EP3382793A1 - Electrotechnical device - Google Patents

Abstract

The invention relates to an electrotechnical device, consisting of a conductive, metallic housing for receiving electronic components, wherein the housing has at least one access opening, which can be closed by a flap, door or the like means. According to the invention, at least one of the electronic components is designed as a measuring and measuring data transmitting device, wherein the data to be transmitted and / or to be received are transmitted wirelessly. The Meßdatensendeeinrichtung communicates with an excitation and feeding device, wherein in the wall of the housing a group of adjacent slot-shaped recesses is introduced, the slot length and slot width are tuned to the selected frequency band for wireless transmission and the exciter and feeder device housing side in the Slots is arranged.

Description

The invention relates to an electrotechnical device, comprising a conductive metallic housing for receiving electronic components, wherein the housing has at least one access opening, which can be closed by a flap, door or the like means according to claim 1.

From the German utility model DE 20 2016 002 294 U1 For example, an electronic device with a metal housing wall forming a base plate is previously known. The metal case wall has a slot forming a slot antenna resonating element for a hybrid antenna. In addition, there is an antenna resonating element for the hybrid antenna and a tunable component for adjusting the hybrid antenna. Preferably, a planar inverting F antenna resonant element is used as the indirect feed structure for the slot antenna resonant element.

In the electronic devices according to DE 20 2016 002 294 U1 These are portable computers and mobile phones that are capable of communicating wirelessly with other portable devices, for example via a Bluetooth interface. The accommodation of antennas necessary for this must take into account the high packing and device density in the corresponding mobile phone and, moreover, ensure that the penetration of dust, moisture or the like is effectively prevented by such slot antennas.

In the electronic device, designed as a mobile phone according to DE 20 2016 006 358 U1 , is again assumed by a metallic housing. A non-millimeter-wave antenna has a dielectric gap separating non-millimeter-wave conductive antenna structures, the dielectric gap of the non-millimeter-wave antenna being a window for one Millimeter wave antenna forms. The millimeter wave antenna is mounted within the housing and receives high frequency signals through the aforementioned antenna window. The antenna window presents itself as a plastic-filled opening in the metal housing.

The DE 10 2013 114 205 A1 discloses a slot antenna and its use in an information transmitting device. The information sending device is a portable computer or a mobile phone. The proposed slot antenna has at least one slot which is formed at a corner and an edge of the conductive housing. The slot may also be formed on two or more sides having the sides and bottom at the corner and edge of the conductive housing.

To monitor the energy consumption but also in the field of energy production by photovoltaic devices, an up-to-date collection of consumption or generation data must be increasingly possible. In this regard, so-called smart meters are used, which evaluate the energy consumption over the course of the day, for example, or provide data on the amount of energy generated by a photovoltaic system in order to selectively switch consumers on or to disconnect them from the grid. A transmission of this data is wireless to a guidance unit, which is then able to solve the aforementioned, briefly outlined control tasks.

Usually smart meters are used in meter boxes, the problem is that such cabinet-like housing for receiving electrical components made of a metallic, conductive material. Such a metallic housing shields against high-frequency radiation, so that up to now it was necessary to provide discrete transmission devices or corresponding antennas for wireless data transmission outside the housing.

From the foregoing, it is therefore an object of the invention, an advanced electrical device consisting of a indicate metallic housing for receiving electronic components, which is modified so that without additional effort data that are supplied, for example, from a smart meter, wirelessly to the environment, for example, to a control center, can be transmitted.

The object of the invention is achieved with the teaching according to the feature combination according to claim 1, wherein the dependent claims represent at least expedient refinements and developments.

According to the invention, at least one of the electronic components is designed as a measuring and measuring data transmitting device and is located inside the metallic housing.

The data to be sent but also to be received are transmitted wirelessly.

The measuring data transmitting device is in this connection with an excitation and feeding device in connection.

In the wall of the housing according to the invention a group of adjacent slot-shaped recesses is introduced, wherein the slot length and the slot width are tuned to the desired frequency band for wireless transmission.

The excitation and feeding device is then preferably arranged inside the housing in the region of the slots.

Thus arises in the housing a group of slot antennas, which are energized in a conventional manner.

The slots inside the housing do not show the desired effect as slot radiators from the outside and could also be interpreted as classic ventilation slots. If required for protection reasons, the slots can protect against Ingress of moisture can be sealed or glued over with a dielectric agent.

It is within the meaning of the invention that even slots already provided structurally in the corner or edge region of the housing can be used as a slot antenna radiator or modified accordingly, without departing from the basic idea of the invention.

Preferably, the slot-shaped recesses in the region of a side wall and / or a flap or door of the housing are formed. Thus, for the purpose of retrofitting an existing slot-free door replaced by a door with slot and thus the housing can be upgraded.

The housing is preferably designed as a cabinet, meter cabinet or house connection box or similar cabinet-like structure.

The excitation and feeding device can be realized as a printed circuit board with a corresponding excitation structure.

In the area of the slot-shaped recesses, in a preferred development of the invention, haptic, optical or visual and / or latching means are provided for the exact positioning of the excitation and feeding device.

The excitation and feeding device can be clamped, adhesive but also fixed by means of magnetic means on the housing wall.

In cases where a door or a flap of a control cabinet or the like device may need to be removed, a dining antenna according to the invention is fixedly arranged in the relevant electrical device, for example on a DIN rail or on the rear wall of a related housing. Via a waveguide-like channel structure from the attachment point of the antenna to a point of contact of the closed door or flap, which then meets slot antennas of the door or flap, finds a stimulus the slots as a coupled antenna or directly according to the Yagi principle instead. In this way, a local separation between feed antenna and radiating antenna to avoid cables or the like in the electrical device is possible.

Alternatively, it is conceivable that a feed antenna permanently integrated in the control cabinet or the electrical device is positioned such that it interacts with the slot antenna structures present there when the door or flap is closed, in particular touching the slot antenna structure in terms of the necessary high-frequency-side coupling.

The invention will be explained in more detail using an exemplary embodiment and with the aid of figures.

This shows Fig. 1 an exemplary representation of a metallic housing wall, for example, a door 1 of a control cabinet 2 with exemplary slots 3 defined width and length, each adapted to a frequency band. For example, for the LTE bands 450 MHz, 698-960 MHz or 1710-2620 MHz are executable.

Preferably the housing interior side is the excitation structure 4 for feeding the slots. The coupling takes place here, for example capacitive. Corresponding holding devices mechanically secure the excitation structure.

An exemplary representation of such an exciter structure 4 shows Fig. 2 , The excitation structure is formed here on a circuit board 5 and is connected via a connecting line 6 with plug 7 with a measuring data transmitting device 8 (see Fig. 1 ) in connection.

The Fig. 3 shows a perspective view of a conductive control cabinet 2, for example, designed as a power meter cabinet with smart meter 8, fixed on a DIN rail 9. The slot antennas 3 are located here in the door 1 of the cabinet. 2

From the outside of the door 1, only the slots 3, but not the exciter structure are visible.

In an alternative according to Fig. 4 can be used as antenna with favorable dimensions along the edges a and b of a Schaltungskwandung these edges, in which case an exciter unit 4 is placed according to the intersection of the edges.

In the embodiment according to Fig. 5 It is assumed that it is advantageous in certain applications not to provide a connecting line between the slot antenna 3 and the excitation structure 4.

In this regard, according to the example Fig. 5 the excitation structure 4 via a waveguide assembly 10 with the slot antenna 3, which is located in the example shown in the door 1, in high frequency side connection.

The actual radiator or the excitation structure 4 with connected waveguide 10 can in turn be fixed here on a DIN rail 9 in the interior of the housing 2 of the electrical device. With the closing of the door 1 of the housing 2, the required spatial association between the excitation structure 4 and the open waveguide 10 is produced. The waveguide structure 10 may, as in the Fig. 5 also shown to be telescopically constructed, whereby an adaptation to different housing dimensions is possible.

Claims (8)

Electrotechnical device, consisting of a conductive, metallic housing for accommodating electronic components, wherein the housing has at least one access opening, which can be closed by a flap, door or the like means,
characterized in that
at least one of the electronic components is designed as a measuring and measuring data transmitting device, wherein the data to be transmitted and / or to be received are transmitted wirelessly,
the measuring data transmitting device is connected to an excitation and feeding device,
in the wall of the housing, a group of adjacent slot-shaped recesses is introduced, wherein the slot length and slot width are tuned to the selected frequency band for wireless transmission and the exciter and feeder device is disposed inside the housing in the region of the slots. Electrotechnical device according to claim 1,
characterized in that
the slot-shaped recesses are formed in the region of the flap or door and / or of side walls. Electrotechnical device according to claim 1,
characterized in that
the slot-shaped recesses are formed in the region of the outer edges of the housing, wherein constructively existing slots can be integrated into the slot structure. Electrotechnical device according to one of the preceding claims,
characterized in that
the housing is designed as a control cabinet, meter cabinet, house connection box or similar cabinet structure. Electrotechnical device according to one of the preceding claims,
characterized in that
the excitation and feeding device is designed as a circuit board with excitation structure. Electrotechnical device according to one of the preceding claims,
characterized in that
haptic, optical and / or latching means are provided in the region of the slot-shaped recesses for the exact positioning of the excitation and feeding device. Electrotechnical device according to one of the preceding claims,
characterized in that
the excitation and feeding device is clamped, adhesive or magnetically fixed to the housing wall. Electrotechnical device according to one of the preceding claims,
characterized in that
this is stationary.

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