SU741061A1 - Device for testing hollow articles with internal pressure - Google Patents

Description

(54) DEVICE FOR TESTING OF HOLLOW PRODUCTS WITH INTERNAL PRESSURE

I

The invention relates to the field of testing and can be used in tests for tightness and destruction of tanks, pipes and other hollow bodies.

A device for testing tubular or hollow bodies is known, comprising a device for transferring pressure to several test pieces, devices for individually indicating the destruction of each of these items, and automatic shut-off valves mounted on the branches to the test pieces.

This device allows testing only the destruction of products 1.

The closest technical solution to the invention is a device for testing hollow bodies with internal pressure, comprising a hydraulic power supply system consisting of high and low pressure lines, a control hydraulic system including low and high pressure lines, and a hydraulic multiplier part of which is low pressure. with control hydraulic system and reversible

with feedback on the position of the piston, and a part of the high pressure is connected through a valve to the product under test and to the high pressure line of the hydraulic supply system 2.

 The disadvantages of this device include the repetition of the operator’s actions during repeated test cycles and the time spent on performing the filling operation of the tested products, 0 LIH, which leads to an increase in the testing time as a whole.

The aim of the invention is to provide an automatic test mode.

The goal is achieved by the fact that

15 The device is equipped with a line with unloading and retaining valves, connected to the low pressure line of the hydraulic supply system and used to connect the latter to the test product, an electrical contact pressure gauge with minimum and maximum pressure settings, located in front of the unloading valve, with a slide valve connected to the unloading valve, the plunger of the valve is made with the possibility of reciprocating movement, and an electrical circuit controlling the movement of the plunger including an electromagnet, a time relay, manometer contacts to control the position of the spool plunger.

To increase speed, the device is equipped with shut-off elements, one of which serves to connect the high-pressure hydraulic supply system line to the product under test, and the others to connect the low-pressure line of the same system to the test product and discharge valve.

The locking member at the inlet to the unloading valve is made with an electrical contact that determines the position of the indicated locking member.

FIG. Figure 1 shows the hydraulic circuit of the device; in fig. 2 is an electrical circuit for controlling individual items of equipment.

The device contains a hydraulic power supply circuit including a pump 1, a tank 2 and a filter 3, a hydraulic multiplier 4, the low pressure part of which, namely the cavity 5 and b of the cylinder, is connected via a reversing valve 7 to a control hydraulic system including a pump 8, tank 9 , filter 10 and pressure reducing valve 11. Porsch 12 is connected via lever 13 to spool plug 7. Part of the high pressure multiplier through suction 14 and pressure 15 valves is connected to discharge line 16 of pump 1, and through electromagnetic valve 17 - with the test product 18, which, through the solenoid valve 19 is connected to manifold 16 and through the solenoid valves 20 and 21, discharge 22 and booster valves 23 - 2 to the tank of the hydraulic power system. An electric contact pressure gauge 24 is installed on the valve between valves 17 and 22. Valve actuator 22 is connected to spool 25, which is equipped with an electromagnet 26 and a spring 27 acting on plunger 28 of spool 25, while the position of the plunger is fixed by means of pin 29. The spool 25 is also connected to a control hydraulic system and a spool 7. The valve 21 is provided with a contact 30 determining the position of this valve, one side of this contact is directly connected to one phase of the electrical supply, and the other side of the contact is terminal 31 the minimum setup gauge 24, an electromagnet 26, a contact 32 time relay (not shown), a contact manometer 33 setting the maximum 24 and the element (e.g., induction) of the actuator 34 time switches - to the other phase of the electric power. The lines between the contacts 32 and 33, between the contact 31 and the electromagnet 26 are interconnected via the contact 29.

The device works as follows. In the filling mode, valves 19 and 21 are opened and pump 1 is turned on. Water from tank 2 through filter 3 and valve 19 is supplied by pump 1 to product 18, with the result that the product is filled with water and air is released through valve 21. During filling products with a pressure gauge 24 set the maximum and minimum test pressure, the reducing valve, taking into account the multiplicity of the pressure increase, is set by the multiplier 4 to a pressure multiple of the maximum test pressure, and the retaining valve is set to the minimum Test pressure. The filling of the product 18 is determined by the presence of water flow at the outlet of the valve 21, after which the valves 19 and 21 close and turn on the pump 8.

0 The electric current passing through the contacts 30 and 31 turns on the electromagnet 26, as a result of which the contact 31 is shunted through the contacts 32 and 29, and the gold 25 connects the line from the pressure reducing valve to the pin 7 and the line from the valve actuator 22 to the tank 9 The liquid from the tank 9 is supplied to the spool 7 by the pump 8. From the spool 7 the liquid enters the right cavity 6 of the cylinder, while the piston 12 moves to the left and at the end of its stroke with the help of the lever 13 moves the plunger of the spool to the extreme left position. As a result of this right, the cavity 6 of the cylinder is connected to the tank 9, and the left to the outlet of the pressure reducing valve, i.e. The porsch 12 is retracted, with which the high pressure part of the multiplier makes the movement and plunger. As the plunger travels to the right, water from line 16 through valve 14 enters the cylinder of the high pressure portion of the multiplier.

0 When the plunger moves to the left, water from this cylinder through valves 15 and 17 enters the product 18, as a result of which the pressure in it increases. When the minimum test pressure is reached, contact 31 opens, but electric current continues to flow to electromagnet 26 through contacts 32 and 29. When the maximum test pressure is reached, contact 33 closes and the time relay actuator 34 is triggered. After the research institute installed on the time relay opens contact 32, the power is removed from the electromagnet 26, the plunger 28 of the spool 25 under the influence of the spring 27 occupies the extreme right position, as a result of which the valve actuator 22 is connected to the line from the pressure reducing valve I, the valve 22 opens, and pressure is released through the retaining valve 23 due to the passage through it of the water from the product 18. As

only the pressure is reduced to the minimum, the valve 23 is closed, and contact 31 is closed, as a result of which the electromagnet is turned on, and the test cycle is repeated.

At the end of the test, valves 20 and 21 are opened, pumps 1 and 8 are turned on, and, if necessary, the valve 17 is closed. Water from product 18 through valve 20 is poured into tank 2, and air flowing through valve 21 takes its place in the product when open which contact 30 is open, i.e. The power of the electromagnet is removed regardless of the position of the other elements of the electrical circuit.

Other variants of the individual elements of the device are possible. Instead of the spring 27, you can use another electromagnet. Instead of the pump 1, you can use the water supply network, and instead of the tank 2 - the drainage network of the water supply system. In this case, the hydraulic supply system will consist of high pressure lines (water supply system) and low pressure lines (drainage). Instead of the pump 8 and the block 9, it is also possible to use high and low pressure lines of oil, air or other working fluid. Instead of valves with an electromagnetic actuator, you can use any type of valve (valve, gate valve, valve, etc.) with any type of actuator.

The use of the described device allows one to automate the process of testing the product in the case of repeated repetition of the loading cycle with internal pressure and to significantly reduce the test time by reducing the time the product is filled with liquid.

Claims (2)

1. An apparatus for testing hollow articles with internal pressure, comprising a hydraulic power supply system consisting of high and low pressure lines, a control hydraulic system including a low and high pressure lines, a hydraulic multiplier, a low pressure part is costly connected to the control hydraulic system and reversible with feedback on the position of the piston of the multiplier, and a part of the high pressure is connected through valves to the product and the main High pressure hydraulic supply system, characterized in that, in order to carry out tests in automatic mode, it is equipped with a line with discharge and retaining valves connected to a low pressure line of the hydraulic supply system and used to connect the latter to the product under test, an electrical contact pressure gauge with devices minimum and maximum pressures placed in front of the unloading valve, a spool connected to the actuator of the unloading valve, a spool plunger made with the possibility of reciprocating movement, and an electric circuit controlling the movement of the plunger, including an electromagnet, a time relay, and a manometer contact for controlling the position of the spool plunger. 2. The device according to claim 1, characterized in that, in order to increase speed, it is provided with shut-off members, one of which serves to connect the high pressure hydraulic supply system line to the product under test, and others to connect the low pressure main line of the same system to the tested product and the discharge valve. Device on PP. 1 and 2, characterized in that the locking member at the inlet to the unloading valve is made with an electrical contact that determines the position of said locking member. Sources of information taken into account in the examination 1. US patent No. 3398573, CL. 73-49.5, 1974. 2. USSR author's certificate No. 317954, cl. G 01 N 3/12, 1968 (prototype). 24 g 22 23 29 25 CH -ABOUT 2 one& 20 f6 one 12 7 TH / 2. / JO Tg 26 29 2