DE7732806U1 - Electricity meter with deposit device - Google Patents

Description

Electricity meter with reading device

The innovation relates to an electricity meter with a reading device of the Art.

Well-known electricity meters Bind e.g. as maximum electricity meters with and without a maximum accumulation mechanism made up of electromechanical assemblies. They form a housing enclosed, a unit with a measuring mechanism and a reading device. Gear drives provide the control connection between the hoist and the reading device, which has, for example, number drums here. After the count has been read from the position of the number drums, it can be reset to zero, whereby the accumulated status is transferred to the accumulation counter if necessary.

At many electricity companies, the resetting of the counter secured against fraudulent actions is carried out by the authorized Reading carried out by hand in predetermined periods. Either one that fits into an existing lock on the meter must be used Use a key or remove a seal on the rear part that serves as a safeguard. After implementation When resetting, the meter must be given a new seal. Reading the accumulated level of energy consumed and the maximum level as well as resetting the Counter or the storage device by the reader by hand is complex and time-consuming. With modern electronic Counters, which are increasingly used, is

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they are undesirable.

In addition, scanning strip punches are also known that when Reading can be plugged onto the counter of the measuring mechanism and in this working position form a structural unit with the measuring mechanism; these devices require special plug-in couplings and are provided with seals to avoid tampering by unauthorized persons be detached by the authorized person and then re-attached.

The innovation is based on the task »the electricity meter to improve with a modern electronic reading device ρ da3 the reading device for fast, simple and yet precise reading of not just one, but many corresponding measuring mechanisms can be used, without having to make a lot of manipulations.

The innovation is identified in the protection claim.

The fact that the measuring mechanism and the reading device are each an independent device part physically separate from the other device part avoids that each measuring mechanism always forms a structural unit with the reading device, which is made by mechanical control connections _/ such as gear drives or plug-in couplings. Rather, it is possible that one and the same reading device can be used to read many individual counter units, which only have the measuring mechanism, without the need to produce a structural unit by engaging mechanical plug-in connections, at least during the working position. Rather, the portable, physically independent reading device can also be arranged at a certain distance from the measuring mechanism in the working position, since the control connection takes place through wireless beam paths, in particular infrared beam paths. The authorized reading person only has to ensure that the beam path is particularly

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ders the reading device on the receiver of the measuring mechanism and the beam path of the transmitter of the measuring mechanism impinges on the receiver of the reading device in order to establish the control connections and to effect reading and resetting. Such measures, also referred to as transponder method a, are in other areas the technology already known, so that it is superfluous here, details about the training, the arrangement or the orientation to describe such radiation transmitters and receivers here.

However, an exemplary embodiment is explained in more detail below with the aid of a figure showing a schematic block diagram.

The electricity meter with reading device consists of a completely closed meter, the so-called measuring mechanism 1, with a first transmitting and receiving unit 2 included in its circuit and with a reset and storage device 3 and in addition, the reading device is provided with a second transmitting and receiving unit 4 and is spatially separated from the measuring mechanism 1 5 forming control unit. The sending and receiving

The first unit 2 of the counter or measuring mechanism 1 has a receiver 6 which, in the working position, lies in the beam path SGy of a second transmitter 7 of the second transmitting and receiving unit 4 of the reading device 5. It also has a first transmitter 3, in whose beam path _{SG Q} a second receiver 9 of the second transmitting and receiving unit 4 of the reading device is arranged in the working position. The first transmitter 8 has a coding device, not shown, which serially transmits information corresponding to the accumulated status of the measuring mechanism 1 in coded form after amplification in an amplifier via a transmitter. This information is received by the second receiver 9 of the reading device 5, which is provided with recording and decoding electronics, and is recorded by means of a recording device on a data carrier, for example on a magnetic tape or in an electronic memory with captive information. Such a memory can be formed, for example, by an MNOS circuit. The quartz-controlled second

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Transmitter 7 in the reading device 5 forming the control device has coding electronics and an amplifier and transmitter element as well as one for controlling the processes of the reading device 5 serving control electronics 11. The circuit groups mentioned here are individually known per se and are therefore not shown in more detail in the drawing.

The resetting and storage device 3 included in the circuit of the measuring mechanism 1 and the first transmitting and receiving unit 2 can be in control connection with a microprocessor The accumulated consumption of electrical energy and the average power are stored in its memory will.

The wireless control connections established by the beam paths SGy and SG ₈ between the transmitters 7 and 8 and the corresponding receivers 6 and 9 can be implemented primarily with the aid of light »high frequency, in particular industrial frequency, and sound, in particular ultrasound. In general, electromagnetic waves or electrical and magnetic fields or sound waves are used to establish the wireless connections. For security reasons, each of the two transmitter and receiver pairs 7, 8 or 6, 9 can work with a physically different transmission channel, e.g. the first wireless connection with infrared light, the other wireless connection with ultrasound, etc.

A telegram transmitted by the second transmitter 7 in the working position for the purpose of reading and resetting consists in the exemplary embodiment described of a start pulse, eight locking pulses and a reading and resetting pulse. Similar to double commands in ripple control technology, the first half of each pulse is evaluated with ¹¹ O ", the second half with ¹¹ I". The start pulse triggers a counting sequence 1 to 10 and sets a memory in the reset and storage device

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of the measuring mechanism 1. If one or more bits of the telegram are correct n with a preprogramming of the receiver 6 of the measuring mechanism 1 does not match, or if the counting sequence is incorrect, then the Memory deleted and the telegram not evaluated. Otherwise the first half of the reading and reset impulse triggers a control command for the reading of the measuring mechanism 1, the transmitter 8 of the measuring mechanism 1 through the second half of this Pulse is activated.

The operations that take place when reading the electricity meter reading and play when resetting the same are as follows:

The person reading the counter reading of the measuring mechanism 1 switches the portable reading device in the immediate vicinity of the measuring mechanism 1 5 a. The transmitted telegram is received by the receiver 6 of the measuring mechanism identified by an address. It will a signal to broadcast the count is triggered. The transmitter 8 of the measuring mechanism 1 transmits the memory contents of its storage device and with it the information about the drawn energy and average power serially to the physically separated from it Reading device 5 in which the information is received by the receiver 9 and recorded in the registration device 10. The filing device 5 acknowledges this data by repeating it via the transmitter 7. If the repetition is error-free » the measuring mechanism 1 or the counter is reset, otherwise the entire process is repeated.

The Vcirprogrammierung of the receiver 6 of the measuring mechanism 1 as well as the Encrypted reading and reset commands protect the electricity meter or the measuring mechanism 1 against fraudulent activities, because the reading and resetting process is only carried out with the help of the correct telegram, which is also different from the one described here can be designed, is initiated. Reading is quick and error-free, and resetting is easy Wisely and, above all, quickly, because that was what was needed so far

Patent attorneys
Dipl. Ing. Rans-Jtirgen Müller Dr. rer. nat. Thoraas Berendt Dr.-Ing. Hans Leyh

Luclle-Grahn-Strasse 38 D 8 Munich BO

..S W (paif) 155/78
;; öeuttechö utility model aneldi '. * ·' *. '*> ft? 7-'32' 806.4 - LGZ, Landis &

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Tampering with a key or the removal and reapplication of a seal or use There is no need for special plug-in couplings. The reading device 5 does not need for this purpose directly up to the Mewwwerk 1 or even partially into or out of this this to be attached. It is sufficient if the beam paths of the transmitters of the two parts of the device are in the working position meet the recipients of the other device set, even if there is a physical distance between the physically separated, independent device parts, the Mefiwerk 1 on the one hand and the reading device 5 on the other hand, is feasible.

In addition, it should be noted that not all of the features mentioned in the preamble of the claim are related to one and the same subject matter are known and represent the state of the art in this form, which is summarized in the preamble. Nonetheless, protection for the Features of the preamble of the protection claim not claimed will.

Claims (1)

I It r ί · ι. J ι ο ι ϋ Patent attorneys ·! ■ '· / ', »'*., *' Dr.-Ing. Hans Leyh 17 μ «-» 1Q80 L _U cll.-Gr _U hn-S », oe _e 3aD8Mü" ch _e "e0" ⁹ HJH / Na, PA 1947 Claim to protection Electricity meter with a heating mechanism and with a reading device, in which the heating mechanism has a resettable memory device for storing the measured values corresponding to the energy consumption and the reading device has a recording device for registering or displaying the measured values and in which the measuring mechanism and the reading device each have a transmitter and each have a receiver »with the help of which a mutual control connection in the form of wireless beam paths, in particular infrared beam paths, can be established for the transmission of the measured values from the storage device to the reading device and for resetting the storage device, characterized in that the measuring mechanism (1) and the reading device {5) are each an independent device part that is physically separate from the other device part.