RU95774U1 - LATCH TEST STAND - Google Patents

Abstract

 A test bench for valves containing a tested shut-off element and a system for loading the working medium, including a source of the working medium, measuring elements for the parameters of the latter and parameter sensors associated with secondary devices and the control system for the operation of the test product, characterized in that the system for loading the working medium contains an additional a steam cylinder with a piston dividing the cylinder into left and right cavities, while the piston is equipped with a bypass hole and is connected through a rod and articulated cylindrical stops s with the swinging pusher and the gate of the tested product, the swinging pusher is connected by a thrust to the spring, and the right cavity of the steam cylinder is connected by a pipe to the stem cavity of the tested product equipped with a spool.

Description

The utility model relates to the field of valve engineering and can be used for testing in stand-by conditions emergency operating modes of valves with an extremely high flow rate of the working medium (> 10000 t / h).

There are known stands for testing pipe fittings that reproduce full-scale working conditions and contain a test shut-off element and a system for loading the working medium, including a source of the working medium, measuring elements for the parameters of the latter and parameter sensors associated with secondary devices and with the control system of the elements of the tested product (see for example, German patent No. 4383255 according to CL F16K 15/18 for 1998).

The disadvantages of the known stands include significant metal consumption and cost, due to the reproduction of the natural loading conditions of the shut-off element with the creation of extremely high costs of the working environment.

The objective of the utility model is to eliminate these shortcomings, to reproduce the full-scale loading conditions at a low stand, which significantly reduces the metal consumption of the latter and its cost.

The problem is solved due to the fact that in the well-known test bench for pipe fittings containing the tested shut-off element and the system of loading the working medium, including the source of the working medium, measuring elements of the parameters of the latter and parameter sensors associated with secondary devices and with the control system of the elements of the tested product , according to the proposed utility model, the system for loading the working medium contains an additional steam cylinder with a piston dividing the cylinder into left and right bands In this case, the piston is equipped with a bypass hole and is connected through the rod and articulated cylindrical stops with the swinging pusher and the gate of the test product, the swinging pusher is connected by a thrust to the spring, and the right cavity of the steam cylinder is connected by a pipe equipped with a spool to the cavity of the rod of the tested product.

The described implementation of the stand allows you to simulate when testing valves with a wedge gate, the full-load conditions of the loading of the valve elements even under the most extreme operating conditions, for example, with a complete break of the line after the shut-off valve, without using systems to create a full flow of the working medium, which reduces the metal consumption of the stand and its cost.

The drawing schematically shows the proposed device.

The stand contains a test valve, including a housing 1, a gate 2 and a stem 3. A steam cylinder 4 is connected to the valve body 1 with a piston 5 dividing the cylinder into left 6 and right 7 cavities connected by the bypass channel 8. The piston 5 is connected to the rod 9, and the latter through the articulated cylindrical stop 10 - with a swinging pusher 11, the other end of which through the articulated cylindrical emphasis 12 rests on the gate 2 of the tested valve. The pusher 11 is connected through the rod 13 to the spring 14. The cavity 7 of the cylinder 4 is connected to the stem cavity 3 by a pipe 15 provided with a spool 16. The environmental parameters sensors, secondary devices, and means for photographing the sealing surfaces of the tested product are not shown in the drawing.

The operation of the device can be illustrated by a mode that simulates a line break after a valve, in which the flow rate of the working medium through the valve increases by an order of magnitude. It should be noted that the main efforts perceived by the gate 2, in the plugs with the wedge gate arise on the last third of the gate 2 to close.

When the gate 2 is open, a pair of nominal parameters is supplied to the steam cylinder 4 in its left cavity 6, which enters the cavity 7 through the channel 8, which creates a pressure drop that causes a force acting in the direction of the gate 2. At the beginning of the valve closing, the right end of the swinging plunger 11 is in its highest position under the action of the spring 14 and the thrust 13. As the gate 2 is closed under pressure on the rod 3 (approximately in the last third of the stroke), the pusher 11 through the articulated stop 12 begins to transmit force to the gate 2, simulating a full dnuyu load.

Claims (1)

A test bench for valves containing a tested shut-off element and a system for loading the working medium, including a source of the working medium, measuring elements for the parameters of the latter and parameter sensors associated with secondary devices and the control system for the operation of the test product, characterized in that the system for loading the working medium contains an additional a steam cylinder with a piston dividing the cylinder into left and right cavities, while the piston is equipped with a bypass hole and is connected through a rod and articulated cylindrical stops s with the swinging pusher and the gate of the tested product, the swinging pusher is connected by a thrust to the spring, and the right cavity of the steam cylinder is connected by a pipe to the stem cavity of the tested product equipped with a spool.