EP3272467B1 - Système d'agencement adaptateur - Google Patents
Système d'agencement adaptateur Download PDFInfo
- Publication number
- EP3272467B1 EP3272467B1 EP17182252.1A EP17182252A EP3272467B1 EP 3272467 B1 EP3272467 B1 EP 3272467B1 EP 17182252 A EP17182252 A EP 17182252A EP 3272467 B1 EP3272467 B1 EP 3272467B1
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- European Patent Office
- Prior art keywords
- adapter arrangement
- interface
- electrical
- data
- radio module
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25F—COMBINATION OR MULTI-PURPOSE TOOLS NOT OTHERWISE PROVIDED FOR; DETAILS OR COMPONENTS OF PORTABLE POWER-DRIVEN TOOLS NOT PARTICULARLY RELATED TO THE OPERATIONS PERFORMED AND NOT OTHERWISE PROVIDED FOR
- B25F5/00—Details or components of portable power-driven tools not particularly related to the operations performed and not otherwise provided for
Definitions
- the invention relates to a system having at least one first adapter arrangement, which on the one hand can be connected to an electric machine tool, and at least one second adapter arrangement, which on the other hand can be connected to an electric device.
- the invention also relates to a method for monitoring and controlling a system.
- a system can be used for every imaginable electrical device and thus in particular for use with an electric machine tool on the one hand and for supplying at least one electrical device on the other hand, in particular a light source and / or a suction device and / or a heater and / or a ventilation device and / or a filter device , suitable.
- a system comprising an electric machine tool and a suction device can be regarded as a particularly suitable system.
- electric machine tools are understood to mean both devices that are supplied with energy in a wired manner from the power supply system or wirelessly from one or more battery packs or battery packs.
- the suction hose which is already rigid and difficult to move, is now even more difficult to handle than before due to the power cord woven into it, which makes accurate or filigree work unnecessarily difficult, especially with hand-held electric machine tools.
- a suction device is used to separate particles from a suction flow when operating a handheld power tool having a drive motor for driving a tool.
- the suction device it is provided that it has a suction device communication device for communication with an external communication device to be operated at a distance from the suction device housing in connection with the handheld power tool.
- the object of the present invention is to provide a system of an adapter arrangement that enables convenient and automatic operation of a wide variety of electrical devices, starting from an electrical machine tool.
- the at least one first adapter arrangement comprises a radio module for transmitting data to the at least one second adapter arrangement
- the at least one second adapter arrangement comprises a radio module for receiving data from the at least one first adapter arrangement and also for providing or disconnection of an electrical connection between the electrical device connected to the second adapter arrangement and an electrical energy source is provided and for this purpose has an input-side interface and an output-side interface and a controllable switching device, the controllable switching device being electrically connected to the radio module for receiving data and being set up for this purpose is to optionally provide or disconnect an electrical connection between the input-side interface and the output-side interface.
- the electric drill can now bring about the synchronous connection of the light source and the suction device by simply changing the first adapter arrangement from the electric saw to the electric drill.
- the additional power tool in the example the drill, can be equipped with a further first adapter arrangement which controls the two second adapter arrangements.
- the radio module is set up to transmit data and / or the radio module is set up to receive data for operation with at least one transmission frequency and / or for operation in at least one frequency range, in particular within the ISM band.
- An operating range that comprises several transmission frequencies can be advantageous in order to increase the flexibility of the system. This makes it possible to coordinate the radio modules of the adapter arrangements with one another and to take account of local conditions, for example disturbed or forbidden frequency ranges. If the system is operated within the ISM band (Industrial, Scientific and Medical Band), quick and uncomplicated approval can be expected, especially in Germany.
- ISM band Industrial, Scientific and Medical Band
- the radio module is or are set up to transmit data and / or the radio module to receive data for operation with at least one communication protocol.
- a communication protocol means, in particular, a radio protocol and / or a type of coding of the data transmission.
- the radio module is or are set up to transmit data and / or the radio module to receive data can be set with respect to the transmission frequency and / or the frequency range and / or the communication protocol.
- a user of the system coordinates or couples the radio modules with one another as desired.
- coordination can take place during manufacture or before delivery.
- a setting with regard to the transmission frequency and / or the frequency range and / or the communication protocol can be made from a switch position, for example a DIP switch system, an internal data memory, or it can be automated depending on the other radio modules in the communication area.
- the radio module for the transmission of data and / or the radio module for the reception of data are set up on the respective counterpart in a teachable manner.
- the first adapter arrangement can be used to monitor, record and then duplicate an independently occurring communication process between a third-party device and the second adapter arrangement in order to be able to control the second adapter arrangement itself - similar to what is known, for example, from adaptive multifunctional remote controls for media devices is.
- the system can be used by all manufacturers thanks to an adaptive radio module of one or both adapter arrangements.
- controllable switching device of the at least one second adapter arrangement is implemented as at least one digital circuit and / or at least one analog circuit and / or at least one microcontroller. Any technically known and proven measure for realizing the controllable switching device can therefore be provided.
- the at least one first adapter arrangement has a first interface that is designed to be electrically and / or mechanically compatible with a battery pack receiving interface of the power tool, and also has a second interface that is electrically and / or mechanically compatible with at least one interface a battery pack is designed for the power tool and / or has at least one battery pack itself.
- the first adapter arrangement can be used in a convenient manner as an intermediate piece between the electric machine tool and the battery pack.
- the first adapter arrangement itself is designed as a battery pack and replaces an existing battery pack.
- the at least one first adapter arrangement has a monitoring device which is set up to indicate whether the power tool connected to the first adapter arrangement is active or inactive, and based on this, to cause the radio module of the first adapter arrangement to send data to the to transmit at least one second adapter arrangement.
- the monitoring device can cause the radio module to transmit data relating to the change in the operating state.
- the radio module transmits status data or the operating state at any point in time and the controllable switching device of the second adapter arrangement is controlled based on the received status data.
- the first adapter arrangement can automatically cause the second adapter arrangement to put the electrical device or devices connected to it into operation without the user having to make an additional input on the electric machine tool or the first adapter arrangement.
- the first interface and the second interface of the at least one first adapter arrangement have an electrical connection to one another in order to pass on electrical supply signals from the second interface to the first interface and / or to transmit electrical data signals between the first interface and to make the second interface interchangeable in such a way that the power tool can receive the electrical supply signals from the at least one battery pack and / or can exchange the electrical data signals with the at least one battery pack, and wherein the monitoring device is set up to receive the electrical supply signals and / or To monitor data signals at least partially, and is electrically connected to the radio module for the transmission of data to the radio module for the transmission of data as a function of the monitored electrical supply signals and / or data cause n signals to send data.
- Radio module of the first adapter arrangement to be able to send status data, in particular relating to electrical supply signals and / or data signals, to the second adapter arrangement at any point in time or continuously send, the evaluation of the data being carried out by the latter, or only transmitted status change data.
- the first adapter arrangement basically acts in an electrically neutral manner when used between the electric machine tool and a battery pack of the electric machine tool.
- the electric machine tool can exchange data signals unchanged or undisturbed with the at least one battery pack and receive the electrical supply signals from the at least one battery pack without losses or interference.
- the monitoring device is set up to at least partially monitor vibrations on the electric machine tool, an alignment of the electric machine tool or a tilted state of the electric machine tool.
- a shaking sensor or one or more acceleration sensors can be used to easily detect whether a user is using or would like to use the electric machine tool. Any influencing of the electrical signals between the electric machine tool and the at least one battery pack by monitoring the signals can thus be completely avoided.
- the monitoring device of the at least one first adapter arrangement is implemented as at least one digital circuit and / or at least one analog circuit and / or at least one microcontroller.
- the monitoring device comprises an ammeter for measuring a current flow between the first interface and the second interface of the at least one first adapter arrangement.
- the current measurement is a conceivable implementation. which indicates operation of the power tool.
- it can also be provided to monitor electrical voltage fluctuations of the at least one battery pack, as a result of which it can be concluded that there is a change in an operating state of the electric machine tool. It is also conceivable to use a power meter as part of the monitoring device.
- the monitoring device can be designed to monitor digital control signals from the power tool and / or digital control signals from the at least one battery pack.
- a current measuring device when using the first adapter arrangement in combination with a mains-operated electric machine tool, a current measuring device, a voltage measuring device or a power measuring device for monitoring a current flow or voltage fluctuations or a power flow between the first interface and the second interface of the at least one first Use adapter assembly.
- the monitoring device detects the discrete operating states “on” and “off”. In a further development, however, it can also be provided that the monitoring device, for example based on the current measurement or the monitoring of digital control signals, recognizes an operating state of the power tool in many stages or even continuously and depending on the electrical energy that is consumed in the power tool, or on the basis of information that can be obtained from the digital control signals, causes the radio module to transmit data to send data. An electrical device can then, for example, only be switched on as a function of a previously selected threshold value. An electrical device is only switched on, for example, when the electrical machine tool is used under full load.
- an electrical device such as a suction device
- a time delay or minimum operating time of the electric machine tool can also be provided when the electric device is switched on.
- a power regulation takes place in the at least one electrical device as a function of the power used by the electrical machine tool.
- the invention also relates to a method for monitoring and control according to claim 6.
- the monitoring device causes the radio module to send at least one “on” data when the electric machine tool is charged with the power, and to send at least one "off” date when the power tool is not charged with power.
- the step of monitoring electrical supply signals includes measuring a current flow in at least one of the supply signals and / or data signals by means of an ammeter.
- At least one digital circuit and / or at least one analog circuit and / or at least one microcontroller coordinates and / or controls and / or evaluates the monitoring of the supply signals as part of the monitoring device.
- FIG 1 A system is shown that has a first adapter arrangement 1 for use with an electric machine tool 2 in the form of an electric hand drill 2 and a second adapter arrangement 3 for the electrical supply of at least one electrical device 4 (cf. Figure 6 ) having.
- a first adapter arrangement 1 for use with an electric machine tool 2 in the form of an electric hand drill 2
- a second adapter arrangement 3 for the electrical supply of at least one electrical device 4 (cf. Figure 6 ) having.
- the invention is described throughout the exemplary embodiments using an electric hand drill 2, the invention is of course suitable for any electric machine tool 2.
- the second adapter arrangement 3 is designed in such a way that any 230 volt electrical device 4 can be used with it.
- the second adapter arrangement 3 can also be designed in such a way that any electrical device 4 operated with high voltage can be used with it.
- a light source 4.1 (cf. Figure 4 )
- a suction device 4.2 (cf. Figure 3 )
- a heater for example, a heater, a ventilation device, a filter device or any other electrical device 4 can be connected to the second adapter arrangement 3.
- the system is particularly preferably used in combination with a suction device 4.2.
- the second adapter arrangement 3 can also be designed in such a way that it can operate two or more electrical devices 4 directly.
- the first adapter arrangement 1 has a first interface 1.1, which is designed to be electrically and mechanically compatible with a battery pack receiving interface of the electric hand drill 2, and a second interface 1.2, which is electrically and mechanically compatible with at least one interface 6.1 of a battery pack 6 for the electric hand drill 2 is trained.
- the first adapter arrangement 1 can thus comfortably be used as an intermediate piece between the electric hand drill 2 and its battery pack 6.
- a radio module FM 1 (cf. Figure 5 ) provided for the transmission of data to the second adapter arrangement 3.
- the second adapter arrangement 3 has a radio module FM 2 (cf. Figure 6 ) to receive the data.
- the second adapter arrangement 3 further comprises an input-side interface 3.1 as well as an output-side interface 3.2 and a controllable switching device 3.3 (cf. Figure 6 ).
- the controllable switching device 3.3 is set up to connect the input-side interface 3.1 to the output-side interface 3.2 as a function of the data received via the radio module FM 2, whereby an electrical device 4 can be supplied with electrical energy.
- an operating state of the electric hand drill 2 is recognized within the first adapter arrangement 1 and, depending on this operating state, a further electrical device 4 can be put into operation or put out of operation via the second adapter arrangement 3.
- a light source 4.1 or a suction device 4.2 can be switched on at the same time when the electric hand drill 2 is started up.
- the adapter arrangements 1, 3 can be matched to one another, wherein, for example, a communication protocol or coding can be selected via DIP switches 7 on one or both adapter arrangements 1, 3.
- Figure 2 shows an embodiment in which the first adapter arrangement 1 serves as a replacement for at least one battery pack 6, in that the first adapter arrangement 1 itself comprises at least one battery pack 6.
- the first adapter arrangement 1 can in this case for communication with a second adapter arrangement 3 according to an embodiment as in FIG Figure 1 can be used. But it can, as in Figure 2 It can also be provided that a second adapter arrangement 3 is used, which is not intended for use with a network-connected electrical device 4, but for use with an electrical device 4 operated by battery packs 6 or battery packs.
- the second adapter arrangement 3 can be similar to the first adapter arrangement 1 of the first embodiment of FIG Figure 1 be trained.
- the second adapter arrangement 3 can then comprise an output-side interface 3.2, which is designed to be electrically and mechanically compatible with an interface of a battery pack 6.1 or a battery pack receiving interface of the electrical device 4, for example a further electric machine tool 2, and also have an input-side interface 3.1, which is designed to be electrically and mechanically compatible with an interface of a battery pack 6 for the electrical device 4 and / or itself have at least one battery pack 6.
- an output-side interface 3.2 which is designed to be electrically and mechanically compatible with an interface of a battery pack 6.1 or a battery pack receiving interface of the electrical device 4, for example a further electric machine tool 2
- an input-side interface 3.1 which is designed to be electrically and mechanically compatible with an interface of a battery pack 6 for the electrical device 4 and / or itself have at least one battery pack 6.
- the adapter arrangements 1, 3 are designed to be adjustable and can optionally be used as a first adapter arrangement 1 or as a second adapter arrangement 3.
- a switch can be provided on the housing of the adapter arrangements 1, 3 for this purpose.
- FIG 3 an adapter plug 3 'according to the invention is shown which is advantageously used in a system according to the invention.
- the adapter plug 3 ' has an interface 3.1' which is designed as a 230 volt plug 3.1 'and can be plugged into a 230 volt socket 4.2.1 of a suction device 4.2. It is provided that a suction device 4.2 is used, which is automatically activated as soon as electrical energy is drawn from the 230 volt socket 4.2.1.
- the adapter plug 3 ' comprises a radio module FM 2 for receiving data (cf. Figure 7 ). It is provided in particular that one in the system described above and in Figure 3 First adapter arrangement 1, not shown again, transmits data relating to the operating state of an electric machine tool 2 to the adapter plug 3 '.
- the adapter plug 3 ' also has a controllable switching device 3.3 (cf. Figure 7 ), which have a load resistance R (cf. Figure 7 ) switches on, ie the 230 volt socket 4.2.1 of the suction device 4.2 is loaded with this when the received data indicate an active operating state of the electric machine tool 2.
- a mains-operated electric machine tool is emulated by the adapter plug 3 'on the 230 volt socket 4.2.1 of the suction device 4.2.
- the system according to the invention can therefore be used to establish compatibility even with a suction device 4.2, which is basically intended for use with a mains-operated electric machine tool.
- the adapter plug 3 ' is also in an operating state in which the power tool 2 is not in operation or in which the adapter plug 3' is in standby mode, i.e. in an operating state in which the load resistance R is not connected to the 230 volt socket 4.2.1, draws electrical energy from the 230 volt socket 4.2.1 of the suction device 4.2 in order to supply itself electrically. It must be ensured that the electrical energy required for this is below a threshold value from which the suction device 4.2 would activate.
- FIG 4 a further embodiment of a system according to the invention is shown. It is provided that a second adapter arrangement 3 in the embodiment of Figure 1 into a 230 volt socket 4.2.1 of a suction device 4.2 of an embodiment of the Figure 3 is plugged in. Finally, a further electrical device 4, in the exemplary embodiment a light source 4.1, can be connected to the second adapter arrangement 3.
- the second adapter arrangement 3 upon receipt of a data signal from a first adapter arrangement 1, which indicates an active operating state, for example an electric hand drill 2, switches on the light source 4.1 by connecting it to the 230 volt socket 4.2.1 of the suction device 4.2 is connected by the controllable switching device 3.3. Because the light source 4.1 draws electrical energy from the suction device 4.2 as a result, the suction device 4.2 switches on at the same time. The electrical energy that has to be drawn from the suction device 4.2 to emulate a mains-operated electric machine tool can thus be used sensibly.
- FIG. 5 a circuit diagram of an electric machine tool 2, the first adapter arrangement 1 and a battery pack 6 is shown schematically and by way of example.
- the diagram shows a consumer M of the power tool 2, which as a function of a mechanical switch 8 via the battery pack 6 electrically can be operated.
- the battery pack 6 one or more battery cells 6.2 can be provided in a series connection or a parallel connection. As an example, four battery cells 6.2 are provided in the exemplary embodiment.
- the first adapter arrangement 1 is arranged between the battery pack 6 and the electric machine tool 2. It is provided that the first adapter arrangement 1 is largely electrically neutral and forwards signals between the battery pack 6 and the electric machine tool 2 as unhindered as possible.
- the circuit diagram of Figure 5 only two supply lines 9 are shown for illustration. Of course, more than two supply lines 9 and / or one or more signal lines can also be provided.
- a monitoring device 1.3 which comprises a microcontroller ⁇ C 1 and an ammeter A.
- the ammeter A can be used to detect whether the electric machine tool 2 is in operation, that is to say the mechanical switch 8 is closed, the battery pack 6 supplies sufficient current and otherwise there is no fault. If a high current flow is determined as a result of the current measurement, the "on" operating state of the electric machine tool 2 can be inferred, otherwise the "off" operating state.
- the microcontroller ⁇ C 1 can evaluate the present operating state, for which purpose an analog-digital conversion of a measured value may take place on the input side.
- the monitoring device 1.3 is connected to the radio module FM 1 for the transmission of data and is designed to cause the radio module FM 1 to send data.
- the monitoring device 1.3 can cause the radio module FM 1, for example, to send at least one “on” data when the power tool 2 is supplied with power, and to send at least one “off” data when the power tool 2 is not supplied with power .
- a stepless evaluation of the operating state of the electric machine tool 2 can also be carried out. I. E. it can be determined in what capacity the electric machine tool 2 is operated. On the basis of this utilization, the signal for activating the at least one electrical device 4 can be sent, for example as a function of a threshold value.
- FIG 6 a circuit diagram of an electrical device 4, the second adapter arrangement 3 and an electrical energy source 10 is shown schematically.
- the electrical device 4 is, for example, a light source 4.1, which is put into operation when electrical energy is applied.
- the illustrated electrical energy source 10 can be an AC voltage source 10.1, so z. B. be a 230 volt mains power supply, a battery pack 6 or a battery pack or the like.
- the second adapter arrangement 3 connects the electrical energy source 10 to the electrical device 4, the circuit being able to be interrupted by a controllable switching device 3.3.
- the controllable switching device 3.3 can be, for example, a relay or a semiconductor circuit, for example a transistor.
- the controllable switching device 3.3 is connected to a microcontroller ⁇ C 2 and can be controlled by the latter, the microcontroller ⁇ C 2 evaluating the data received from the radio module FM 2 .
- the microcontroller ⁇ C 2 can either open or close the controllable switching device 3.3. This enables load signals and / or control signals to be switched. For example, it can be provided that after receipt of an “on” data, the circuit is closed and the electrical device 4 is thus put into operation.
- the circuit can be opened again. Provision can also be made to regulate the power of the electrical device 4 as a function of the received data from the radio module FM 2 and the evaluation by the microcontroller ⁇ C 1, for example in the form of a pulse width modulation.
- the adapter arrangements 1, 3 can also be used to forward further electrical signals than those shown unhindered or to forward them as a function of the exchanged data.
- an electrical protective conductor can be passed on from the mains socket to the electrical device 4 without hindrance.
- the first adapter arrangement 1 it can be provided that electrical data signals that are exchanged between the electric machine tool 2 and the at least one battery pack 6 can pass unhindered.
- monitoring of such data signals between the electric machine tool 2 and the at least one luggage pack 6 can also be advantageous in order to identify an operating state of the electric machine tool 2.
- FIG. 7 schematically shows a circuit diagram of an adapter plug 3 '.
- the structure of the adapter plug 3 ' essentially corresponds to the structure of the second adapter arrangement 3 in FIG Figure 6 .
- an interface 3.1 'in the form of a 230 volt plug 3.1' is provided and the second interface 3.2 is omitted.
- a load resistor R is provided, which by the Controllable switching device 3.3 can be introduced into the circuit when the microcontroller ⁇ C 2 can infer an active operating state of the electric machine tool 2 on the basis of data received by the radio module FM 2.
- the load resistor R By connecting the load resistor R, electrical energy can be drawn from a socket into which the adapter plug 3 'is plugged. If it is a socket of an electrical device 4, which in this case switches on automatically, the electrical device 4 can advantageously be influenced by the adapter plug 3 'and integrated into a system according to the invention.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Remote Monitoring And Control Of Power-Distribution Networks (AREA)
- Secondary Cells (AREA)
- Portable Power Tools In General (AREA)
- Battery Mounting, Suspending (AREA)
Claims (6)
- Système comportant au moins un premier dispositif d'adaptation (1) qui peut être raccordé d'une part à un outil électrique (2) et d'autre part à au moins un second dispositif d'adaptation (3) qui peut être raccordé à au moins un appareil électrique (4), notamment à une source lumineuse (4.1) et/ou à un dispositif d'aspiration (4.2) et/ou à un dispositif de chauffage et/ou à un dispositif de ventilation et/ou à un dispositif de filtrage,dans lequel le au moins un premier agencement d'adaptateur (1) comprend un module radio (FM1) pour transmettre des données au au moins un deuxième agencement d'adaptateur (3),et dans lequel le premier agencement d'adaptateur (1) a une première interface (1.1) qui est conçue pour être électriquement et/ou mécaniquement compatible avec une interface de réception de bloc batterie de la machine-outil électrique (2), et a en outre une seconde interface (1.2) qui est conçue pour être électriquement et/ou mécaniquement compatible avec au moins une interface (6.1) d'un bloc batterie (6) pour la machine-outil électrique (2) et/ou a elle-même au moins un bloc batterie (6),dans lequel l'au moins un deuxième dispositif d'adaptation (3) comprend un module radio (FM2) pour recevoir des données de l'au moins un premier dispositif d'adaptation (1) et est en outre prévu pour établir ou couper une liaison électrique de l'appareil électrique (4) relié au deuxième dispositif d'adaptation (3) avec une source d'énergie électrique (10) et présente à cet effet une interface côté sortie (3.2) pouvant être reliée à l'au moins un appareil électrique (4) et un dispositif de commutation commandable (3.3),et dans lequel un dispositif de commutation contrôlable (3.3) est connecté électriquement au module radio (FM2) pour recevoir des données,caractérisé en ce que- le au moins un deuxième dispositif d'adaptation (3) présente une interface côté entrée (3.1) qui peut être reliée à la source d'énergie électrique (10) et au dispositif de commutation commandable (3.3),- le deuxième dispositif adaptateur (3) est disposé entre le au moins un appareil électrique (4) et la source d'énergie électrique (10), et- le dispositif de commutation contrôlable (3.3) est agencé pour fournir ou déconnecter sélectivement une connexion électrique de l'interface côté entrée (3.1) à l'interface côté sortie (3.2).
- Système selon la revendication 1,
dans lequel le module radio (FM1) pour la transmission de données et/ou le module radio (FM2) pour la réception de données est/sont configurés de manière réglable en ce qui concerne la fréquence de transmission et/ou la gamme de fréquences et/ou le protocole de communication. - Système selon l'une quelconque des revendications précédentes, dans lequel le au moins un premier agencement d'adaptateur (1) comprend en outre un dispositif de surveillance (1.3) agencé pour indiquer si l'outil électrique (2) connecté au premier agencement d'adaptateur (1) est actif ou inactif et, sur la base de cela, pour amener le module radio (FM1) du premier agencement d'adaptateur (1) à transmettre des données au au moins un deuxième agencement d'adaptateur (3).
- Système selon la revendication 3, dans lequel la première interface (1.1) et la deuxième interface (1.2) de l'au moins un premier agencement d'adaptateur (1) ont une connexion électrique l'une avec l'autre afin de faire passer des signaux d'alimentation électrique de la deuxième interface (1.2) à la première interface (1.1) et/ou afin de rendre les signaux de données électriques interchangeables entre la première interface (1.1) et la deuxième interface (1.2). 2) de telle sorte que l'outil électrique (2) puisse recevoir les signaux d'alimentation électrique de la au moins une batterie (6) et/ou puisse échanger les signaux de données électriques avec la au moins une batterie (6), et dans lequel le dispositif de surveillance (1. 3) est disposé pour surveiller au moins partiellement les signaux d'alimentation électrique et/ou les signaux de données et est connecté électriquement au module radio (FM1) pour transmettre des données afin d'amener le module radio (FM1) pour transmettre des données à envoyer des données en fonction des signaux d'alimentation électrique et/ou des signaux de données surveillés.
- Système selon l'une quelconque des revendications 3 ou 4, dans lequel le dispositif de surveillance (1.3) comprend un dispositif de mesure de courant (A) pour mesurer un flux de courant entre la première interface (1.1) et la deuxième interface (1.2) de l'au moins un premier agencement d'adaptateurs (1).
- Procédé de surveillance et de contrôle d'un système selon l'une quelconque des revendications 1 à 5, comprenant les étapes suivantes :- surveillance des signaux d'alimentation électrique d'au moins un bloc de batteries (6) pour alimenter un outil électrique (2) par un dispositif de surveillance (1.3),- évaluer les signaux d'alimentation électrique surveillés afin de détecter un état de fonctionnement de l'outil électrique (2), en particulier afin de déterminer si l'outil électrique (2) est en service ou doit être mis en service,- transmettre des informations sur l'état de fonctionnement de l'outil électrique (2) par l'intermédiaire d'au moins un module radio (FM1) du dispositif d'adaptation (1) ;- recevoir des données concernant un état de fonctionnement d'un outil électrique (2) par l'intermédiaire d'un module radio (FM2) d'au moins un deuxième dispositif adaptateur (3) ;- commander un dispositif de commutation commandable (3.3) pour, au moyen de ce dernier, connecter au moins partiellement une interface côté entrée (3.1) à au moins une interface côté sortie (3.2) en fonction des données reçues et ainsi établir sélectivement une connexion électrique d'au moins un appareil électrique (4) connecté à l'interface côté sortie (3. 2), en particulier une source de lumière (4.1) et/ou un dispositif d'aspiration (4.2) et/ou un dispositif de chauffage et/ou de ventilation et/ou un dispositif de filtrage, à une source d'énergie électrique reliée à l'interface (3.1) du côté de l'entrée.
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DE102016113579.8A DE102016113579A1 (de) | 2016-07-22 | 2016-07-22 | Adapteranordnungssystem |
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EP3272467A1 EP3272467A1 (fr) | 2018-01-24 |
EP3272467B1 true EP3272467B1 (fr) | 2021-12-22 |
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EP17182252.1A Active EP3272467B1 (fr) | 2016-07-22 | 2017-07-20 | Système d'agencement adaptateur |
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DE (1) | DE102016113579A1 (fr) |
Families Citing this family (12)
Publication number | Priority date | Publication date | Assignee | Title |
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GB2583591B (en) | 2012-07-17 | 2021-06-02 | Milwaukee Electric Tool Corp | Universal protocol for power tools |
CN111093452A (zh) | 2017-07-05 | 2020-05-01 | 米沃奇电动工具公司 | 用于电动工具之间的通信的适配器 |
US10510199B2 (en) | 2017-08-07 | 2019-12-17 | Milwaukee Electric Tool Corporation | Power tool with irreversably lockable compartment |
WO2019108621A1 (fr) | 2017-11-29 | 2019-06-06 | Milwaukee Electric Tool Corporation | Module de suivi pouvant être fixé à l'extérieur destiné à un outil électrique |
CA3050762A1 (fr) | 2018-07-31 | 2020-01-31 | Tti (Macao Commercial Offshore) Limited | Systemes et methodes de commande a distance d`un outil electrique |
DE102018124324B3 (de) * | 2018-10-02 | 2020-02-27 | Metabowerke Gmbh | Werkzeugmaschinensystem mit Ersatzlast |
DE102018217008A1 (de) * | 2018-10-04 | 2020-04-09 | Robert Bosch Gmbh | Vorrichtung zur kabellosen Energie- und/oder Datenübertragung |
US11665519B2 (en) | 2019-02-06 | 2023-05-30 | Milwaukee Electric Tool Corporation | Power tool with shared terminal block |
CN111660180B (zh) * | 2019-02-19 | 2023-09-08 | 创科无线普通合伙 | 用于多个电气装置以实现同步操作的适配器 |
EP4062719A4 (fr) | 2019-11-21 | 2024-01-03 | Milwaukee Electric Tool Corporation | Dispositif de communication sans fil insérable pour un outil électrique |
DE102021200967A1 (de) | 2021-02-03 | 2022-08-04 | Robert Bosch Gesellschaft mit beschränkter Haftung | Zubehörvorrichtung |
DE102022112034A1 (de) * | 2022-05-13 | 2023-11-16 | Einhell Germany Ag | Steuerung eines Elektrowerkzeugs und einer separaten Beleuchtungsvorrichtung |
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US20100199453A1 (en) * | 2009-02-09 | 2010-08-12 | Brotto Daniele C | Wireless particle collection system |
DE102012003073A1 (de) | 2012-02-17 | 2013-08-22 | Festool Group Gmbh & Co. Kg | Sauggerät mit einer Sauggerät-Kommunikationseinrichtung |
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DE102016113579A1 (de) | 2018-01-25 |
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