RU136585U1 - ACCOUNTING DEVICE - Google Patents

Abstract

An accounting device comprising a housing having an input and / or output, at least one measuring element, a counting device and at least one indicator of external magnetic influence located inside the device, characterized in that the indicator is placed inside in the field of visibility between a counting device and a measuring element, while the material used is an indicator having the property of irreversible destruction of the internal structure under the influence of an external magnetic field.

Description

The utility model relates to measuring equipment, namely to metering devices, for example, electricity, water, gas meters, heat energy meters. The utility model can be used in the energy sector, it can be used by gas companies, water and utility companies to combat the theft of electricity, water, gas, and thermal energy.

Known mechanical devices that control the external magnetic effect on metering devices, consisting of a movable ferromagnetic element, which, when exposed to an external magnetic field that affects the accuracy of the meter, moves and sets in motion a mechanism that fixes this effect. Mechanical devices do not have sufficient reliability, since the mechanism can jam due to contamination, freezing, and corrosion.

The problem of controlling the external magnetic effect on metering devices arose more than 20 years ago and especially escalated after the start of production of heavy-duty neodymium magnets. Despite the relevance of the task of combating commercial losses of energy and water, the currently known devices for controlling exposure to a magnetic field, taking into account the shortcomings described above, have not been widely used, and most often their design does not provide for installation on metering devices already installed and in operation, for example, water meters, electricity meters. Thus, the trend is the creation of a metering device, the design of which would make it possible to effectively detect magnetic effects on it, and at the same time all the problems and disadvantages described above would be solved.

With any protection options, the resistance of the metering device of water or gas to the effects of a strong magnet is not large, since the metering devices that are sensitive to the effects of an external magnet are based on the principle of measuring the speed of the impeller rotating under the influence of a flow of flowing water or gas. The flow of water enters the meter body through the inlet pipe, passes through the filter, and then enters the measuring chamber, inside which the impeller rotates on solid supports, on the axis of which the magnet of the leading part of the magnetic coupling is mounted. Water, having passed the measuring chamber, enters the outlet pipe of the meter. The number of revolutions of the impeller is proportional to the amount of flowing water.

“Water meters sense a magnetic field because they consist of two isolated volumes: air and water. The counting mechanism itself is in the air volume, and the turbine is in the water volume. There is a thin wall between them. The rotation of the turbine is transmitted to the counting mechanism through the wall using two magnets: one is mounted on the turbine, and the other on the counting mechanism.

These magnets can be influenced by an external magnet. It is clear that for this reason any counter can be stopped with a magnet.

More modern meters have special protection - a screen that protects it from an external magnetic field. However, the field of a strong magnet made of neodymium alloy also seeps through this screen. Even modern counters supposedly protected from magnetic influence can still be stopped with a magnet.

A device is known for identifying the effects of a magnetic field on an apparatus. The indicator of the external magnetic effect is a device containing a movable element, which, under the influence of a magnetic field, moves from the first position to the second, and also means that allows you to hold the movable element in the second position after the termination of magnetic influence (see international application WO No. 20088078108, IPC G01R 11/24 (2006.01), 2008).

The disadvantages of the described technical solutions include the relative complexity of the design of the indicator of the external magnetic effect. It is also difficult to place an indicator of external magnetic influence of such a design in such a way that it is possible to visually determine the effect on the meter when installing the indicator inside the meter.

Known metering device comprising a housing having an input and / or output, at least one measuring element, a counting device and at least one indicator of external magnetic influence, part of which is made of hard magnetic material. The indicator is located inside the device, and / or on the case, and / or in the immediate vicinity of the device case. It is preferable to choose a hard magnetic material with a large coercive force and a wide range of operating temperatures, which will eliminate the possibility of demagnetization using available demagnetizing devices, as well as by heating the specified element to a temperature above the Curie point or cooling it below the operating temperature without traces of thermal exposure, ( see patent for utility model of the Russian Federation No. 111685, IPC G01R 33/00 (2006.01), 2011). This decision was made as a prototype.

A disadvantage of the known solution is the use of an indicator of external magnetic action made of hard magnetic material, which when magnetized, the indicator is magnetized. The use of such an indicator requires complex manipulations in the exercise of control, namely:

- when conducting a routine inspection of metering devices, employees of the relevant authorities take data by measuring or detecting the magnitude of the residual magnetization of the indicator of external magnetic influence using instruments or indicators commonly used to measure the residual magnetization.

- after that, the received data is interpreted and recorded with the further adoption of the necessary measures.

There are various types of antimagnetic seals installed on the outer surface of the meter body, information about which can be obtained at the following links:

- http://eexpert26.ru/144-ooo-energo-ekspert-zapatentovalo-magnitochuvstvitelnuyu-plombu-anti-magnit.html,

- http://blogi.lu.lv/mf30004/russkiy/plomba-rus/

- http://www.plomba24.ru/shop/universalnye-signalnye-ustroystva-plornby-/dlya-opechatyvaniya-metrologicheskogo-oborudovaniy/antimagnitnaya-plomba-imp-2-vysokochuvstvitelnyy-i/

- http://www.donintek.ru/?catalog_main_view=on.

As a disadvantage of using these seals, only one can be attributed - seals can be installed only with the interest of one or another representative of the housing and communal services, which does not guarantee their widespread use.

In addition, the method of mounting anti-magnetic seals (indicators) on the meter housing also has the following disadvantages:

- firstly, it requires additional installation time (it is necessary to fulfill two conditions when attaching the indicator: it is convenient to fix the indicator and it is easy to inspect, and these two conditions may conflict, depending on the location of the meter

- secondly, the “home-made” installation of the indicator by a fitter who installs the meter in a specific apartment at the consumer does not guarantee the integrity of the indicator mounting during operation of the device by an unscrupulous consumer. For example, craftsmen can easily remove the wire that secures the indicator and shown in the photo in the link above, manipulate the meter, and then set the indicator to its old location using a similar wire.

The problem solved by the utility model is to simplify the design through the use of more modern indicators, while ensuring maximum reliability of the meter and prevent unauthorized exposure to the meter with a strong magnet.

The problem is solved due to the fact that in the known metering device containing a housing having an input and / or output, at least one measuring element, a counting device and at least one indicator of external magnetic influence located inside the device, in accordance with utility model, the indicator is placed inside, on the front side of the housing in the field of visibility between the counting device and the measuring element, while the material having the property of irreversible destruction inside structure under the influence of an external magnetic field.

The technical result from the use of all the essential features of the utility model is to simplify the design of the metering device, through the use of more modern indicators, while ensuring maximum reliability of the metering device and preventing unauthorized exposure to the metering device with a strong magnet, as well as providing an easier way to fix the violation of energy resources by the consumer rules for the use of metering devices.

The use of modern materials with the property of irreversible destruction of the internal structure under the influence of an external magnetic field, as well as the placement of the indicator inside the meter in the field of visibility between the body and the measuring element, simplifies the meter design, while ensuring maximum reliability of the meter from unauthorized exposure to it with a strong magnet and providing a simpler way of fixing violations of energy resources by the consumer l use metering devices. The use of a more modern indicator allows visual control without special devices, which simplifies the meter and its operation. In this case, the installation of the indicator during the assembly of the metering device inside the housing in the visibility zone between the metering device and the measuring element allows to simplify the metering device itself, its maintenance during installation and operation, as well as to increase the reliability of protection of the device against unauthorized exposure. Protection against unauthorized exposure is ensured by the inability to remove the indicator from the meter without violating the integrity of the meter itself.

FIG. 1 - metering device with an indicator installed inside, front view;

FIG. 2 is a top view of the meter.

The meter includes a housing 1 having an input and / or output. Inside the housing is a measuring element 2, a counting device 3 and at least one indicator 4 of the external magnetic effect. The indicator 4 is placed inside, on the front side of the housing 1 in the field of visibility, anywhere between the counting device 3 and the measuring element 2. The housing 1 is covered on the front side with a transparent cover 5, rigidly connected to the housing 1. Thus, the indicator 4 is located so which is not accessible to the consumer without opening the housing 1. However, the presence of a transparent coating 5 makes it easy to fix the change in the properties of the indicator in the event of exposure to magnetic radiation.

As an indicator, a material is used that has the property of irreversible destruction of the internal structure under the influence of an external magnetic field. Such materials are widely known and used as external fillings, see the above links.

A counter of any type works in normal mode. When you try to influence the counter with a magnet by induction of a field of more than 100 mT, the material of the indicator changes its initial state - color, or physical state. For example, in the case of even a short-term exposure to a magnetic field, the indicator pattern may disappear, and the anti-magnetic element changes color - it turns black, indicating the fact that the magnetic field affects the control object. Neither mechanical, nor temperature, nor any other factors can lead to a change in the structure of the indicator

The claimed utility model can be manufactured in the factory and used in the housing and communal services system, as well as in any areas where it is necessary to keep records of energy consumption (gas, light, water, heat carriers).

Claims (1)

An accounting device comprising a housing having an input and / or output, at least one measuring element, a counting device and at least one indicator of external magnetic influence located inside the device, characterized in that the indicator is placed inside in the field of visibility between a counting device and a measuring element, while the material used is an indicator having the property of irreversible destruction of the internal structure under the influence of an external magnetic field.

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