RU2310321C1 - Apparatus for carrying-out of laboratory tests, preferably, droppers built into cavities of flexible irrigation pipeline - Google Patents

Abstract

FIELD: stand equipment for testing operation of variously designed droppers built into cavities of flexible irrigation pipeline or fixed on its surface.

SUBSTANCE: apparatus for laboratory testing of droppers has bed with reservoir and tank mounted on bed. Reservoir is hydraulically communicating with tank by means of two-position valve and drop former. Drop former is defined by two parallel bars positioned within reservoir, nipples arranged in pairs opposed to one another, lengths of flexible irrigation pipelines with droppers. Ends of each length of flexible irrigation pipeline are mounted on inlet conical surfaces of nipples. There is at least one dropper in each length of flexible irrigation pipeline, said dropper being built into cavities of said length and provided with water outlet opening oriented downward. Ends of each flexible irrigation pipeline are fixed by means of captive nuts positioned on threaded portions of nipples. Measuring cylinder is positioned under each water outlet opening of flexible irrigation pipeline so as to be moved to operating position and non-operating position. Measuring cylinder is located within common drive mechanism formed as U-shaped bar positioned in paired guides. Guides are mounted within reservoir wall. Cassette is detachably positioned on bar and adapted for keeping of measuring cylinders in vertical position. Cassette is reinforced with resilient material.

EFFECT: increased efficiency and wider operational capabilities of apparatus.

5 cl, 3 dwg

Description

The invention relates to bench equipment for carrying out studies of droppers of various designs, both integrated in the cavity of a flexible irrigation pipe and fixed on its surface.

A well-known laboratory sprinkler installation, including a bed with a reservoir attached to it, a movable frame and a trolley with a drop former in the form of a set of removable needles, a mechanism for reciprocating movement of a trolley with a cargo, cable drive, in which, in order to increase efficiency and operational reliability, the mechanism trolley movement is equipped with an automatic control device, made in the form of a tank with a float, hydraulically connected to the tank, while the float is kinematically connected with the shaper I have drops and a freight drive, and the automatic control device is equipped with a two-position crane with a spring-loaded trigger lock kinematically connected to the float (copyright certificate SU No. 1517851 A1, M. class ⁴ A01G 25/02. Laboratory sprinkler. / V.F. Hammer , V.K. Gladky, N.Yu. Kreker, L.N. Sidorova (USSR) - Application No. 4305209 / 30-15; filed September 15, 1987; published October 30, 1989, Bull. No. 40).

The disadvantages of the described laboratory sprinkler, which we adopted as the closest analogue, include limited functionality, the inability to obtain reliable experimental data on the operation of droppers, the difficulty of replacing the test droppers.

The essence of the claimed invention are as follows.

The problem to which the claimed invention is directed is to obtain reliable experimental data for constructing the flow characteristics of droppers built into the cavities of flexible irrigation pipelines, depending on the pressure of the water in the network, its temperature and density, suspension content and mineralization, the diameter of the irrigation pipeline, and the thickness its walls, design features of droppers, diameter of water outlet, etc.

The technical result is a reduction in labor costs and time for each series of experiments.

The specified technical result is achieved by the fact that in a known installation for laboratory research, mainly droppers, built into the cavity of a flexible irrigation pipe, comprising a bed with a tank and a tank fixed to it, hydraulically connected to the tank by a two-position tap and droplet shaper, according to the invention, a dropper is formed two parallel rods installed in the tank, opposite and in pairs placed on their inlet conical surfaces of the con irrigation pipelines having at least one dropper integrated in the cavity of the flexible irrigation pipe and a water outlet facing downward, the ends of each flexible irrigation pipe are fixed with union nuts on the threaded sections of the nipples, under each water outlet of the flexible irrigation pipe and inoperative position, a graduated cylinder is placed in the group drive mechanism, one of the said rods through a two-position valve hydraulically and connected with an electrically driven pump located in the tank, a control pressure gauge and an additional on-off valve connected by a branch sleeve are mounted on the other end of the said rod, and a plug and a pressure valve are placed at the ends of the other rod; the mechanism of the group drive of graduated cylinders in the working and inoperative positions is made in the form of a U-shaped rod, placed in pairs of rails mounted in the walls of the tank, and a cassette for installation in a vertical position of the graduated cylinders; the cartridge is reinforced with elastic material; the tank is placed on a bed above the tank and the tank capacity is 3-4 times larger than the tank capacity; the tank is equipped with a thermometer, a hydrometer and a tubular electric heater to change the temperature of the water.

The invention is illustrated by drawings.

Figure 1 shows the installation for laboratory research, mainly droppers, built into the cavity of the flexible irrigation pipe, plan view.

Figure 2 - section aa in figure 1, a transverse vertical section of the installation.

Figure 3 is a section bB in figure 1, a longitudinally vertical section of a flexible irrigation pipe with a built-in dropper, placed above the measuring cylinder.

Information confirming the possibility of implementing the claimed invention are as follows.

Installation for laboratory research, mainly droppers 1, built into the cavity 2 of the flexible irrigation pipe 3, includes a frame 4 with a tank 5 and a tank 6 attached to it. The tank 6 is hydraulically connected to the tank 5 with a two-position tap 7 and a drop former 8 (see .1-3).

The drop former 8 is formed by two parallel rods 9 and 10 installed in the tank 5. Nipples 11 are placed on the rods 9 and 10 opposite and in pairs. The conical surfaces 12 are made at the ends of the nipples 11 to fix the ends 13 of the flexible irrigation pipes 3. In each fragment of the flexible irrigation of the pipeline 3, at least one dropper 1 should be installed in its cavity 3. The water outlet 14 in the wall of the flexible irrigation pipe 3 is facing down, i.e. towards the bottom of the tank 5, the ends 13 of each flexible irrigation pipe 3 are fixed on the inlet conical surfaces of 12 nipples 11 with union nuts 15 screwed onto the threaded sections of 16 nipples 11. Under each water outlet 14 in the wall of the flexible irrigation pipe 3 with the possibility of transfer into the working and inoperative position mounted measuring cylinder 17.

Measured cylinders 17 are placed in the mechanism 18 of the group drive. The mechanism 18 of the group drive of the graduated cylinders 17 in the working and inoperative positions is made in the form of a U-shaped rod 19. The rod 19 is placed in pairs of rails mounted in the walls 20 and 21 of the tank 5. On the rod 19 with the possibility of dismantling placed the cartridge 22 for installation in a vertical position of the graduated cylinders 17. The cartridge 22 is reinforced with an elastic material.

One of the said rods 9 is hydraulically connected via an on-off valve 7 to an electrically driven pump 23. A pump 23 is located in the tank 6. At the other end of the said rod 9, a control pressure gauge 24 and an additional on-off valve 25 are mounted. An additional on-off valve 25 is connected to the outlet sleeve 26.

At the ends of the other rod 10 there is a plug 27 and a pressure reducing valve 28.

Tank 6 is equipped with a thermometer, a hydrometer and a tubular electric heater (TEN) with a power of 500 W and a voltage of 220 V to change the temperature of the water. The tank 5 is placed on the bed 4 above the tank 6. The tank 5 has a water outlet 29. The capacity of the tank 6 is 3-4 times greater than the capacity of the tank 5. The tank 6 is equipped with a pipe 30 and a two-position valve 31 for draining the water.

Installation for laboratory studies of droppers built into the cavity of a flexible irrigation pipe, operates as follows.

The tank 6 is filled with water that meets the requirements for testing droppers 1. Then, on the conical surfaces 12 of the nipples 11, the ends 13 of the fragments of flexible irrigation pipes 3 are mounted. The ends 13 of the tested pipelines 3 are fixed on the nipples 11 with union nuts. Then, two on-off valves 7 and 25 are opened. The electric drive of the pump 23 is connected to the alternating current network. When the pump 23 is running, water from the tank 6 is sucked in and, under pressure, flows through the vertical pipeline of the installation’s hydraulic system into the cavity of the crane 7, and then into the cavity of the rod 9 of the droplet former 8. Moving along the path of least resistance, water enters the cavity of the crane 25 and is discharged into the tank along the branch sleeve 26. By mechanism 18, graduated cylinders 17 are retracted into the inoperative position (see FIG. 1). Next, the additional valve 25 is slowly closed. The water pressure in the cavity of the rod 9 increases. With increasing water pressure from the cavities 2 of the tested flexible irrigation pipes 3, the air is displaced and with a partially open plug 27 it is vented to the atmosphere. With completely squeezed out air, the plug 27 at the end of the rod 10 is closed. Drops of water are dripped from each water outlet 14 of the pipe 3 onto the bottom surface of the tank 5. Further, partially closing the valve 25, the working pressure of the water is raised, and the magnitude of the working pressure is monitored according to the indications of the arrow of the control manometer 24.

After checking the pairing of the ends 13 of the tested pipelines 3 with nipples 11, they begin a series of experiments with droppers 1. They increase the pressure in the hydraulic network, for example, to 2 bar.

The mechanism 18 graduated cylinders 17 are brought into working position. Turn on the stopwatch. Within a predetermined time through a water outlet 14, a certain amount of water enters each graduated cylinder 17. After 0.5 hours at the same time graduated cylinders 17 mechanism 18 is taken to the inoperative position. Thanks to the divisions on the graduated cylinders with an accuracy of 0.1 cm ³ read the volume of water. According to the data obtained, the actual dropper flow rate of 1 in l / h is established.

In a similar way, the dropper flow rate is set at pressures of 4, 6, 8, and 10 bar, at different temperatures of the water, its mineralization, degree of purification from suspensions, etc.

Then change the irrigation pipes 3 with other droppers 1 and repeat the experiments according to the accepted research methodology.

When testing flexible irrigation pipes 3 without droppers 1 for the maximum water pressure in the hydraulic network, the pressure reducing valve 28 is set to operate 10 bar. When closing the valve 25, the pressure is monitored using a pressure gauge 24 at which the test pipe 3 fails (bloating, rupture, ruptures along the seam, etc.).

Thus, the described installation ensures the achievement of the specified technical result.

Claims (5)

1. Installation for laboratory research, mainly droppers, built-in to the cavity of the flexible irrigation pipe, comprising a bed with a tank and a tank attached to it, hydraulically connected to the tank by a two-position tap and droplet shaper, characterized in that the dropper is formed by two parallel drops installed in the reservoir rods, opposite and in pairs nipples placed on them, the ends of the flexible irrigation pipes mounted on their inlet conical surfaces waters having at least one dropper integrated in the cavity of the flexible irrigation pipe and a water outlet facing downward, the ends of each flexible irrigation pipe are fixed with union nuts on the threaded sections of the nipples, under each water outlet of the flexible irrigation pipe with the possibility of transferring into working and non-working of the position, a graduated cylinder is placed in the group drive mechanism, one of the said rods is hydraulically connected via a two-position valve to the The drive is mounted by a pump located in the tank, on the other end of the said rod there is a control pressure gauge and an additional on-off valve connected by a branch sleeve, while at the ends of the other rod there is a plug and a pressure reducing valve. 2. Installation according to claim 1, characterized in that the mechanism of the group drive of graduated cylinders in the working and inoperative positions is made in the form of a U-shaped rod, placed in pairs of rails mounted in the walls of the tank, and a cassette for installation in a vertical position of the graduated cylinders. 3. Installation according to claim 2, characterized in that the cassette is reinforced with elastic material. 4. Installation according to claim 1, characterized in that the tank is placed on a bed above the tank and the tank capacity is 3-4 times larger than the tank capacity. 5. Installation according to claim 1, characterized in that the tank is equipped with a thermometer, a hydrometer and a tubular electric heater for changing the temperature.

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