RU119833U1 - SEAL TEST STAND - Google Patents

Abstract

A stand for testing seals, containing a hydraulic cylinder fixed to the frame with a piston installed inside it, fixed on a double-sided rod, in which a coaxial hole is made, having a lead thread, which engages with a lead screw located in the hole, installed in the frame supports and connected to a reversible electric motor , while the rod is installed with the possibility of reciprocating movement along the guides of the frame until the contact of the stops fixed at the ends of the rod with switches, the tested seals and a device for creating pressure in the cavities of the hydraulic cylinder, characterized in that the device for creating pressure is made in the form of a rod of variable profile of the section along the length of the piston located in the bypass opening and fixed by its ends in the walls of the cavities of the hydraulic cylinder, and the rod has two sections located symmetrically relative to its middle.

Description

The utility model relates to test equipment and can be used to test the seals of rods and pistons of hydraulic cylinders.

A known test bench for seals containing a hydraulic cylinder mounted on the frame, having a piston with a double-sided rod in which a coaxial hole is made, having a running thread that engages with a lead screw installed in the holes of the frame, mounted in the frame supports and connected to a reversible electric motor, wherein the rod installed with the possibility of reciprocating movement along the guides of the frame until the contact stops, fixedly mounted on the ends of the rod, with switches and drive movement , tested seals, and a device for creating a predetermined pressure in the cavities of the hydraulic cylinder, made separately for each cavity of the hydraulic cylinder in the form of a series-connected adjustable throttle and check valve, placed in the bypass holes of the piston (decision to grant a patent for application No. 2011126727 of 06.29.2011 - prototype )

The disadvantage of this stand is that the area of the bypass holes does not change during the test, and in order to change the pressure created by the loading device containing throttles and check valves mounted inside the piston, it is necessary to disassemble the stand, and a significant number of parts significantly increase the cost of their manufacture when at the same time, reducing the level of reliability of the stand.

The objective of the utility model is to simplify the design of the bench, facilitate operation, the bench, accelerate the test process, as well as provide the ability to change the pressure during testing along the stroke length of the rod, which brings this stand closer to the actual loading conditions of the hydraulic cylinders, and ultimately increases the accuracy of the tests.

This task is achieved by the fact that in the well-known test bench for seals containing a hydraulic cylinder mounted on the frame, having a piston with a two-sided rod in which a coaxial hole is made, having a running thread that engages with a lead screw installed in the hole installed in the frame supports and connected with a reversible electric motor, while the rod is mounted with the possibility of reciprocating movement along the guides of the frame until the contact stops, fixedly mounted on the ends of the rod with a switch according to the technical solution, the device for creating pressure is made in the form of a rod of variable cross-sectional profile along its length, located in the bypass hole of the piston and fixed with its ends in the walls of the cavities of the hydraulic cylinder, and the rod has two plot located symmetrically relative to its middle.

The implementation of the loading device in the form of a rod having a variable cross-sectional profile along the stroke length allows you to change the gap in the bypass hole of the piston, and, consequently, the pressure in the cavities of the hydraulic cylinder along the stroke length of the rod.

The implementation of the variable profile of the rod from two sections located symmetrically relative to its middle allows you to set the law of pressure in the corresponding cavities of the hydraulic cylinder.

In FIG. shows a general view of the stand.

The stand includes, mounted on the frame 1, a hydraulic cylinder 2 containing a piston 3 and a two-sided rod 4, test seals 5. A device for creating pressure, made in the form of a rod 6, the cross section of which is symmetrically reduced to the end surfaces relative to the Central section. The rod 6 is located in the bypass hole 7 of the piston 3 and is fixedly fixed by the ends in the side walls of the cavities of the hydraulic cylinder 2. In the two-sided rod 4 there is a coaxial hole with an internal thread, in which a screw 8 is installed, which engages with the rod 4. The screw is fixed in bearing units 9 and 10 of the frame 1. The lead screw 8 is driven by a reversible electric motor 11, controlled by switches 12 and 13, in contact with the stops 14 and 15, fixedly mounted on the ends of the rod 4. The rod can awn axial reciprocating movement along the guide rails 16 and 17 mounted on the frame 1.

The stand works as follows. After installing the test seals 5 and filling the cavity of the hydraulic cylinder 2 with a working fluid, an electric motor 11 is turned on, which starts to rotate the lead screw 8, causing the bilateral rod 4 to move. When the bilateral rod moves to the right (as shown in figure 1), the working fluid in the right cavity of the hydraulic cylinder is compressed by the piston 3 and flows into the left cavity through the bypass hole 7, the passage area of which changes due to changes in the cross-sectional profile of the rod 6 along the stroke length of the rod, providing the necessary enenie pressure level in the right in the drawing of the cavity of the hydraulic cylinder 2. When the piston 3 reaching the rightmost position stop 15 comes into contact with the switch 13 and the motor 11 starts to rotate in the opposite direction. In this case, the piston 3 begins to move to the left, the working fluid flows from the left cavity into the right cavity through the bypass hole 7, the passage section area of which changes due to the variable cross-section of the rod 6 along the stroke length of the rod, providing a change in the pressure level in the left cavity according to the drawing of hydraulic cylinder 2 . When reaching the extreme left position of the piston 3, the stop 14 comes into contact with the switch 12 of the stand and the cycle of operation of the stand is repeated.

The pressure level in opposite cavities of the hydraulic cylinder depends on the radial size of the cross-sectional profile of the rod 6 along its length, which changes the area of the bypass hole 7 in the piston 3. The guides 16 and 17 protect the two-sided, rod 4 piston 3 not connected with it from turning.

The proposed stand due to the variable profile of the cross section of the rod 6 allows you to set various pressure levels that vary cyclically along the length of the stroke in the opposite cavities of the hydraulic cylinder, which provides enhanced capabilities of the stand when testing seals.

The proposed utility model can significantly reduce the number of parts and assemblies from the stand design, which, in addition to reducing the cost of its manufacture and operation, will increase the reliability of the stand, facilitate its operation, and improve the accuracy of the tests.

Claims (1)

A seal testing stand comprising a hydraulic cylinder mounted on a frame with a piston installed inside it and mounted on a two-sided rod, in which a coaxial hole is made having a running thread that engages with a lead screw installed in the hole, mounted in the frame supports and connected to a reversible electric motor , while the rod is mounted with the possibility of reciprocating movement along the guides of the frame until the contact stops, fixedly mounted on the ends of the rod with switches, is Replaceable seals and a device for creating pressure in the cavities of the hydraulic cylinder, characterized in that the device for creating pressure is made in the form of a rod with a variable cross-sectional profile along the length of the piston located in the bypass hole and fixed with its ends in the walls of the hydraulic cylinder cavities, the rod having two sections located symmetrically relative to its middle.