RU191042U1 - REVERSE INSTALLATION FOR RESEARCH OF HYDRAULIC CHARACTERISTICS AND RESISTANCE OF DEVICES WITH PASSES - Google Patents

Abstract

The utility model relates to the field of hydraulics and instrumentation and can be used to determine the hydraulic characteristics of various devices: subsoil sprinklers, droppers, narrowing devices, washers, nozzles, throttles, nozzles, etc. The utility model can also be used for laboratory work. The objective of the utility model is to increase the efficiency and accuracy of measurement and to provide the possibility of studying the hydraulic characteristics and resistances of various devices at high pressures, the ability to create reverse water supply. This problem is solved due to the fact that the installation contains two tanks , on top of which a pressure air hose with valves is connected, connected to a tire filled with air with an internal metal a disk, and to the lower part of the tanks a water pressure hose with valves is connected, equipped with a manometer, and to the end of which the element under study is connected. Water is discharged into a collection tray, which is connected to the tanks through a discharge pipe with valves. The reverse installation for studying the hydraulic characteristics and resistances of devices with passage openings is equipped with a sump, and the tank volumes depend on the tasks under study and range from 10 to 1000 liters. The pressure in the installation is created by a tire with a disk, air injection. Depending on the tasks under study, tire pressure is generated from 0.10 to 10 atmospheres. The proposed technical solution is more efficient than analogs and provides a reverse water supply system. Based on the utility model, training stands can be created.

Description

The utility model relates to the field of hydraulics and instrumentation and can be used to determine the hydraulic characteristics of various devices: subsoil sprinklers, droppers, narrowing devices, washers, nozzles, throttles, nozzles, etc. The utility model can also be used for laboratory work.

From the existing level of technology, there is known a device for researching hydraulic resistances [1], which contains a fixed Mariotte vessel with a drain channel connected to a horizontally arranged pipeline made with bending at an acute angle and containing a throttle washer installed after the turning section. A valve is installed at the end of the pipeline by means of a threaded connection. Also, four piezometers located at a distance of one meter from each other are tightly fixed on the pipeline.

The disadvantage of the installation is the impossibility of creating high pressures on it for carrying out hydraulic studies.

The closest technical solution is the installation for hydraulic research [2]. Installation for hydraulic research contains a plant that receives water from the test element. The test element is connected to the pressure water tank using a water pressure hose. The pressure in the installation is created by a tire with a metal disk connected to the water pressure tank using an air pressure hose. To measure the water pressure, the installation is equipped with a pressure gauge with water valves. The pressure water tank is mounted on a tripod, and the air pressure hose has an air valve. The pressurized water tank is equipped with a measuring scale.

The disadvantage of the installation is the impossibility of creating recycled water supply.

The objective of the utility model is to increase the efficiency and accuracy of measurement and to provide the possibility of studying the hydraulic characteristics and resistances of various devices at high pressures, and the ability to create reverse water supply.

This problem is solved due to the fact that the installation contains two tanks, on top of which a pressure air hose with valves is connected, connected to a tire filled with air with an internal metal disk, and a water pressure hose with valves, equipped with a pressure gauge, is connected to the bottom of the tanks the end of which is attached to the test element. Water is discharged into a collection tray, which is connected to the tanks through a discharge pipe with valves. The reverse installation for studying the hydraulic characteristics and resistances of devices with passage openings is equipped with a sump, and the tank volumes depend on the tasks under study and range from 10 to 1000 liters. The pressure in the installation is created by a tire with a disk, air injection. Depending on the tasks under study, tire pressure is created from 0.10 to 10 atmospheres.

The essence of the utility model is illustrated by drawings, which depict:

In FIG. 1 is a diagram of a revolving installation for investigating the hydraulic characteristics and resistances of devices with through holes when operating in the pressure mode of the first tank and the discharge mode of the second tank;

In FIG. 2 is a diagram of a rotary installation for investigating the hydraulic characteristics and resistances of devices with through holes when operating in the pressure mode of the second tank and the discharge mode of the first tank.

A rotary installation for studying the hydraulic characteristics and resistances of devices with passage openings contains the test element 1 and a tire 2 with a disk 3, which are connected to each other by means of an air pressure hose 4 with valve 5. A reversing installation for studying the hydraulic characteristics and resistances of devices with throughputs with holes has a first tank 6 and a second tank 7, which are connected from above to the air pressure hose 4, respectively, through valve 8 and valve 9. Water to the test electric Ment 1 is fed through a water pressure hose 10 connected to the first tank 6 and the second tank 7, respectively, through valve 11 and valve 12. To measure the water pressure, the revolving unit for studying the hydraulic characteristics and resistances of devices with through holes is equipped with a pressure gauge 13. Water from the test element 1 is discharged into the collecting tray 14 with a settler 15 and then through the discharge pipe 16 it can go to the first tank 6 or the second tank 7, respectively, through valve 17 and valve 18. Before the test lementom 1 on the water discharge hose 10 is provided a valve 19.

A rotary installation for studying the hydraulic characteristics and resistances of devices with passage openings works as follows. Air is pumped into the tire 2 with the disk 3 before the electric pump to the required pressure. The revolving installation for studying the hydraulic characteristics and resistances of devices with passage openings has two tanks that are connected to each other using an air pressure hose 4 with a valve 5. The revolving installation for investigating the hydraulic characteristics and resistances of devices with passage openings has a first tank 6 and a second tank 7, which are connected from above to the air pressure hose 4, respectively, through valve 8 and valve 9. Water is supplied to the test element 1 through a water pressure the second hose 10 connected to the first tank 6 and the second tank 7, respectively, through the valve 11 and valve 12. To measure the water pressure, the reverse installation for studying the hydraulic characteristics and resistances of devices with through holes is equipped with a pressure gauge 13. Water from the test element 1 is discharged into a collection tray 14 with a settling tank 15 and then through the discharge pipe 16 can enter the first tank 6 or the second tank 7, respectively, through the valve 17 and valve 18. Before the test element 1 on the water pressure hose 10, a valve 19 is provided. During the operation of the tank 6, the valve 8 is open and the valve 9 is closed and air enters the tank 6. Then, water under pressure enters the pressure hose 10 through the open valve 11, valve 12 is closed, and the tank 7 works as a discharge , and water enters it through the discharge pipe 16 through the open valve 18 (Fig. one). After emptying the tank 6 and filling the tank 7, they change their settings (Fig. 2). Water in the pressure hose 10 will come from the tank 7, and discharged through the discharge pipe 16 to the tank 6. To measure the pressure during research, the installation has a pressure gauge 13.

The proposed technical solution is more effective than analogues and provides a reverse water supply system. Based on the utility model, training stands can be created. Information sources

1. Patent of the Russian Federation No. 102397, IPC G01D 11/00 / Installation for the study of hydraulic resistance / Solodovnikov A.V., Pavlik V.A., Shamanov V.D., Belyaev Yu.G., Migachev A.S. Application 10.27.2010: publ. 02/27/2011 (Analog).

2. Patent of the Russian Federation No. 2581184, MPU G05D 7/01. Installation for hydraulic research / Lamerdonov Z.G. Claim 12/17/2014; publ. 04/20/2016, Bull. No. 11 (Prototype).

Claims (4)

1. A reverse installation for studying the hydraulic characteristics and resistances of devices with passage openings, comprising a pressure water tank, characterized in that the installation contains two tanks, on top of which a pressure air hose with valves is connected, connected to a tire filled with air with an internal metal disk, and to the lower part of the tanks a water pressure hose with valves is connected, equipped with a manometer, and to the end of which the element under study is connected, the water is discharged into the collection a tray, which is connected to the tanks through a discharge pipe with valves. 2. A reverse installation for studying the hydraulic characteristics and resistances of devices with passage openings according to claim 1, characterized in that it is equipped with a sump. 3. A reverse installation for investigating the hydraulic characteristics and resistances of devices with passage openings according to claim 1, characterized in that the volume of the tanks depends on the tasks being studied and range from 10 to 1000 liters. 4. A revolving installation for studying the hydraulic characteristics and resistances of devices with passage openings according to claim 1, characterized in that a pressure from 0.10 to 10 atmospheres is created by a tire with a disk and air injection, depending on the tasks under study.

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