SU1352314A1 - Installation for testing high-pressure hoses for fatigue strength - Google Patents

Abstract

The invention relates to testing equipment, in particular to installations for testing high pressure hoses (HPH) for fatigue strength. The purpose of the invention is to increase productivity by providing simultaneous testing of two high-pressure hoses and extending the range of control of the main loading parameters. The supply system of working adhesion consists of a hydraulic pump 1 with a pressure regulator, a device for creating a pulsator, its pressure in the form of a hydraulic motor 2 with a flywheel 3 of adjustable mass and a hydraulic accumulator 4. The drain line includes a hydraulic head 5 and an adjustable throttle 6. For controlling the flow of the working fluid supplied to the high pressure hoses 7 and 8, a distributor is installed in the form of a three-position spool 9 driven by a negative feedback circuit (OOS) with a position sensor 10 mounted on the shaft of the hydraulic engine 2 The cyclic loading of high-pressure hoses 7 and 8 is accomplished by switching a three-position spool 9 controlled by a signal along the OOS circuit from the position sensor 10. 2 Il. (L f / oo JV ISD with 10 qjus.l

Description

The invention relates to testing equipment, in particular to installations for testing high pressure hoses (HPH) for fatigue strength under the action of the pulsating pressure of the working fluid.

The purpose of the invention is to increase productivity by simultaneously testing two sleeves and expanding the range of control of the main loading parameters.

FIG. Figure 1 shows a setup for testing the WFD; in fig. 2 -. functional diagram of the position sensor of the negative feedback (OOS) circuit.

The installation contains a working fluid supply system consisting of a hydrog pump 1 with a flow controller, a device for creating a pulsating pressure, made in the form of a hydraulic motor 2 and an adjustable mass installed on its flywheel 3 shaft, and a hydraulic accumulator 4, as well as a drain line, including a hydroaccumulator 5 and an adjustable choke 6. To regulate the flow of the working fluid supplied to the test

RVD 7- and 8, a distributor is installed, 30 with the taller value of the angle пов of shaft rotation made in the form of a three-position hydraulic motor 2 of a fixed spool 9 with a closed center. A chain is designed to actuate the three-position spool 9.

chen Vj. The position sensor 10 generates a signal that switches the spool 9 to the second (neutral OOS position connected between the spool 9 35 position), which also causes the device to create a pulsating pressure to increase in the high pressure hose 7 and to drop

pressure in which the position sensor 10 is placed. On the studied high pressure hoses 7 and 8, dynamic pressure sensors 11 and 12 are installed, respectively.

The installation works as follows.

When the spool 9 is turned on in the first position, the corresponding image of the various sizes of the WFD is shown in FIG. 1, the working fluid from the hydraulic pump 1 enters the investigated RVD 7 and then through the hydraulic motor 2 to the WFD 8, and then through the system efficiency and to provide wide possibilities for adjusting the main loading parameters: oscillation frequencies, amplitude oscillating cavity of the spool 9 and throttle 6 50 maximum pressure enters the drain. At the same time, the shaft of the hydraulic motor 2 begins to rotate and spins the flywheel 3 until the current value of the angle θ of rotation of the shaft of the hydraulic motor 2 reaches 55 of the preset angle value C) of the position sensor 10, as a result of which the floating signal switches the valve 9 to the second

and values of the static component of the load.

Claims (1)

Formula isotopic A test device for testing high pressure fatigue strength hoses containing a hydraulic fluid supply system with a hydraulic pump and the position (neutral position) and the test sleeves 7 and 8 are disconnected from the supply and drain lines. Due to the use of the flywheel 3, the shaft of the hydraulic motor 2 continues to rotate in the original direction, which leads to a sharp increase in pressure in the HF 8 and a pressure drop in the RDD 7. This occurs as long as the position sensor 10 in the OOS circuit is in the zone insensitivity between values ten 4o After reaching the value (the position sensor 10 triggers and issues a signal to switch the spool 9 to the third position, while the working fluid flows created by continuing to rotate the hydraulic motor 2 and the supply hydraulic pump 1 are opposing, which causes a further increase in pressure in the HPH 8. This occurs until the flywheel 3 loses its stored energy and stops. Then, under the action of high pressure in the HPH 8, the shaft of the hydraulic motor 2 begins to spin the flywheel 3 in the opposite direction. After the current value of the angle H of rotation of the shaft of the hydraulic motor 2 is fixed chen Vj. position sensor 10 of the extrusion in the high pressure hose 8. With the value of η, the spool 9 is switched to the first position and the counter flows cause a further increase in pressure in the high pressure hose 7, after which the cycle repeats. The installation for testing high pressure fatigue strength hoses allows testing various sizes of high pressure hoses, improve the efficiency of the system and provide ample opportunities to regulate the main parameters of loading: oscillation frequencies, amplitudes of oscillations of the maximum pressure and values of the static component of the load. Formula isotopic A test device for testing high pressure fatigue strength hoses containing a hydraulic fluid supply system with a hydraulic pump and a device for creating a pulsating pressure and a drain line with a hydroaccumulator and adjustable throttle, characterized in that, in order to increase performance by providing simultaneous testing of two hoses and extending the control range of the main loading parameters, it is equipped with a hydraulic accumulator liquid, a distributor made in the form of a three-position spool with a closed center, and a negative feedback circuit connected between the distributor and the device for creating a pulsating pressure, which is made in the form of a hydraulic motor and an adjustable mass installed on the flywheel shaft on its shaft torus flow. / fpeffecfpt / me / fff / f manual tuning fro 20 30 tu.o 3 / fovefft / e FIG. 2 Compiled by V. Pleshakov Editor A. Dolinich Tehred A. Kravchuk Proofreader L. Patay Order 5557/40 Circulation 776 Subscription VNISh State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4