RU78928U1 - TWO-TARIFF WATER METER - Google Patents

Abstract

1. Two-tariff water meter comprising a housing in which the impeller is mounted, an axis with a rotating arrow, a cover with an electronic optical information pickup unit, a light transmitter and a light receiver mounted on the cover, an electronic circuit and a power supply unit, characterized in that in the hydraulic part the water meter has a NTC 100K temperature sensor (104AT-4), while the electronic unit for optical information reading generates an output electrical pulse arriving at an external electronic module based on ikroprotsessora liquid crystal display, which is in turn connected also with a temperature sensor NTC 100K (104AT-4) .2. The two-tariff water meter according to claim 1, characterized in that the electronic module based on a microprocessor with a liquid crystal display is equipped with an RS 485 interface for the possibility of connecting the water meter to a single energy consumption metering system.

Description

The utility model relates to the field of instrumentation, and more precisely to control and measuring devices for measuring fluid flow.

As you know, many hot water systems in residential buildings do not retain heat well during periods of downtime or minimal water consumption, which leads to cooling water in the supply pipelines. The consumer can achieve the required water temperature only after it is drained intensively from an apartment tap. At the same time, if the meter has a standard design meter installed, the consumer has to pay for hot water at the current tariff, regardless of whether it matches the proper temperature level.

To eliminate this problem, you can use a specially designed two-tariff meter, which will significantly reduce the cost of consumers to pay for hot water.

A known liquid flow sensor containing a data pickup unit including an optically coupled radiation source and a photodetector with translucent elements mounted coaxially from the diametrically opposite sides of the microturbine shaft into holes made in the housing, and the hole output with the radiation source installed in it is made in the form truncated cone (see, for example. Patent for IZ No. 2035720 according to class G01N 21/85, G01F 1/06 for 1995) [1].

A disadvantage of the known device [1] is that the microturbine is driven by a fluid flow and, accordingly, is constantly under the influence of this fluid, which leads to contamination and wear of the parts of the mechanism. And due to the fact that the microturbine blades perform the functions of a “curtain” blocking the luminous flux, their pollution leads to a decrease in the measurement accuracy.

A water meter with optical data acquisition is also known, comprising a housing in which an impeller is installed, an axis with a rotating arrow, a cover with an electronic optical information acquisition unit, a light transmitter and a light receiver mounted on the cover, an electronic circuit and a power supply unit (see, for example , Patent on PM No. 55968 according to class G01F 1/06) [2].

This known device [2] is devoid of the disadvantages of the device [1] and can be used for high-precision measurement of fluid flow. However, it does not

applicable for differentiated accounting of water consumption depending on a given temperature parameter.

The task to which the proposed utility model is aimed is to increase the versatility of the device and, as a result, to reduce the cost of consumers to pay for hot water.

The technical result that will be achieved as a result of using this utility model is an objective assessment of the cost of hot water during charging and, therefore, in reducing the cost of consumers to pay for hot water.

The above technical result is achieved due to the fact that in a two-rate water meter containing a housing in which the impeller is installed, an axis with a rotating arrow, a cover with an electronic optical information pickup unit, a light transmitter and a light receiver mounted in the cover, an electronic circuit and a power supply , according to the proposal, a temperature sensor NTC 100K (104AT-4) is installed in the hydraulic part of the water meter, while the electronic unit for optical data acquisition forms an output an electric pulse supplied to an external electronic module based on a microprocessor with a liquid crystal display, which in turn is also connected to an NTC 100K temperature sensor (104AT-4). At the same time, an electronic module based on a microprocessor with a liquid crystal display is equipped with an RS 485 interface for the possibility of connecting a water meter to a single energy consumption metering system.

The applicant has not found sources of information containing the same set of essential features specified in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the criterion of "novelty."

The utility model is illustrated in the drawing, where figure 1 shows a schematic diagram of a device.

The two-rate water meter contains a housing 1, an impeller 2, an axis 3, a reflective surface of a dry chamber 4, a cover with an electronic optical information pickup 6, a power supply 5, a light pulse transmitter 7 and a light pulse receiver 8 located on the mounting plane 9, a rotating arrow 10 , temperature sensor NTC 100K (104AT-4) 11, pulse output 12, external electronic module based on a microprocessor with a liquid crystal display 13, RS 485 interface 14.

Two-tariff water meter works as follows.

The flow of fluid passing through the housing 1 rotates the impeller 2 at a certain speed, which is directly dependent on the intensity of the pressure of the fluid. Through axis 3, rotation is transmitted to the rotating arrow 10. The transmitter 7 emits a light pulse that falls on the reflective surface of the dry chamber 4 and, being reflected from it at an equal angle, enters the light signal receiver 8. When a light pulse hits the rotating arrow, the light also Reflects, but does not reach the receiver. Thus, the electronics monitors the rotation of the arrow, and one full revolution of the rotating arrow corresponds to a strictly specified volume of liquid passing through the water meter (for example, 1 liter / revolution). The electronic unit for optical information retrieval recognizes a complete turn of the arrow from the sequence of reflected and non-reflected pulses and generates an output electrical pulse corresponding to a certain volume of water passing through the meter (for example, 1 liter), which in turn passes through a pulse output to an external electronic module based on a microprocessor with a liquid crystal display 13. At the same time, the temperature sensor NTC 100K (104AT-4) 11 {"Negative Temperature Coefficient" (ie, "Thermistor with a negative temperature coefficient by an observer ”(see, for example, the“ Dictionary of radio components ”published on the Internet at: http://fi-com.ru/elexikon/ntc.htm) measures the temperature of the water passing through the meter with a given polling interval, converts this value into an electrical signal and transmits it also to an external electronic module based on a microprocessor with a liquid crystal display 13.

An external electronic module based on a microprocessor with a liquid crystal display 13 has two archives of water meter readings: total (the total volume of water passed through the meter) and normalized (the volume of water passed through the meter, the temperature of which meets the standards). If at the moment the signal from the pulse sensor 12 arrives, the temperature measured by the temperature sensor NTC 100K (104AT-4) 11 is equal to or higher than the set value, then the signal is recorded in both archives (1 liter is added to each archive). If the temperature is lower than the set one, then the signal is registered only in the general archive.

The readings of both archives, expressed in m ³ and its shares, are displayed on the liquid crystal display of the external electronic module 13.

Thus, you can always see the full volume of water passing through the water meter and the volume of water passing through the meter that meets regulatory requirements.

Using the proposed utility model will make it possible to give an objective assessment of the cost of hot water during charging and, therefore, reduce the cost of consumers of utility services for paying for hot water.

Claims (2)

1. Two-tariff water meter comprising a housing in which the impeller is mounted, an axis with a rotating arrow, a cover with an electronic optical information pickup unit, a light transmitter and a light receiver mounted on the cover, an electronic circuit and a power supply unit, characterized in that in the hydraulic part the water meter has a NTC 100K temperature sensor (104AT-4), while the electronic unit for optical information reading generates an output electrical pulse arriving at an external electronic module based on ikroprotsessora liquid crystal display, which is in turn connected also with a temperature sensor NTC 100K (4-104AT). 2. The two-tariff water meter according to claim 1, characterized in that the electronic module based on a microprocessor with a liquid crystal display is equipped with an RS 485 interface for the possibility of connecting the water meter to a single energy consumption metering system.