EA024550B1 - Water-meter counting unit and electric circuit therefor - Google Patents

Abstract

The invention relates to civil engineering. The technical result is broadening of the range of means for taking readings of the water meter to include a water-meter counting unit and a water-meter electric circuit that allow connection of the water meter to a remote electronic system with monitoring of the pulse line state, including the possibility of signalling of an external magnetic action. The water-meter counting unit retains mechanical counting means with visual indication of consumption readings. The unit comprises a body 1 of a non-magnetic material, a mechanical digital counting device 2 mounted in the body and having kinematically linked wheels 3 arranged on the same axle and bearing digits on their side surfaces for indication of consumption value, a magnetic counting unit half-coupling 4 mounted with the possibility of rotation and magnetic interaction with a mating half-coupling of the support body of the water meter, the named mating half-coupling being kinematically linked to an impeller arranged in the feed-through channel of the named body to be rotated in the running water flow, a reduction gear 7 kinematically linking the magnetic half-coupling 4 of the counting unit to a driving gear 8 of the mechanical digital counting device 2, a permanent magnet 9 fixed eccentrically on the driving gear 8. The electric circuit of the water meter comprises a counting normally open sealed switch 10 mounted in the body with the possibility of periodical magnetic interaction with the permanent magnet 8, and at least one couple of connected in series a normally open sealed switch 15 signalling of a magnetic impact, and a magnetic impact load resistor which, as well as the normally open sealed switch 10, are connected to terminals of the electric circuit. The sealed switch 15 is located inaccessibly for the magnetic field of the permanent magnet 8 so that it cannot operate under its action.

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, as well as its electrical circuit. 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 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 O01P 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.

However, in this well-known technical solution, distortion of the calculation of the volume of consumption of water consumed due to the blocking of the reed switch by an external permanent magnet is possible. Such a permanent magnet can be fixed on the body of the water meter, which will cause the reed switch to enter a permanently closed state.

In addition, the pulse counter, to which the reed switch of the 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 a break 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 ΝΑΜϋΚ (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 electric circuit of the water meter, then it can be provided both counting the number of short circuit of the reed switch and monitoring the open and short circuit of the connection line for 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.

Known electrical circuit of the water meter, which allows you to signal the blocking of the flow reading by external magnetic action (EP 1039270 A1, IPC O01P 15/06, 2000).

This well-known electric circuit of the water meter contains a series-connected readout normally open reed switch mounted in a housing made of non-magnetic material of the water meter's counting unit with the possibility of periodic magnetic interaction with a permanent magnet mounted rotatably around the circle to carry out a closing-opening cycle eccentrically on the wheel, which is kinematically connected with an impeller in the passage channel of the water meter body, and a load resistor, two electric outputs of a water meter circuit, one of which is connected to a readout normally open reed switch, and the second to a short circuit load resistor, as well as a pair of normally open magnetic reed signaling relays connected to each other and a magnetic short circuit load resistor, which are connected on one side to the load resistor of the circuit (to the output connected with it), and on the other, to the additional output of the electric circuit of the water meter. A normally open magnetic signaling reed switch is located out of reach sufficient for the magnetic field of the permanent magnet to operate.

This known solution provides an alarm about the blocking of the water meter, however, this known electric circuit of the water meter requires the connection of an additional output to an external electronic system, and also does not allow metering in accordance with the above standard. Accordingly, it is not possible to use external electronic systems corresponding to the aforementioned standard for accounting of consumed water.

- 1,024,550

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 water meter counting unit, as well as in the form of a water meter electrical circuit that allows you to connect the water meter to a remote electronic metering system according to a circuit with control by the value of the open circuit and short circuit of the connection line, as well as with the ability to signal an external magnetic effect on the water meter. In this case, the counting unit of the water meter saves the mechanical readout with visual indication of readings.

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

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;

water meter circuitry.

The electric circuit of the water meter, which ensures the achievement of the technical result, contains a normally connected readout open reed switch mounted in a housing with the possibility of periodic magnetic interaction with a permanent magnet during rotation of the drive wheel of a mechanical digital readout device for conducting an open-circuit short circuit, and a short circuit load resistor;

two outputs of the electric circuit of the water meter, one of which is connected to a readout normally open reed switch, and the second to a short-circuit load resistor;

a load and break resistor connected to the terminals of the water meter circuitry in parallel with a reference normally open reed switch and a load resistor;

at least one pair of serially connected normally open reed switch magnetic signaling and a magnetic load resistor, which are also connected to the terminals of the water meter circuit in parallel with a normally open reed switch and a short circuit load resistor.

In this case, a normally open magnetic contact signaling reed switch is located in a body of non-magnetic material, out of reach of a permanent magnetic field sufficient for its operation.

In the best embodiment, the magnitude of the electrical resistance of the load resistor and open circuit exceeds the magnitude of the electrical resistance of the load resistor short circuit, which, in turn, exceeds the magnitude of the electrical resistance of the load resistor magnetic impact. In particular, the electrical resistance of the load and break resistor may be 5.6 kΩ, the electrical resistance of the load resistor is 1.0 kΩ, and the electrical resistance of the load resistor is 400 Ohms.

When implementing the counting unit of the water meter, the conclusions of the electric circuit of the water meter can be made in the form of two wires removed from the enclosure of prisoners into a common electrical insulating sheath.

The implementation of the invention

The possibility of implementing a technical solution is confirmed by a specific example of the implementation of the counting unit of the water meter. illustrated graphic materials.

In FIG. 1 shows a assembly diagram of a counting unit of a water meter; in FIG. 2 - kinematic diagram of the counting unit of the water meter; in FIG. 3 is a circuit diagram of a water meter;

in FIG. 4 is a location diagram of a readout normally open reed switch and a normally open reed switch of a magnetic action signal in the body of the counting unit of the water meter;

in FIG. 5 is a diagram of the current display in normal readout, open, short, and lock modes by external magnetic action.

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 mounted in the housing 1 with the possibility of rotation and

- 2 024550 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 (Fig. 3) a series-connected readout normally open reed switch 10 (C1) installed in the housing 1 with the possibility of periodic magnetic interaction with a permanent magnet 9 when the drive wheel 8 of the mechanical digital readout device 2 is rotated to conduct a closing-opening cycle, and resistor 11 (K2) load circuit;

two conclusions 12 and 13 of the electric circuit of the water meter, one of which is connected to a readout normally open reed switch 10, and the second to the resistor 11 of the load circuit;

load and break resistor 14 (K1) connected to terminals 12 and 13 of the water meter circuit parallel to the reference normally open reed switch 10 and short-circuit load resistor 11, a pair of serially connected normally open reed switch 15 (C2) of the magnetic signal and resistor 16 (K3) magnetic loads, which are also connected to the terminals 12 and 13 of the electric circuit of the water meter parallel to the reference normally open reed switch 10 and the resistor 11 of the load circuit.

Depending on the shape of the body of the counting block of the water meter, the electric circuit of the water meter may contain two or more pairs of normally connected normally open reed switches of magnetic signaling and magnetic load resistors, which will make it possible to control the blocking of the water meter more reliable and reliable (each indicated pair consists of from one normally open reed switch for magnetic signaling and one magnetic resistor load resistor twia).

A normally open magnetic contact signaling reed switch 15 is located in the housing 1 of non-magnetic material out of reach sufficient for its operation of the magnetic field of the permanent magnet 9. An example of such an arrangement is shown in FIG. 4.

The electrical resistance of the load and break resistor 14 is 5.6 kΩ, the electrical resistance of the load resistor 11 is 1.0 kΩ, and the electrical resistance of the load resistor 16 is 400 Ohm. The electrical resistance values of the resistors 11, 14, 16 may differ from those indicated. The condition for choosing the values of electrical resistances is that the value of the electrical resistance of the load resistor 14 and the open circuit exceeds the value of the electrical resistance of the load resistor 11, which, in turn, exceeds the value of the electrical resistance of the load resistor 16 of the magnetic effect. When this condition is met, the operation of the electric circuit of the water meter is ensured in accordance with the diagram shown in FIG. 5, which shows how the magnitude of the current can be used to judge the operating modes of the water meter. Tracking of operating modes is carried out in automatic mode by an external electronic system to which an electric circuit of a water meter made in accordance with the invention is connected. Conclusions 12 and 13 of the electric circuit of the water meter are made in the form of a cable 17 withdrawn from the housing 1 in the form of two insulated wires enclosed in a common electrical insulating sheath, which are used to connect the electric circuit of the water meter to an external electronic system. Due to the location of the permanent magnet 9 on the drive wheel 8 of the mechanical digital reading device 2, pulses are generated synchronously with the operation of the mechanical digital reading device 2, which simplifies debugging and monitoring the operation of the flow metering system.

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, as well as the electric circuit of the water meter, made in accordance with the present invention, are made according to known technologies from materials traditionally used for such products.

Claims (7)

CLAIM 1. The counter unit of the water meter, comprising a housing made of non-magnetic material, a mechanical digital reading device mounted in the housing with kinematically connected wheels with numbers located on the same axis with numbers on the side surfaces to indicate the value of the flow rate, a magnetic coupling half of the metering unit mounted in the housing for rotation and magnetic interaction with the response magnetic coupling half of the supporting body of the water meter kinematically connected to the impeller located in the passage channel of the housing for rotation in the flow of flowing water, a gearbox kinematically connecting the magnetic coupling half of the counting unit with the drive wheel of the mechanical digital readout device, a permanent magnet mounted eccentrically on the drive wheel of the mechanical digital readout device, as well as the electric circuit of the water meter, including a readout normally open in series Reed switch mounted in the housing with the possibility of periodic magnetic interaction with a permanent magnet during rotation and a driving wheel of a mechanical digital readout device for conducting an open circuit, and a load resistor, two outputs of the electric circuit of the water meter, one of which is connected to a readout normally open reed switch, and the second to a load resistor of a short circuit, a load and open resistor connected to the terminals of the electric circuits of the water meter parallel to the reference normally open reed switch and the load resistor of the circuit, as well as at least one pair of series-connected normal but an open reed switch of magnetic signaling and a load resistor of magnetic effect, which are also connected to the terminals of the water meter circuit parallel to a reference normally open reed switch and a short-circuit load resistor, while a normally open reed switch of magnetic signaling is located in a body of non-magnetic material out of reach, sufficient for its operation of the magnetic field of a permanent magnet. 2. The block according to claim 1, characterized in that the conclusions of the electric circuit of the water meter are made in the form of two wires removed from the enclosure of prisoners into a common electrical insulating sheath. 3. The block according to claim 1 or 2, characterized in that the electrical resistance of the load resistor and open circuit exceeds the electrical resistance of the load resistor short circuit, which, in turn, exceeds the electrical resistance of the load resistor magnetic impact. 4. The block according to claim 3, characterized in that the electrical resistance of the load resistor and open circuit is 5.6 kOhm, the electrical resistance of the load resistor short circuit 1.0 kOhm, and the electrical resistance of the load resistor magnetic impact 400 Ohms. 5. The electric circuit of the water meter, containing a series-connected readout normally open reed switch mounted in a housing made of non-magnetic material of the metering unit of the water meter with the possibility of periodic magnetic interaction with a permanent magnet fixed with the possibility of rotation around the circle to carry out a short-circuit, and a load resistor, two outputs of the electric circuit of the water meter, one of which is connected to a readout normally open reed switch, and the second to a resistor a short circuit load, a load and open resistor connected to the terminals of the water meter circuit parallel to the reference normally open reed switch and a short circuit load resistor, as well as at least one pair of normally open magnetic reed signaling switches for magnetic action and a magnetic load resistor, which are also connected to the conclusions of the electric circuit of the water meter parallel to the reference normally open reed switch and the load resistor of the circuit, while the norms A magnetically open reed switch of magnetic signaling is located in a casing made of non-magnetic material of the metering unit of the water meter and is out of reach sufficient for its operation of the magnetic field of the permanent magnet. 6. The circuit according to claim 5, characterized in that the electrical resistance of the load resistor and the open circuit exceeds the electrical resistance of the load resistor circuit, which, in turn, exceeds the electrical resistance of the load resistor of the magnetic effect. 7. The circuit according to claim 6, characterized in that the electrical resistance of the load and break resistor is 5.6 kΩ, the electrical resistance of the load resistor is 1.0 kΩ, and the electrical resistance of the load resistor is 400 Ohms.