SU1538071A1 - Device for compacting hollow articles bein tested for tightness - Google Patents

Abstract

The invention relates to a testing technique and can be used in leak tests. The purpose of the invention is to simplify the design and improve performance. The rod 2 with the piston 3 and the channels 4 and 5 is installed in the cylinder 1, to which the sleeve 7 is rigidly attached, located coaxially to the cylinder 1, with a radial clearance relative to it. On the ledges of the sleeve 7, sealing elements 8 and 9 are installed. In the radial clearance there is a press-tube skirt 11 sealed relative to cylinder 1, sleeve 7. When pressure is applied to channel 4, cylinder 1 together with sleeve 7 and pressure cup 10 is displaced until the sealing element 9 into the product. Then, due to the pressure increase in the rodless cavity of the cylinder 1, the pressure cup 10 moves and, by squeezing the sealing element 8, expands it, seals the product. When pressure is applied to channel 5, all elements return to their original position. 1 il.

Description

The invention relates to testing equipment and can be used in leak tests.

The purpose of the invention is to simplify the design and improve performance by using as a mechanism for expanding the sealing element of the hydraulic actuator

The drawing shows a device, General view.

1538071 ^{4 with the} skirt 11 of the pressure cup 10, the cylinder 1 and the sleeve 7, then first in the process of moving the pressure cup 10 is stationary relative to these elements and moves with them relative to the rod 2.

The movement continues until the element 9 of the hole. The cylinder 1 mechanical seal does not reach the stop at the end of the product and seals it. will stop. At the same time, the Device for sealing hollow products during leak testing contains a cylinder 1, inside of which ₁₅ a rod 2 is placed with a piston 3 at one end and with two channels 4 and 5, I supply and discharge, the outputs of which are located on opposite sides piston 3. From the side of the rod 2, cylinder 1 is closed by a cover 6. Coaxial to the cylinder 1 s. the radial immersion in the rodless cavity of cylinder 1 will increase, and therefore, the pressure will also increase in the supply cavity 12, since there is a channel 14. When the pressure reaches a certain value sufficient to overcome the friction force, the pressure cup will move (to the right to the drawing), and compresses the expandable radial sealing element 8, which seals the rum with respect to it, a sleeve 7 with ledges mounted rigidly fastened to the cylinder 1.

On the sleeve 7 there are sealing elements — an expandable radial element 8 and an end element 9. The sealing elements 8 and 9 are in contact with the corresponding ledges of the sleeve 7..

On the cylinder 1 from the side opposite to the rod 2, a pressure cup 10 is installed, having a skirt 11, which is included in the radial clearance between the cylinder 1 and the sleeve 7 and sealed relative to them. The pressure cup 10 is mounted axially movable relative to the cylinder 1 and the sleeve 7, and its skirt 11 forms the inlet and outlet cavities 12 and 13 between them. In the cylinder 1, channels 14 and 15 are made, respectively communicating its rodless cavity with the inlet cavity 12 and stock cavity with outlet cavity 13.

The device works as follows.

The rod 2 is rigidly fixed in the test bench, and its channels 4 and 5 are connected to the hydraulic system of the bench.

When the working medium is supplied into the rodless cavity, cylinder 1 moves (to the left, according to the drawing), and the sleeve 7 enters the hole of the tested product.

Since the friction force between the cylinder 1 and the piston 3 is set less than the friction forces between the inside of the product.

After testing, the pressure is supplied 25 to the outlet channel 5 of the rod 2 and then through the rod cavity and channel 15 to the outlet cavity 13.

The pressure cup 10 moves away (to the left in Figure 30), releasing the radial sealing element 8, and then the cylinder 1 moves to its original position (according to the drawing to the right), removing the sleeve 7 from the hole _{3 of the} test article ₅ .

Claims (1)

Claim A device for sealing hollow products during leak testing, containing a cylinder, a rod with a piston at one end and with two channels, the outputs of which are located on the opposite sides of the piston, mounted coaxially with a radial clearance relative to the cylinder, covering it and rigidly fastened to it with a sleeve with a step on which sealing elements are placed, ςθ each of which is on one side in contact with a corresponding ledge, and a relative to the axial displacement mounted on the cylinder axially displaceable but the cylinder and the sleeve on the 'press cup contacting with an open □ 5 * end with one of the sealing elements on the opposite side of the ledge, characterized in that, in order to simplify the design 5 1538071 6 to improve operational characteristics, the pressure cup is made with a skirt in the form of an annular piston, which is placed in the radial clearance between the cylinder and the sleeve and sealed relative to them with the formation of inlet and outlet cavities, and the cylinder is made with channels, one of which communicates with the rod a cylinder cavity with a discharge strip 5, and the other a rodless cylinder cavity with a supply cavity.