SU1024777A1 - Valve pair tightness investigation device - Google Patents

Description

ABOUT

Yu

N

  The invention relates to tests on the density of valve devices of pneumo-automatics and can be used to study the density of various valve pairs, mainly with compaction of visco-elastic material under conditions of vibration. A known installation for examining the density of valve pairs, comprising a frame, a body rigidly connected to it with an adapter, a chamber for distributing the valve pair and a mount assembly for the valve pair, a power supply system and flow measurement of the control medium connected to the chamber, located in the housing adapter Valve spool fastening assembly, made in the form of a support, and associated with it by a hub nut, valve stroke indicator mounted on the housing and interacting with the valve pair seat, and sensor C s l. The disadvantage of this installation is that it does not provide the results of the study of the density of valve pairs with sufficient intensity under vibration effects. The closest to the invention is a device for the study of the density of valve pairs, which contains a vibrator with a snap-mounted attachment a valve pair, a power supply system connected with it, and flow measurement of the test medium; a valve pair seat mounting unit rigidly connected to a body mounted on a fixed the base frame, the valve stem mounting assembly, made in the form of a holder and a rigid element rigidly connected to it with an accelerometer, a displacement sensor, a sensitive element of which is in contact with a plate fixed on the supporting element and an adapter with a piston and a sensor installed in it forces with a liquid layer between them, and the adapter is kinematically connected through the elastic element with the snap-in of the vibrator and is in contact with the stop element 2. A disadvantage of the known installation is the limitation on the magnitude of the static force of pressing the spool to the seat, since with increasing preload of the valve pair, the force acting on the table of the vibrator increases, and consequently, the power of the vibrating stand is necessary to create a given mode of vibration. In addition, random vibrations of the vibrator table are possible due to voltage changes in the mains, the amplitude of which can significantly exceed the specified amplitude of vibrations. Since the saddle is stationary, the stress state in the seal of the valve pair is unstable, which leads, first, to additional errors of the experiment, and, secondly, with significant fluctuations, even to the malfunction of the valve pair. The purpose of the invention is to improve the technical characteristics of the installation. This goal is achieved by the fact that in an installation for examining the density of valve pairs, containing a vibrator with equipment attached to it, a chamber for accommodating a valve pair, a control medium connected to it, and a valve pair mounting assembly, a valve spool mounting assembly a pair, made in the form of a holder and rigidly connected to it a thrust element with an accelerometer, a displacement sensor, an adapter with a piston and a force sensor with a liquid interlayer between them, Rich adapter kinematically coupled through an elastic member with snap vibrator and contacts the stop member, fastening seat assembly rigidly connected to the snap-vibrator, displacement sensor is fixedly mounted in the assembly seat attachment and movement sensitive sensor element is secured to the spool. The drawing shows a setup for examining the density of valve pairs, a general view. The installation comprises a vibrator 1 with a fixture 2 fixed on it, with which the seat-pair assembly of the valve pair is rigidly connected. The saddle and zolbtnik 5 are located in chamber b, to which a power supply system (not shown) is connected through fitting 7, and leaks are diverted through fitting 8 to the system (indicated) to measure the flow rate of the test medium. The fastening assembly of the spool 5 is made in the form of a holder 9 and a stop member rigidly connected with it; element 10 and an accelerometer 11. On the spool 5 installed in the holder 9, the sensing element 12 of the displacement sensor 13 fixedly mounted in the saddle attachment unit 3 is fixed. The thrust element 10 with its lower part through the ball It, the piston 15 and the liquid layer 16 interacts with the force sensor 17 installed in the adapter 18 | which, via the elastic element — spring 19 — is connected with clutch 20 on the tooling 2. The installation works as follows. The test seat is installed in the mount 3 and the spool 5 in the holder 9 and connected to the sensing element 12 of the displacement sensor 13, which is fixedly mounted on the node 3. The saddle k and the spool 5 are placed in the chamber 6, which is also fixed on the node 3 Then knot. 3 The fasteners are rigidly connected with the rigging 2 mounted on the vibrator table 1. With the help of fittings 7 and 8, the installation is connected to the power supply system and the flow measurement of the test medium. With the “} pin of the coupling 20, it is necessary to press the spring 19, i.e., it provides the necessary static force to press the spool 5 to the saddle. 4, the value of which is measured by a force sensor 17. Since the saddle attachment unit 3 is rigidly connected to the rigging 2, only the weight of the installation acts on the one of the vibrator 1, regardless of the magnitude of the force pressing the spool 5 to the saddle k. After that, the system is supplied with the control medium at a predetermined pressure and leakage is measured through the valve pair, consisting of the saddle k and the spool 5 "With the vibrator turned 1, the spool 5 oscillates with respect to the saddle with the oscillation frequency of the vibrator. Since the node 3 of the saddle attachment k is rigidly connected with the rigging 2, unintended oscillations of the vibrator table 1 cause a slight relative displacement of the saddle k and the spool 5, and consequently, little influence on the tight state in the seal of the valve pair, which increases the reliability an experiment. The movement of the spool 5 relative to the seat is measured by the sensor 13 static and dynamic force acting on the spool 5 using the sensor 17t and accelerating the movement of the spool 5 relative to the fixed base of the vibrator 1 using an accelerometer 11. Sign-vibration frequency can also determine the speed and acceleration; movement of the valve pair elements relative to each other. The use of the installation allows experimental studies of valve pairs with high, high accuracy in a wide range of usi pins, pressing the spool to the seat even on i vibration stands with a small buoyancy force. This reduces energy costs when conducting a large amount of testing.

Claims (1)

(5 ^ I57) INSTALLATION FOR STUDYING THE DENSITY OF VALVE COUPLES, containing a vibrator with a snap attached to it, a chamber for accommodating a valve pair, a power supply and flow control measuring system connected to it, a valve pair mounting unit, a valve pair valve mounting unit, made in the form of a holder and a rigidly connected thrust element with an accelerometer, a displacement sensor, an adapter with a piston installed in it and a force sensor with a liquid layer between them, and the adapter is kinematically connected through an elastic element with a snap of a vibrator and is in contact with a thrust element, characterized in that, in order to improve its technical characteristics, the saddle mount is rigidly connected to the vibrator snap, the displacement sensor is fixedly installed in the saddle mount, and the sensitive sensor element displacement is fixed on the spool.