RU2136005C1 - Electricity meter with external positioning of pulse transducer - Google Patents

Abstract

FIELD: electrical engineering, electric measurement technology for metering and remote measurement of consumed electric energy. SUBSTANCE: electricity meter includes case, cover with transparent section of surface in lower part, rotating disc on lower side with light-absorbing section of surface in the form of contrast spot and housing with platform to mount optical pulse transducer under cover for direction of its optical axis at angle of highest sensitivity to contrast spot. Cover can have guiding grooves and housing can have protrusions to form mechanical engagement. EFFECT: provision for fast installation of optical pulse transducer and for protection of electric counter against unauthorized access. 1 cl, 5 dwg

Description

 The invention relates to the field of electrical engineering, in particular to electrical engineering, and is intended for metering and remote transmission of information about energy consumption.

 A device for remote measurement of energy consumption, containing an electric energy meter with a disk, a reflective spot in the form of a sector, a lighter and a photo sensor installed on the information processing unit [SU, 1164607, G 01 R 11/56, 1985].

 The disadvantage of the device is the complexity of its use for existing meter designs.

 The closest technical solution to the proposed combination of essential features and the achieved effect is an electric meter, including a housing, a cover with a transparent surface area, a rotating disk with a light-absorbing surface area and a casing with a platform for placing the optical pulse sensor with the possibility of arranging its optical axis perpendicular to the light-absorbing surface of the disk [GB, N 2172399, G 01 D 5/34, 1986].

 The disadvantages of the design presented in this patent are: unstable operation of the photosensor during registration of the rotation of the disk of an induction electric meter in different conditions of light and dust; the possibility of unauthorized access to an optical sensor that impedes the objective collection of information; lack of anti-tampering elements of the system design, representing its damage.

 The objective of the present invention is to develop a design that allows the quick installation of an optical pulse sensor on an electric meter, fulfilling the requirements of protection against unauthorized access, which is in operation for connecting it to an automated metering and control system of electricity without additional work.

 The problem is solved in the electric meter, including a cover with a transparent surface area, a rotating disk with a light-absorbing surface area and a casing with a platform for installing an optical pulse sensor with the possibility of directing its optical axis to the light-absorbing surface of the disk, due to the fact that the transparent section on the cover is made on its lower part under the rotating disk, the casing is mounted under the cover and mechanically connected with it and / or with the casing, and the casing platform for installing the optical sensor p positioned with the possibility of directing its optical axis at an angle of greatest sensitivity to the light-absorbing area, and the latter is made in the form of a contrasting spot on the lower surface of the disk.

 And also due to the fact that the cover is made with guide grooves, and the casing has protrusions corresponding to the grooves of the cover to form mechanical engagement.

 In FIG. 1 schematically shows a General view of the electric meter "MZEP-TELUS"; in FIG. 2 - the same side view; in FIG. 3 - rotating disk of the electric meter "MZEP-TELUS"; in FIG. 4 - shows the cover of the electric meter "MZEP-TELUS" in the context; in FIG. 5 is a view A of FIG. 3.

The MZEP-TELUS electric meter has a housing 1, a rotating disk 2 with a light-absorbing surface area made in the form of a contrasting spot 3 on the lower side of the disk, a cover 4 with guide grooves 5 and a transparent surface section 6 on the lower part of the cover below the location of the disk 2. Under the cover 4, a casing 7 is installed, which can be attached with a screw 8 to the housing 1. The casing 7 can be connected to the cover 4 by any known method, as well as through the protrusions 9 of the casing, which are mechanically engaged with the cover along the guide grooves 5 of the roof shki. Inside the casing 7, a platform 10 is made, which is located under the transparent section 6 of the cover and designed to accommodate an optical pulse sensor 11 on it with the possibility of directing its optical axis to the light-absorbing surface of the disk 2 at an angle that provides the greatest sensitivity, for example, at an angle of 90 ^o . The pulse sensor consists of a radiating and receiving optical elements. The guide grooves 5 of the cover 4, in addition to the casing fastening mentioned above, can also be used to install other auxiliary units and blocks on the electric meter.

 The electric meter "MZEP-TELUS" works as follows.

In the process, the disk 2 of the meter rotates, and the emitting optical element of the sensor installed on the site 10, illuminates the lower side of the disk 2 with infrared radiation, passing through the transparent section 6 of the cover. The platform 10 provides the direction of the optical axis of the sensor at an angle of greatest sensitivity, for example, perpendicularly (at an angle of 90 ^o ) to the contrast spot 3 of the disk. Reflected from the surface of the disk, infrared radiation is perceived by the receiving optical element of the sensor and generates an output electrical signal in the form of a pulse when an absorbing contrasting spot 3 of the disk passes through the infrared radiation stream corresponding to the optical element.

 The pulse sensor 11 generates an electrical signal in the form of a current pulse for one revolution of the disk of the electric meter and at the same time detects the rotation direction of the disk 2.

 The advantages of the claimed electric meter are that any unified design electric meter in operation can be connected to an automated metering and control system of electric power with a minimum amount of work at the meter installation site. If there is an electric meter with the above-described cover design and an absorbing spot on the lower surface of the rotating disk, this connection can be made without additional work.

 To do this, it is enough to remove the terminal cover from the previously operated electric meter and install the casing 7 without violating the meter seal.

 In addition, the use of the claimed invention allows you to repeatedly replace the electronic pulse sensor (having a service life less than the service life of electricity meters) with minimal labor.

Claims (2)

 1. An electric meter including a housing, a cover with a transparent surface area, a rotating disk with a light-absorbing surface area and a casing with a platform for mounting an optical pulse sensor with the possibility of directing its optical axis to the light-absorbing surface of the disk, characterized in that the transparent area on the cover is made on the bottom its parts under the rotating disk, the casing is mounted under the cover and mechanically connected with it and / or with the casing, and the casing platform for installing the optical sensor is located with the direction of its optical axis at the angle of greatest sensitivity to the light-absorbing area, and the latter is made in the form of a contrasting spot on the lower surface of the disk.  2. The electric meter according to claim 1, characterized in that the cover is made with guide grooves, and the casing has protrusions corresponding to the grooves of the cover to form mechanical engagement.

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