RU17616U1 - ACOUSTIC WASTE WATER METER IN CLOSED SEWER COLLECTORS - Google Patents

Abstract

1. An acoustic meter of wastewater flow in closed sewers containing an electro-acoustic transducer mounted above a moving stream on a mounting fixture, connected by a cable to the transducer and a power source, characterized in that it is equipped with a sound guide, in the upper part of which an electro-acoustic transducer is placed inside, and the lower part is located above the hole made in the upper part of the sewer collector, with the possibility of installation in it. 2. The acoustic flow meter according to claim 1, characterized in that the sound guide is made in the form of a pipe, in the lower part of which there is an oblique cut or a serrated notch. The acoustic flow meter according to claim 1, characterized in that the sound guide is made in the form of a horn.

Description

The utility model relates to the field of measuring technology, and more particularly to devices for measuring wastewater flow in closed sewers using ultrasonic flow meters.

A device is known for measuring the volumetric flow rate of a liquid in a pressureless channel, comprising a liquid velocity meter, a liquid level meter in an open channel, a calculator, and an indicator. Moreover, the speed meter is made in the form of an active location sensor, contains a piezoceramic emitter and a piezoceramic radiation receiver and is equipped with a radiation pattern regulation unit rigidly connected to its body (Ki 2139503 according to class G01 F 1/66, 1998) 1

The disadvantage of this device is that with its help it is impossible to measure the flow of wastewater in closed sewers.

A device is also known for ultrasonic measurement of the level of fluid flow moving in a U-shaped tray. It comprises an electro-acoustic transducer mounted above a moving stream on a mounting fixture, connected by a cable to the transducer and a power source. (US 5319974 according to CL 73-290, 1994) 2.

This device is the closest in technical essence and the number of common features with the claimed, which is why it is accepted as the closest analogue.

The disadvantage of device 2, as well as 1, is the impossibility of using it to measure wastewater flow in closed sewers, due to the lack of direct access of radiation from the electro-acoustic transducer to the moving stream, the level of which must be measured.

The problem to which the proposed utility model is directed is to provide the ability to perform acoustic measurement of wastewater flow in closed sewers.

The technical result from the use of the claimed utility model is the provision of reliable measurement of wastewater flow in closed sewers.

The above technical result is achieved due to the fact that the acoustic wastewater flow meter in closed sewers containing an electro-acoustic transducer mounted above a moving stream on a mounting fixture, connected by a cable to the transducer and a power source, according to the proposal, is equipped with a sound guide, in the upper part of which electro-acoustic transducer, and the lower part is located above the sewer call made in the upper part Ktorov hole, with rigid fixation therein. Moreover, the sound guide can be made in the form of a pipe, in the lower part of which there is an oblique cut or a serrated notch. In addition, the sound guide can be made in the form of a horn.

Ultrasonic devices are known in the measurement technology.

piezoelectric transducers (emitters-ultrasound receivers) used to measure fluid flow in pressure pipelines (PM RU 94019608 according to class G01 F 1/66, 1996) 3. However, this device cannot be used to solve the problem, because unlike pressureless sewer collectors flow measurement known device

produced in filled pipelines under overpressure. Therefore, a contact piezoelectric transducer in a sewer collector cannot work.

Also known is an ultrasonic meter of a static level in containers for storing various liquids, containing a pipe with a serrated notch in the lower part. With it, it is impossible to achieve the indicated technical result for measuring the flow rate of wastewater in closed sewers, since there are no elements for measuring the flow rate of a moving fluid in it. In addition, the use of the pipe in a known device solves the problem of measuring the level in the tank at its maximum filling.

The applicant has not identified technical solutions containing a common set of essential features indicated in the utility model formula, where the acoustic meter would be equipped with a sound guide, in the upper part of which there is an electro-acoustic transducer, and the lower part is located above the hole made in the upper part of the sewer collector, with the possibility of installation in him.

This allows us to conclude that the proposed technical solution meets the criteria of novelty and inventive step.

The utility model is illustrated by drawings, where:

In FIG. 1 shows a sectional view of an acoustic wastewater flow meter in a closed sewer;

Figure 2 - shows the options for performing the sound guide.

The acoustic meter for wastewater flow in closed sewers contains an electro-acoustic transducer 1 connected by a cable 2 to the measuring transducer 3 and a power source 4, a sound guide 5, a fastening device 6, with which an acoustic flow meter is installed on the upper part of the sewer collector 7 for

waste water 8. The lower part of the sound guide 5 has a gear notch 9 or an oblique cut 10. In addition, an embodiment of the sound guide 5 in the form of a horn 11 is provided.

The acoustic flow meter works as follows:

An opening is made in the upper part of the sewer collector 7, the size of which corresponds to the lower part of the sound guide 5. The sound guide 5 is inserted with the lower part into the hole of the collector 7 and is rigidly fixed in the vertical position using the fastening device 6. An electro-acoustic transducer 1 is attached to the upper part of the sound guide 5. After installing the acoustic wastewater flow meter on the closed sewer 7 and connecting the power supply 4 to the network from the transducer 3, electrical impulses are periodically supplied to the electro-acoustic transducer 1 by the connecting cable 2, which generates sounding acoustic signals. Acoustic signals through the sound guide 5 are directed to the surface of the moving wastewater stream 8, are reflected from it and fed back to the electro-acoustic transducer 1, which converts them into electrical signals. These signals are sent via cable 2 to the measuring transducer 3, where the level of the flowing liquid is measured and the instantaneous flow rate is calculated using the well-known formula, followed by integration. The flow information is displayed.

The execution of the lower part of the sound guide 5 in the form of a serrated notch 9 or with a cut 10 allows to increase the reliability of measuring the flow rate of wastewater, by reducing interference in the acoustic path of the flow meter.

Using the proposed utility model, it is possible to measure wastewater flow in closed sewers with high reliability.

Claims (3)

1. An acoustic meter of wastewater flow in closed sewers containing an electro-acoustic transducer mounted above a moving stream on a mounting fixture, connected by a cable to the transducer and a power source, characterized in that it is equipped with a sound guide, in the upper part of which an electro-acoustic transducer is placed inside, and the lower part is located above the hole made in the upper part of the sewer collector, with the possibility of installation in it.  2. The acoustic flow meter according to claim 1, characterized in that the sound guide is made in the form of a pipe, in the lower part of which there is an oblique cut or a serrated notch. 3. The acoustic flow meter according to claim 1, characterized in that the sound guide is made in the form of a horn.