EA024515B1 - Water-meter counting unit - Google Patents

Abstract

The invention relates to construction. The technical result consists in extending the range of means for taking water-meter readings, in the form of a water-meter counting unit which makes it possible to connect said water meter to a remote electronic record-keeping system and which maintains mechanical read-out means having a visual indication of water-consumption indices, providing generation of pulses synchronously to the operation of a mechanical digital read-out device, which makes it possible to simplify debugging and monitoring of the operation of a system for calculating consumption. The mechanical digital read-out device 2 is mounted in a housing and has kinematically connected wheels which are arranged on a single axis and have digits on the lateral surfaces for indicating the consumption value. A magnetic half-coupling 4 of the counting unit is mounted rotatably in the housing 1 and so as to be able to magnetically interact with a reciprocal magnetic half-coupling 5 of a supporting housing of the water meter, said half-coupling being kinematically connected to an impeller 6 which is arranged in a through passage in said housing for rotation in the stream of water flowing therethrough. The magnetic half-coupling 4 of the counting unit is kinematically connected by a step-down gearing 7 to a drive wheel 8 of the mechanical digital read-out device 2. A permanent magnet 9 is fixed eccentrically on the drive wheel 8. A normally open magnetically operated sealed switch 10 is mounted in the housing and is arranged so as to be able to periodically magnetically interact with the permanent magnet 9 during rotation of the drive wheel 8 in order to carry out a closing-opening cycle. The electric circuit comprises a load and break-off resistor, a closing load resistor and four outputs, the first of which is electrically connected to one of the contacts of the magnetically operated sealed switch 10, the second - to one of the contacts of the load and break-off resistor, the third - to a second contact of the load and break-off resistor and to one of the contacts of the closing load resistor, and the fourth - to a second contact of the magnetically operated sealed switch 10 and to a second contact of the closing load resistor.

Description

The invention relates to the construction, and specifically to the counting unit of the water meter, designed for cold or hot water supply for various purposes, mainly household. The water meter counter unit is mounted on the metal body of the water meter, waterproofed from its passage channel included in the pipeline system, where the impeller is located kinematically connected to the magnetic coupling half, interacting with the counter magnetic coupling half of the water meter counter block, which ensures the flow rate of the water flowing through the passage channel of the water meter body.

State of the art

A known water meter counter unit comprising a housing, a mechanical digital readout device providing a visual indication of the water meter readings, a magnetic coupling half of the meter assembly installed in the housing with the possibility of rotation and magnetic interaction with a response magnetic coupling coupled to the impeller located in the passage channel of the water meter housing, a reducer kinematically connecting the magnetic coupling half of the counting unit with a mechanical digital reading device, a permanent magnet fixed eccentrically on one of the gearbox wheels, as well as a normally open reed switch installed in the housing with the possibility of periodic magnetic interaction with a permanent magnet, and two outputs of the electric circuit of the water meter connected to two contacts of the reed switch and designed to be connected to a remote electronic metering system for water flow ( SI 2331961 Υ, IPC С01Р 1/56, 1999).

In the well-known counting unit of the water meter, a remote reading of the readings is provided by an external electronic system to which the conclusions of the electric circuit of the water meter are connected to count pulses from the reed switch arising from the periodic closure of its sealed contacts under the influence of a magnetic field from a permanent magnet rotating on the gear wheel on which this permanent magnet fixed.

The pulse counter to which the reed switch of a known water meter counter is connected receives signals according to a simple relay circuit, which does not allow monitoring the state of the connection line itself for an open or short circuit. Such monitoring of the condition of the connection line allows providing a different electric circuit of the water meter in accordance with the standard ΝΆΜϋΚ (ΌΙΝ ΕΝ 50227, ΌΙΝ 192234). This scheme provides for the inclusion in the circuit parallel to the reed switch of the load resistor circuit, as well as the inclusion of a load and break resistor in series with the reed switch. When the counting unit of the water meter provides such an electrical circuit, then it can be ensured both the counting of the number of short circuit of the reed switch and the monitoring of the break and short circuit of the connection line by various current values. However, not all external electronic systems allow connecting water meters according to a circuit with determining the current value, and therefore it is advisable to connect an electric circuit to the counting unit of a water meter, which allows connecting it either according to a relay circuit or according to a circuit with determining the current value to monitor the status of the connection line.

SUMMARY OF THE INVENTION

The technical result consists in expanding the arsenal of means for taking readings of the water meter in the form of a counting unit of the water meter, which allows you to connect it to a remote electronic metering system and saves mechanical readout means with visual indication of water flow readings, providing pulse generation, synchronously to the operation of a mechanical digital readout device, which allows you to simplify debugging and monitoring the operation of the flow metering system.

This technical result is achieved by the counting unit of the water meter, which contains a housing;

a mechanical digital reading device mounted in the housing with kinematically connected wheels with numbers on the side surfaces located on the same axis to indicate the value of the flow rate;

a magnetic coupling half of the counting unit installed in the housing with the possibility of rotation and magnetic interaction with the counter magnetic coupling coupling of the bearing body of the water meter kinematically connected to the impeller located in the passage channel of this housing for rotation in the flow of flowing water;

a reducer kinematically connecting the magnetic coupling half of the counting unit with the drive wheel of a mechanical digital reading device;

a permanent magnet mounted eccentrically on the drive wheel of a mechanical digital reading device;

a normally open reed switch installed in the housing with the possibility of periodic magnetic interaction with a permanent magnet when the drive wheel is rotated by a mechanical digital readout device for conducting a closing-opening cycle;

load and break resistor, short-circuit load resistor and four outputs of the water meter circuitry, the first of which is electrically connected to one of the two contacts of the reed switch, the second to one of the two contacts of the load and break resistor, the third to the second contact of the load and break resistor and one of the two contacts of the load resistor, and the fourth with the second contact

- 1,024,515 reed switches and with a second contact of the load resistor circuit.

In a preferred embodiment, the four outputs of the electric circuit of the water meter are made in the form of four wires withdrawn from the enclosure into the common electrical insulating sheath in insulation of different colors.

The implementation of the invention

The possibility of carrying out the invention is confirmed by a specific example of the implementation of the counting unit of the water meter, which is illustrated by graphic materials.

In FIG. 1 shows a assembly diagram of a counting unit of a water meter;

in FIG. 2 shows the kinematic diagram of a water meter;

in FIG. 3 shows a circuit diagram of a water meter;

in FIG. 4 shows a schematic electrical diagram of a water meter with a connection according to a circuit with monitoring the status of a pulse line;

in FIG. 5 shows a circuit diagram of a water meter with a simple relay circuit connection.

The counting unit of the water meter includes a mechanical digital readout device 2 mounted in the housing 1, with kinematically connected wheels 3 located on the same axis with numbers on the side surfaces to indicate the value of the flow rate;

a magnetic coupling half 4 of the counting unit installed in the housing 1 with the possibility of rotation and magnetic interaction with the response magnetic coupling half 5 (Fig. 2) of the bearing housing (not shown in the drawings) of a water meter kinematically connected to the impeller 6 located in the passage channel of this bearing housing for rotation in the flow of flowing water;

a reducer 7 kinematically connecting the magnetic coupling half 4 of the counting unit to the drive wheel 8 of the mechanical digital reading device 2;

a permanent magnet 9, mounted eccentrically on the drive wheel 8 of the mechanical digital reading device 2.

The electric circuit of the water meter includes a normally open reed switch 10 (C) installed in the housing 1 with the possibility of periodic magnetic interaction with a permanent magnet 9 during rotation of the drive wheel 8 of the mechanical digital readout device 2 for conducting a loop-open cycle, as well as a resistor 11 (K1, FIG. . 3-5) load and break with a value of electrical resistance of 2.2 kOhm, a resistor 12 (K2) load circuit with a value of electrical resistance of 5.6 kOhm and four outputs of the electrical circuit of a water meter 13-16, called The data that respectively as first, second, third and fourth terminals (FIG. 3-5). Alternatively, the load and break resistor 11 (K1) may have a value of electrical resistance of 5.6 kOhm, and the resistor 12 (K2) of the short-circuit load is 10.2 kOhm.

The first terminal 13 of the electric circuit of the water meter is electrically connected to the contact 17 of the reed switch 10. The second terminal 14 is electrically connected to the terminal 18 of the load and break resistor 11. The third terminal 15 is electrically connected to the second terminal 19 of the load and break resistor 11 and to one of the terminals 20 of the load resistor 12. The fourth terminal 16 is electrically connected to the second contact 21 of the reed switch 10 and to the second contact 22 of the load resistor 12.

Four conclusions 13-16 of the electric circuit of the water meter are made in the form of a cable 23 removed from the housing 1 (Fig. 1) in the form of four wires enclosed in a common electrical insulating sheath in insulation of different colors (gray, white, blue, red - pos. 13-16, respectively )

The values of the electrical resistances of the load and break resistor, as well as the short-circuit load resistor, may slightly differ from those indicated.

To connect the electric circuit of the water meter to an external electronic system in accordance with the ΝΛΜϋΚ standard (Fig. 4), the first 13 and second 14 leads are closed together, and the third 15 and fourth 16 leads are connected to an external electronic water flow metering system. Due to the location of the permanent magnet 9 on the drive wheel 8 of the mechanical digital readout device 2, pulses are generated synchronously with the operation of the mechanical digital readout device 2, which simplifies debugging and monitoring the operation of the flow metering system.

To connect the electric circuit of the water meter to an external electronic system using a simple relay circuit (Fig. 5), the first 13 and fourth 16 outputs are connected to it. In this case, the second 14 and third 15 output are left free and isolated if necessary.

The example embodiment of the invention is not exhaustive. Other embodiments of the invention are possible, corresponding to the scope of patent claims. All the details of the counting unit of the water meter, made in accordance with the present invention, are made by known technologies from materials traditionally used for such products.

Claims (2)

CLAIM 1. The counting unit of the water meter, comprising a housing; mounted in the housing mechanical digital reading device with kinematically connected wheels with numbers on the same axis on the lateral surfaces to indicate the value of the flow rate; Magnetic coupling half of the counting unit, mounted in the housing for rotation and magnetic interaction with the response magnetic coupling half of the bearing housing of the water meter, kinematically connected with the impeller located in the passage channel of this housing for rotation in the flow of flowing water; gearbox, kinematically connecting the magnetic coupling half of the counting unit with the drive wheel of a mechanical digital reading device; a permanent magnet mounted eccentrically on the drive wheel of a mechanical digital reading device; normally open reed switch installed in the case with the possibility of periodic magnetic interaction with a permanent magnet during rotation of the drive wheel of a mechanical digital reading device for conducting a circuit-opening cycle; as well as a load and break resistor, a load circuit resistor and four terminals of the water meter circuitry, the first of which is electrically connected to one of the two reed switch contacts; the second is with one of two contacts of the load and break resistor; the third is with the second contact of the load and break resistor and with one of the two contacts of the load resistor circuit; the fourth is with the second contact of the reed switch and the second contact of the load resistor circuit. 2. The unit according to claim 1, characterized in that the four terminals of the electric circuit of the water meter are made in the form of four wires that are enclosed in a common electrically insulating sheath and insulated in different colors that are removed from the housing.