electric shocks. For this reason, some mobile electrical distributors are equipped with emergency stop devices to switch off the system in the event of a person touching a live or live component. If a person has an electrical current touch and cannot let go due to a cramp caused by the electrical current, the emergency stop can be activated by a second person. This is quicker than opening the mobile electrical distributor and operating switches. This type of safety needs a second person who notices the accident immediately and then reacts correctly. In any case, valuable seconds or minutes pass that can be decisive for the degree of injury from electric shock.
    It is therefore the object of the present invention to increase the security against electric shocks when working by a person at a location supplied by a mobile electrical distributor.
    This object is achieved in that an emergency signal input is additionally provided on the mobile electrical distributor, which on receipt of an external emergency signal
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    Emergency signal input that actuates at least one separation unit. This means that the voltage-free switching of part of the mobile electrical distributor can also be activated externally via the emergency signal input. This gives the mobile electrical distributor an additional protective input that can be connected to the application in order to increase the safety of the person working in the vicinity of the mobile electrical distributor. This means that the mobile electrical distributor can also be switched off when a conventional safety device should not respond, which increases the safety of the person.
    The emergency signal is very particularly advantageously generated with a protective device for detecting an electrical body current, which is carried by the person and which, in the event of a detected impermissible body current, outputs an emergency signal and transmits it to the emergency signal input of the mobile electrical distributor. As soon as the protective device detects an impermissible body current (which can be configured accordingly), an emergency signal is triggered, which in turn triggers the switching action through the emergency signal input. In this way, the protection of the person is no longer tied to the presence of another person or to the response of other safety devices.
    Further advantageous configurations and effects of the invention result from the dependent claims and the following description.
    The present invention is explained in more detail below with reference to FIGS. 1 to 7, which show exemplary, schematic and non-limiting advantageous embodiments of the invention. It shows
    1 shows a mobile electrical distributor with an emergency signal input,
    2 shows a protective device worn by a person,
    3 shows an exemplary embodiment for notifying a remote location about a power accident involving a person wearing a protective device,
    4 shows the use of a mobile terminal for establishing the radio connection to the remote location,
    5 the additional detection of the position of the person,
    6 shows a possible communication link between two protective devices and
    7 shows a mobile electrical distributor with several radio receivers for receiving the emergency signal from the protective device.
    A mobile electrical distributor 10, as shown in FIG. 1, comprises a distribution box 11. In the distribution box 11 there are generally a number of electrical circuits which are fed by an electrical supply network 24 and which are each individually via electrical separation units 16a, 16b, 16c , 16d, 16e of the circuits, for example in the form of conventional automatic circuit breakers, connected to the electrical supply network 24/22 2 '
    AR-4060 AT can be or can be separated from it. An electrical consumer 15a or a sub-distributor 14a, 14b can either be connected directly to the distribution box 11. An electrical consumer 15b, 15c can then in turn be connected to a sub-distributor 14a, 14b. It is also conceivable that a subdistributor 14a, 14b is connected to a subdistributor, to which a subdistributor or an electrical consumer can then be connected, etc. A circuit of the distribution box 11 supplies an electrical consumer 15a and / or a subdistributor 14a , 14b.
    If an electrical consumer, an electrical cable or also the mobile distribution box 11 or a sub-distributor 14a, 14b of the mobile electrical distributor 10 has a defect, comes into contact with water or for other reasons an electrical voltage can be touched, there is a person 8 in the area Danger of electric shock if unintentionally touching a live or live component.
    An emergency stop switch 20 is therefore provided on the distribution box 11 of the mobile electrical distributor 10 in order to disconnect the mobile electrical distributor 10 from voltage, if necessary. The emergency stop switch 20 must be operated by a person present. However, if the working person 8 has suffered an electric shock, he may no longer be able to operate the emergency stop switch 20 himself. Another person may not be present or may not notice the electrical accident. Therefore, the provision of an emergency stop switch 20 is often only an insufficient safeguard for the person 8 working in the vicinity of a mobile electrical distributor 10.
    When actuated, the emergency stop switch 20 activates a disconnection unit 23 of the emergency stop circuit in the distribution box 11, for example an isolating relay, in order to switch off the supply voltage to the mobile electrical distributor 10. As a rule, all circuits of the distribution box 11 are de-energized. In order to increase the safety of the person 8, an emergency signal input 21, which can receive an external emergency signal S, is additionally provided on the mobile electrical distributor 10 according to the invention. The emergency signal input 21 can be provided on the distribution box 11 and / or on a sub-distributor 14a, 14b. According to the invention, consequently, the emergency signal input 21 is also connected to the separating unit 23 and activates the separating unit 23 when an emergency signal S is received via the emergency signal input 21. In order to prevent all sub-distributors 14a, 14b from being switched off immediately via the separating unit 23, an emergency signal could be received S at the emergency signal input 21, only the subdistributor 14a, 14b, or the electrical consumer 15a, 15b, 15c, at which the emergency signal S is received, are switched off by means of a disconnecting unit 16a, 16b, 16c, 16d, 16e of a circuit in the distribution box 11 and if the emergency signal S remains after a certain delay, the disconnecting unit 23 of the emergency stop circuit in the distribution box 11 is activated. It would be for that / 22 3 '
    AR-4060 AT a control unit 17 is required, which is connected to the emergency signal input 21 or the emergency signal inputs 21 and which controls the separation unit 16a, 16b, 16c, 16d, 16e of the circuit and the separation unit 23 of the emergency stop circuit. In this case, an emergency signal input 21 would not directly trigger the respective disconnection unit 16a, 16b, 16c, 16d, 16e, 23, but indirectly via the control unit 17. In this way, a chronological staggering of the switch-off actions of the disconnection units 16a, 16b, 16c, 16d, 16e, 23 so that in the event of an accident on a sub-distributor 14a, 14b not all sub-distributors of the mobile electrical distributor 10 are de-energized, for example because this could impair work on a larger construction site.
    Of course, several series-connected disconnection units 23 could also be provided with the same effect in the emergency stop circuit of the mobile electrical distributor 10, each of which is controlled separately, for example a disconnection unit for the emergency stop switch 20 and a disconnection unit 23 for the emergency signal input 21.
    The triggering of a disconnection unit 16a, 16b, 16c, 16d, 16e of a circuit and / or the disconnection unit 23 of the emergency stop circuit is intended to disconnect the person 8 working in the vicinity of the mobile electrical distributor 10 in the event of a power accident in order to increase the duration of an electric shock minimize. In order for this to happen as quickly as possible, the emergency signal S can be generated automatically by a protective device 1, in that a current flow through the person 8 is recognized by an evaluation device 6 and is forwarded to the emergency signal input 21 by means of the emergency signal S. The emergency signal S is transmitted either wirelessly or by wire.
    Of course, a separation unit 16a, 16b, 16c, 16d, 16e of a circuit could also be provided in a sub-distributor 14a, 14b, in which an emergency signal input 21 would then also be provided.
    In order to generate an emergency signal S in the event of an electric shock, the person 8 can additionally be equipped with a protective device 1 against electric shock, as indicated in FIG. 1. Such a protective device is known per se in its basic function from the prior art. For example, DE 39 03 025 A1 describes such a protective device, with at least two extremities of the person, e.g. Arms or legs, each an electrode is arranged, which are connected to a control device. A body current through the contact of an external electrical potential is detected by the control unit via the electrodes. If such a current flow is detected, the control device activates a switch-off device with which the further current supply to the contact point is interrupted. The electrodes and the control unit can be arranged on a piece of clothing and the connection between the control unit and the shutdown device is wireless. A similar protective device is also shown in DE 44 38 063 A1.
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    The subject invention uses a protective device 1 as will be explained in more detail with reference to FIG. The protective device 1, or at least parts thereof, is arranged or integrated on an item of clothing 2, here a shirt. Of course, other parts can also be considered as clothing item 2, e.g. a pair of pants, a sweater, a T-shirt, a jacket, a jumpsuit, etc. Combinations of several parts can also be considered as clothing item 2, e.g. a combination of trousers and shirt, etc. At least one sensor 3 is arranged on the item of clothing 2 in order to detect an electric body current flowing through the human body. Electrodes 5 can be used as sensor 3, for example, in order to detect an electrical potential or an electrical current. The electrodes 5 are preferably arranged at exposed points of the item of clothing 2, for example in the region of extremities, that is to say for example on sleeves, trouser legs or hoods. A sensor 3 is also a biometric sensor 7 in order to detect a biometric signal, for example the frequency of the heartbeat, the amplitude or the course of the heartbeat, the respiratory rate, the skin resistance, etc. By evaluating the biometric signal, in particular the heartbeat (frequency, amplitude and / or course), a flowing electrical body current can also be inferred.
    For this purpose, the sensor 3, or the sensors, can preferably be integrated in the item of clothing 2, but can also be applied separately, for example by means of a cuff, a bracelet or a belt. In one possible embodiment, a sensor 3 could be designed as an electrode 5 in the form of a known Rogowski coil (as in FIG. 2) in order to detect an electrical current flowing through an extremity or other part of the human body. For this purpose, the electrode 5 can be placed in a ring around an extremity, e.g. in a waistband of a sleeve or a trouser leg of the item of clothing 2. For the detection of an electrical potential, the electrode 5 must be in an electrically conductive contact with the skin, while e.g. would not be absolutely necessary in the case of a Rogowski coil. In order to detect the heartbeat, a corresponding biometric sensor 7, e.g. a heart rate sensor can be integrated in the item of clothing 2 in the area of the chest, or a corresponding chest strap could be put on.
    A sensor 3 is connected to an evaluation unit 6 via at least one signal line 4. The signals recorded with the at least one sensor 3 are evaluated in the evaluation unit 6. For example, an electrical potential detected with an electrode 5 as sensor 3 or a detected flowing electrical current can be evaluated. An applied electrical voltage can be determined between two detected electrical potentials, for example with two sensors 3 designed as electrodes 5, and evaluated in the evaluation unit 6. A resistance measurement can also be carried out regularly or continuously between the two electrodes 5 in order to check whether the garment / 22 5 '
    AR-4060 AT is properly connected to person 8's body. The body current or potential difference can be evaluated analogously using suitable hardware or digitally, which requires an A / D conversion and corresponding hardware and software. In the event of a detected dangerous body current, for example an abnormal heartbeat, a detected dangerous current flow or a dangerous potential difference (voltage) between two electrodes 5, the evaluation unit 6 generates an emergency signal S, which can be used to trigger a desired action. For this purpose, of course, corresponding limit values for an allowable body current, for example an allowable potential difference or an allowable current, can also be stored or specified in the evaluation unit 6, which can also be changeable. Likewise, patterns of a biometric signal can be stored in the evaluation unit 6, which indicate a dangerous body current.
    Advantageously, different sensors 3 can be provided on the item of clothing 2 in order to increase the security of the detection of dangerous electrical body currents. For example, electrodes 5 could be provided on extremities and additionally a biometric sensor 7 for detecting the heartbeat, as shown in FIG.
    Likewise, the safety of the protective device 1 can be increased by providing redundancies. For example, more than one signal line 4 can be provided per sensor 3, as a result of which possible cable breaks or contact errors do not have to lead to the failure of the safety function or a cable break or contact error can even be recognized and possibly also displayed.
    The evaluation unit 6 is preferably held or carried by the person 8 who wears the protective device 1. For example, this could be arranged in a shoulder bag or a backpack, but could also be placed in a pocket of the item of clothing 2 or could advantageously, wholly or partly, also be integrated in the item of clothing 2, for example in the form of an intelligent item of clothing with integrated electronics.
    In principle, the emergency signal S can be output in a wired or wireless manner and can be received in a wired or wireless manner at the emergency signal input 21.
    The protective device 1 thus consists, for example, of an item of clothing 2 with at least one sensor 3 and an evaluation unit 6, which is connected to the at least one sensor 3 with at least one signal line 4 and which evaluates a signal detected by the sensor 3 in order to generate a dangerous electrical body current to capture. The emergency signal S of the evaluation unit 6 or the protective device 1 as such can now be used in a wide variety of ways in order to increase the safety of a person 8 against electric shock, as detailed below.
    / 22 6 '
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    In the protective device 1, preferably on the item of clothing 2 or on an external device which is in data connection with the protective device 1, at least one further sensor 9 can optionally be provided for detecting a further size, the further size representing a further state of the person 8 (in addition to a possible body current) is recorded. The further sensor 9 can be an acceleration sensor, for example, in order to be able to determine a fall of the person 8. A position sensor as a further sensor 9 can be used to detect when the person 8 is lying. The further sensor 9 can be designed to record an EKG (electrocardiogram), which can provide important information about the state of the accident victim 8 in connection with a power accident. The breathing of the accident victim 8 can also be detected by means of an acceleration sensor or motion sensor as a further sensor 9. Of course, several further sensors 9 can also be provided on the protective device 1, any combinations of the above sensors 9 being conceivable.
    Values acquired with sensor 3, 7 or sensors 3 and / or values acquired with at least one further sensor 9 can also be stored in protective device 1 in a storage unit, for example in evaluation unit 6. This makes it possible to read out stored values at a later time or to transfer them to other locations.
    If contact of the person 8 with a live or live part, which causes a body current flowing through the person 8, is detected by the protective device 1 as described above, an emergency signal S is triggered. In the exemplary embodiment shown in FIG. 1, the emergency signal S is transmitted wirelessly, for example via a radio link. An emergency signal input 21, which receives the emergency signal S and one, is additionally provided on the mobile electrical distributor 10, more precisely on a part of the mobile electrical distributor 10, such as, for example, the distribution box 11 or a sub-distributor 14a, 14b or also on an electrical consumer 15a, 15b, 15c Triggers switching action that disconnects part of the mobile electrical distributor 10, for example a circuit, or the entire mobile electrical distributor 10. Corresponding separation units 16a, 16b, 16c, 16d, 16e of a circuit and / or a separation unit 23 of an emergency stop crane are provided in order to implement this switching action. As a result of the switching action, the mobile electrical distributor 10, or a part thereof, is switched off and de-energized. The emergency signal input 21 can also be implemented in a separate unit, which is connected in a suitable manner to the mobile electrical distributor 10, or a component thereof.
    The protective device 1 triggers a switching action in the mobile electrical distributor 10 via the emergency signal input 21, which is aimed at switching off the part that is touched by a person 8. However, situations are conceivable that such a switching hand / 22 7 '
    AR-4060 AT is executed, but this does not lead to the desired success, that is, the de-energized part. This can happen, for example, if a circuit is interrupted by means of a separation unit 16a, 16b, 16c, 16d, 16e, but there is another circuit which is not interrupted. Therefore, in the emergency signal input 21, which receives the emergency signal S and triggers a switching action, or in the protective device 1, it can also be monitored whether the switching action leads to the desired success within a predetermined period of time, for example 100 ms, namely to make it de-energized. If, for example, after the switching action no more emergency signal S is received by the protective device 1, a successful switching action can be assumed. If it is not possible to determine that there is no voltage in the defined period of time, the emergency signal input 21 can trigger a further switching operation, for example in order to disconnect at least one further circuit via a disconnection unit 16a, 16b, 16c, 16d, 16e or all circuits by means of the disconnection unit 23. This can be implemented in the control unit 17. It is often the case, for example, that only certain parts of the electrical system are connected to one circuit, while other electrical parts are connected to another circuit. This could first separate a first circuit as described and in a second step, if the first step was unsuccessful, a defined further circuit. For this purpose, the emergency signal input 21 can also be connected to other circuits of the mobile electrical distributor 10. Of course, different hierarchies of circuits can be defined, which are sequentially switched.
    The protective device 1 can also contain or implement additional functions. These additional functions are optional and can be used individually or in any combination.
    In many situations, the protective device 1 can successfully trigger a switching action via an emergency signal input 21 and thus disconnect the mobile electrical distributor 10, or a part thereof, from current and voltage. If the protective device 1 is activated, an electric shock has already occurred in these situations. The affected person 8 can sometimes work in remote areas or alone, so that despite the activation of the protective device 1, no help comes for the accident victim 8. The same applies if the protective device 1 fails for whatever reason, that is to say the protective device 1 responds, but no voltage-free connection can be established. It can therefore be provided that the protective device 1 not only generates and outputs an emergency signal S, but also establishes a radio connection 62 (indicated by the dashed line) to a configured remote location 60 with a transmission unit 64, such as a mobile radio transmitter 63, and thus another, distant person 61 alarms, as shown in Fig.3. In this context, “removed” means that this further person 61 is at least so far away from the accident victim 8 that this additional person 61 den / 22 8 '
    AR-4060 AT
    Can not perceive the condition of the accident victim either visually or acoustically. The additional person 61 can, for example, sit in an emergency center, which can be in a completely different place. The protective device 1 can set up the radio connection 62 directly via the transmission unit 64, for example by means of a mobile radio transmitter 63 which is integrated in the item of clothing 2, for example again as part of an intelligent clothing. Alternatively, the protective device 1 can also establish the radio connection 62 indirectly, for example by connecting the protective device 1 via the transmitting unit 64 via a suitable data connection 65, for example Bluetooth, to a mobile terminal 66 of the person 8, for example a smartphone (for example by means of Bluetooth). which then establishes the radio connection 62 to the remote location 60, as shown in FIG. A predetermined message can be sent via radio link 62, for example a text message (e.g. by SMS), data transmission (e.g. by e-mail) or a call. The other person 61 in the remote location 60 can also carry a mobile terminal 67 with them, which can be connected to the radio link 62 if necessary, for example via a mobile radio network. It is obvious that the remote location 60 (e.g. emergency center) does not have to be location-specific, in particular if the additional person 61 also uses a mobile terminal 67 for contacting.
    The transmitter unit 64, e.g. in the form of a mobile radio transmitter 63, can itself be integrated in the evaluation unit 6 or in the item of clothing 2 (for example in the form of intelligent clothing). The transmission unit 64 can be controlled by the evaluation unit 6 of the protective device 1.
    The further person 61 can then coordinate help for the accident victim 8. In an emergency center, for example, the location of people 8 who work in the vicinity of the live or live mobile electrical distributor 10 can be known. For example, maintenance work on the system is planned and it is known when and where it is carried out. The protective device 1 can be assigned to a specific person 8 and can also have a unique identification (for example a mobile phone number). In this way, an incoming emergency call from a protective device 1 can be assigned to a location and / or a person 8 in the emergency center, with the help of a helper being able to be coordinated in a targeted manner.
    The protective device 1 can also be equipped with a unit for determining the position. For this purpose, for example, the unit 72 for determining the position, for example a GPS (Global Positioning System) sensor, can be arranged on the item of clothing 2 (as indicated by the dashed line in FIG. 5), or can be integrated therein, for example in intelligent clothing with integrated electronics. Of course, other satellite navigation systems are also possible, such as GALILEO. However, there are of course other possibilities to position a person 8 by means of a unit 72, -910/22
    AR-4060 AT determination. For example, the availability of WLAN (Wireless LAN) networks could be used to draw a conclusion about the current position. A position could also be determined via a mobile radio network, for example by means of
    GSM location.
    However, the protective device 1 can also be connected to an external device 70, which can carry out a position determination, as a unit for position determination, as shown for example in FIG. 5. Today's cell phones or smart phones have usually integrated a position determination. The protective device 1 can thus be connected to the external device 70 via a data connection 71, for example Bluetooth, in order to obtain the current position of the person 8 from the external device 70. A transmission unit 64 could again be provided in the protective device 1 for the connection. The current position can be stored in the protective device 1, preferably in the evaluation unit 6 of the protective device 1, preferably with further details of a power accident, such as date, time, duration of the body current, level of the current flow, in order to enable a later evaluation. The current position is understood to mean both geocoordinates and a specific location. Since many external devices 70 often also have a location function, the location can also be used directly as the current position.
    Of course, the current position or the current location can also be transmitted to a remote location 60 (as in FIG. 3 or 4) in order to support the coordination of help for the accident victim 8. The current position or the current location could also be transmitted to the remote location 60 at certain time intervals in order to always know a current position or a current location of the person 8.
    It is obvious that, when a remote location 60 is notified, the protective device 1 can of course also transmit additional information, for example data from further sensors 9 on the protective device 1 relating to the state of the person 8, for example the position of the person 8 (case, person is lying ), Pulse, ECG, breathing. Such additional information can be important for the coordination of aid and the rescue operation.
    However, the remote location 60 can of course also be automated in such a way that in the event of an incoming message from a power accident to a person 8, certain actions are taken automatically, for example the notification of an emergency medical service or helper, possibly also with the specific position or location of the person 8 and possibly also with other existing data.
    For this purpose, the remote location 60 could also determine one or more helpers in the vicinity of the person 8 involved in the accident and inform them specifically about the power accident. In addition, -1011/22
    AR-4060 AT can help the helper with a communication unit, such as a cell phone or smart
    Phone, which is contacted by the remote location 60 or by another person 61 in the remote location 60 with a corresponding message. The message could be an SMS, email, or something similar, or a call.
    A helper in the vicinity of the accident victim could be determined by knowing the positions of all the assistants in question in the remote location 60. For example, the current position could be continuously transmitted to the remote location 60 via the communication units of the helpers at predetermined intervals. Proximity could also be determined in such a way that it is determined whether a communication unit of the accident victim 8, for example a mobile terminal 66, can exchange messages with a communication unit of a helper, for example via Bluetooth, or whether both can receive the same WLAN network . This could also be continuously communicated to the remote location 60 by the respective communication unit so that the remote location 60 always has a current status.
    It is also conceivable for several people to be in the vicinity of live parts of the mobile electrical distributor 10 at the same time. In such situations, it can happen that a person's 8 electrical accident is not noticed by other people in the vicinity, even in the immediate vicinity. This can also put other people at risk, for example because they touch the person 8 in the circuit or because they also touch the live part. Apart from this, an efficient action to rescue the accident victim 8 or to protect other people in the vicinity, for example by switching off or short-circuiting the circuit or by pushing away the accident victim 8, is only possible if at least one other person in the vicinity is aware of the power accident gain. A protective device 1 according to the invention can also be used advantageously in such cases, as is described by way of example with reference to FIG.
    It is assumed that several people 8a, 8b, each with a protective device 1a, 1b, are in the vicinity of a live component and that the protective devices 1a, 1b are in communication connection. For this purpose, each protective device 1a, 1b can be designed with a communication unit 80a, 80b in order to be able to set up a communication connection 81, for example Bluetooth. However, the communication connection 81 can also be established indirectly, for example as explained in FIG. 4, via a mobile terminal 66 of a person 8a, 8b. However, the communication units 80a, 80b of the two protective devices 1a, 1b do not have to communicate directly with one another. It would be conceivable, for example, that a communication center 82 be set up in the area of the work, with which the individual protective devices 1a, 1b connect via their communication units 80a, 80b, as shown in FIG. 6, -n12 / 22
    AR-4060 AT indicates. The communication link 81 is then established via the communication center 82. The communication link 81 can be permanently set up or can also be set up on a case-by-case basis. If a protective device 1a triggers an emergency signal S for a person 8a because this person 8a gets into a circuit, the at least one additional person 8b in the vicinity is communicated via the communication unit 80a of the protective device 1a via the communication connection 81 and the communication unit 80b of the protective device 1b above it informed. For this purpose, a corresponding signaling unit, for example an acoustic, visual or palpable alarm, can also be provided on a protective device 1. If a protective device 1 is additionally provided with a unique identifier, it can also be transmitted which protective device 1 is affected in order to make it easier for the accident victim 8a to be found. Aid for an accident victim 8a can thus be considerably accelerated.
    Instead of a communication center 82 set up in the area of the work, the communication described could also take place via a (arbitrarily) distant location 60 as a communication center, for example as described in FIG. 3 or 4.
    The protective device 1 of the person 8 involved in the accident, or a communication unit 80 of the protective device 1 and also an external device 70 coupled to it, for example a mobile telephone which the person 8 is carrying, can also, possibly also, surround with a loud acoustic signal, optionally also with a spoken warning text untrained and not equipped, 8 people to the danger and the help needed. An acoustic warning such as "Warning - power accident - this person is under voltage. Do not touch the person. Interrupt the circuit or knock the person off the circuit ”or“ Warning - electrical accident - this person received an electric shock. Touchable live parts are nearby ”would be conceivable, for example.
    In the case of a radio connection for transmitting the emergency signal S from the protective device 1 to a radio receiver 90 with an emergency signal input 21, it can of course be checked, either continuously or at least at the beginning of the work, whether there is a radio connection at all. If not, a corresponding alarm can be displayed on the protective device 1, for example acoustically, visually or palpably. The same naturally applies if a low charge state of an energy supply of the protective device 1 is determined in the protective device 1.
    In certain applications, in particular in buildings, the radio connection between the protective device 1 and the radio receiver for receiving the output signal can break off easily and unrecognized, in particular if the person wearing the protective device 1 moves. This can lead to false triggers if a missing radio signal, -1213/22
    AR-4060 AT triggers a switching action in the radio receiver. In the worst case, the protective person 1 no longer provides protection for the person wearing 8 without being noticed.
    An emergency signal input 21 that works with radio could also be configured differently depending on the danger of the application, so that an interruption of the radio connection in a very dangerous application forces a switch-off process and does not do so in less critical application.
    Apart from this, at least two radio receivers 90a, 90b, for example in different sub-distributors 14a, 14b, can be provided spatially distributed in the work area of the person 8 for receiving an emergency signal S from the protective device 1, as shown in FIG. The radio receivers 90a, 90b are connected to the emergency signal input 21 in order to detect an emergency signal S from the protective device 1 and to trigger an action.
    The protective device 1 can also be in a bidirectional radio connection with the radio receivers 90a, 90b. This means that a signal receiver 91 must be provided on the protective device 1 in order to be able to receive a radio signal F which is emitted by a transmitter 92a, 92b in the radio receiver 90a, 90b. The signal receiver 91 is preferably arranged on the item of clothing 2 or integrated in the item of clothing 2 and connected to the evaluation unit 6 or another computing unit in the protective device 1. The radio signal F from a radio receiver 90a, 90b is emitted continuously or at least at regular intervals, and is received by the signal receiver 91 of the protective device 1. The protective device 1 is thus able to evaluate the signal quality of the radio channel between the protective device 1 and a radio receiver 90a, 90b. In this way, the protective device 1 can decide over which of the available radio channels the emergency signal S is sent.
    A large number of such radio receivers 90a, 90b can be arranged in a building or system, and the protective device 1 selects a radio receiver 90a, 90b, for example the radio channel with the best signal quality, in order to transmit the emergency signal S thereover. In this way, the person 8 wearing the protective device 1 can move through the building or the system without losing the radio connection.
    In principle, however, it is irrelevant to the invention where the decision is made about which radio receiver 90a, 90b is to be used for communication. The decision could be made in the signal receiver 91, in the radio receivers 90a, 90b or in the emergency signal input 21 or elsewhere.
    权利要求:
    Claims (26)
    [1]
    Claims
    1. Mobile electrical distributor with a distribution box (11) with at least one circuit, which is connected to a sub-distributor (14a, 14b) and / or an electrical consumer (15a, 15b, 15c), with at least one separation unit on the mobile electrical distributor (10) (16a, 16b, 16c, 16d, 16e, 23) is provided in order to thereby switch at least part of the mobile electrical distributor (10) voltage-free, characterized in that an emergency signal input (21) is additionally provided on the mobile electrical distributor (10), which actuates the at least one separation unit (16a, 16b, 16c, 16d, 16e, 23) when an external emergency signal (S) is received at the emergency signal input (21).
    [2]
    2. Mobile electrical distributor according to claim 1, characterized in that an emergency stop switch (20) is provided on the mobile electrical distributor (10), which actuates a separating unit (23) of the emergency stop circuit in order to switch the at least one circuit free of voltage, and the emergency signal input (21) actuates the disconnection unit (23) of the emergency stop circuit.
    [3]
    3. Mobile electrical distributor according to claim 1 or 2, characterized in that in at least one circuit, a separation unit (16a, 16b, 16c, 16d, 16e) of the circuit is provided in order to disconnect the circuit from voltage and the emergency signal input (21) the separation unit (16a, 16b, 16c, 16d, 16e) of the circuit.
    [4]
    4. Mobile electrical distributor according to one of claims 1 to 3, characterized in that a control unit (17) is provided which is connected to the emergency signal input (21) and the control unit (17) the at least one separation unit (16a, 16b, 16c, 16d, 16e, 23) actuated.
    [5]
    5. Arrangement for performing work in the environment of a mobile electrical distributor (10) according to claim 1 to 4 by a person, characterized in that the person (8) wears a protective device (1) for detecting an electric body current, which in the case of a detected impermissible body current outputs an emergency signal (S) and transmits it to the emergency signal input (21) of the mobile electrical distributor (10).
    [6]
    6. Arrangement according to claim 5, characterized in that the protective device (1) comprises an item of clothing (2) and an evaluation unit (6), the person (8) wearing the item of clothing (2) and the item of clothing (2) with at least one Sensor (3) is equipped for detecting the body current, and the evaluation unit (6) evaluates a signal detected with the at least one sensor (3) and outputs the emergency signal (S) if an inadmissible body current is detected.
    [7]
    7. Arrangement according to claim 6, characterized in that the protective device (1), preferably the item of clothing (2), comprises at least one further sensor (9), 1415/22
    AR-4060 AT which detects a further state of the person (8) wearing the protective device (1) and / or comprises a unit (72) for determining the position or location of the person (8).
    [8]
    8. Arrangement according to one of claims 5 to 7, characterized in that a remote location (60) is provided, which is informed in the event of a power accident by the protective device (1).
    [9]
    9. Arrangement according to claim 8, characterized in that the protective device (1) of the remote location (60) also transmits data of the at least one further sensor (9) and / or the position or location of the person (8).
    [10]
    10. Arrangement according to claim 8 or 9, characterized in that the remote location (60) coordinates help for the person (8) after an electrical accident, preferably by the remote location (60) contacts a helper and informs about the electrical accident.
    [11]
    11. Arrangement according to one of claims 5 to 10, characterized in that there is at least one further person (8b) in the area of the work by the person (8a), who also carries a protective device (1b), the protective device (1a) of the person (8a) and the protective device (1b) of the at least one further person (8b) are in communication connection (81), the protective device (1a) of the person (8a) being the protective device (1b) of the at least one further person (8b) informed about a power accident of the person (8a) via the communication link (81).
    [12]
    12. The arrangement according to claim 11, characterized in that the protective devices (1a, 1b) each comprise a communication unit (80a, 80b) for establishing the communication connection (81).
    [13]
    13. Arrangement according to claim 12, characterized in that in the area of the work of the person (8a) a communication center (82) is provided which is connected to the communication units (80a, 80b) in order to establish the communication connection (81).
    [14]
    14. Arrangement according to one of claims 5 to 13, characterized in that the protective device (1) outputs an acoustic warning and / or an acoustic warning text in the event of a power accident.
    [15]
    15. Arrangement according to one of claims 5 to 14, characterized in that the protective device (1) transmits the emergency signal (S) via radio to the emergency signal input (21) and issues an alarm in the event of a missing radio connection.
    [16]
    16. Arrangement according to one of claims 5 to 15, characterized in that the emergency signal input (21) is connected to a plurality of radio receivers (90a, 90b), the protective device (1) comprising a signal receiver (91) which is one of the radio receiver
    AR-4060 AT (90a, 90b) receives the transmitted radio signal (F), whereby the radio signal (F) evaluates the signal quality of a radio channel between the protection device (1) and a radio receiver (90a, 90b) and the radio channel with the best signal quality for transmission an emergency signal (S) can be selected.
    [17]
    17. Arrangement according to one of claims 5 to 16, characterized in that the emergency signal input (21) or the protective device (1) checks after a predetermined period of time whether the emergency signal (S) is still present, and via a further separation unit (16a, 16b, 16c, 16d, 16e, 23) of the mobile electrical distributor (10) triggers at least one further switching operation in the mobile electrical distributor (10) if the emergency signal (S) is still present after the time period.
    [18]
    18. A method for performing work by a person (8) in the vicinity of a mobile electrical distributor (10) according to claim 1 to 4, characterized in that the person (8) carries a protective device (1) for detecting an electrical body current, which in the case outputs an emergency signal (S) of a detected impermissible body current and transmits it to the emergency signal input (21) of the mobile electrical distributor (10).
    [19]
    19. The method according to claim 18, characterized in that the protective device (1) informs a remote location (60) in the event of a power accident.
    [20]
    20. The method according to claim 19, characterized in that the protective device (1) of the remote location (60) also data of at least one further sensor (9) on the protective device (1) and / or the position or location of the person (8) transmitted.
    [21]
    21. The method according to claim 19 or 20, characterized in that help is coordinated for the person (8) after a power accident via the remote location (60), preferably by the remote location (60) contacting a helper and informing them of the power accident.
    [22]
    22. The method according to any one of claims 18 to 21, characterized in that there is at least one other person (8b) in the area of work by the person (8a), who also wears a protective device (1b), with the protective device (1a ) a communication link (81) is established for the person (8a) and the protective device (1b) of the at least one further person (8b), the protective device (1a) of the person (8a) for the protective device (1b) of the at least one further person ( 8b) via the communication link (81) of an electrical accident involving the person (8a).
    [23]
    23. The method according to any one of claims 18 to 22, characterized in that the protective device (1) outputs an acoustic warning and / or an acoustic warning text in the event of a power accident.
    , -16
    17/22
    AR-4060 AT
    [24]
    24. The method according to any one of claims 18 to 23, characterized in that the protective device (1) transmits the emergency signal (S) via radio to the emergency signal input (21) and issues an alarm in the event of a missing radio connection.
    [25]
    25. The method according to any one of claims 18 to 24, characterized in that the emergency signal input (21) with a plurality of radio receivers (90a, 90b) is connected, wherein the protective device (1) comprises a signal receiver (91), one of the radio receiver (90a , 90b) received radio signal (F) and the radio signal evaluates the signal quality of a radio channel between the protection device (1) and a radio receiver (90a, 90b) and the radio channel with the best signal quality is selected for sending an emergency signal (S).
    [26]
    26. The method according to any one of claims 18 to 25, characterized in that the emergency signal input (21) or the protective device (1) checks after a predetermined period of time whether the emergency signal (S) is still present, and at least one further switching action for voltage-free switching triggers another part of the mobile electrical distributor (10) if the emergency signal (S) is still present after the time period.
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20070230094A1|2006-04-04|2007-10-04|Carlson Curt S|Integrated, self-contained power distribution system|
    DE102013109258A1|2013-08-27|2015-03-05|Viebrockhaus Ag|Mobile power distributor and application device|CN112165818A|2020-10-29|2021-01-01|都美娟|Electrical cabinet|DE3903025A1|1989-02-02|1990-08-09|Asea Brown Boveri|Method for protecting individuals|
    DE4438063A1|1994-10-25|1995-05-24|Rene Haimerl|Wire free protection apparatus for work on voltage carrying parts|
    KR101856538B1|2016-11-02|2018-05-10|주식회사 희원정보통신|Eco-friendly wireless multi-tap system for cutting off standby power|
    WO2018114304A1|2016-12-23|2018-06-28|Omicron Electronics Gmbh|Apparatus and method for protecting a person from an electrical signal|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50097/2019A|AT521697B1|2019-02-08|2019-02-08|Mobile electrical distributor with emergency signal input|ATA50097/2019A| AT521697B1|2019-02-08|2019-02-08|Mobile electrical distributor with emergency signal input|
    PCT/EP2020/052999| WO2020161241A1|2019-02-08|2020-02-06|Mobile electrical distributor having a distress-signal input|
    EP20703752.4A| EP3921907A1|2019-02-08|2020-02-06|Mobile electrical distributor having a distress-signal input|
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