SU609923A1 - Pneumohydraulic intensifier - Google Patents

Claims (2)

The invention relates to a machine-tool industry, in particular, to designs of pneumatic pressure amplifiers for pressure impulses. Known pneumatic hydraulic devices / having two-stage seals. Closest in technical cyift | In this invention, a multiplier with a high pressure cylinder located in one cavity of the housing is an internal chamber connected to the output channel of the multi-t plator, a control piston located in the other cavity of the housing, a chamber on one side of the control The connecting piston is connected to the pneumatic control channel, and the chamber on the other hand is connected to the high pressure pneumatic channel, a double piston low pressure is mounted on the high pressure cylinder, the chamber between the housing and These end faces of the low pressure piston is connected to a dual Pneumatic tiecKOMy channel specifying low pressure chamber and between the other end and a high pressure cylinder connected to the cavity of the cylinder in which is located the piston rod of the control piston and the seal 2J. In this device, compressed air can penetrate into the hydraulic system during wear of seals, as well as in the form of air bubbles in the macro- and micro-asperities of the compacted surface, and its removal significantly complicates the design and control of the multiplier. All with air penetrates into the hydraulic system of the type, causing corrosion and premature wear. The purpose of the invention is to increase the reliability of pneumohydraulic multipliers. For this compaction, the low-pressure twin pistons are mounted relative to each other at a distance greater than its working stroke, and the cavity between the seals is connected to the atmosphere Through an opening made in the housing at equal distance from the seals; IB average double piston:. The drawing schematically shows the proposed pneumatic-hydraulic multiplier, a longitudinal section. Pneumatical hydraulic multiplications (p has a housing 1, in one cavity of which a high pressure cylinder 2 is located with an internal high pressure chamber 3 connected to an output channel of a multiplier, controlling Lorshen 4 located in another cavity of the housing 5 on one side of the control piston connected to the pneumatic control channel, A. the chamber b on the other hand is connected to the pneumatic channel of the high-pressure relief, the twin low-pressure piston 7 mounted on the high-pressure cylinder The chamber 8 between the housing and one of the ends of the double joint is connected to the low pressure pneumatic channel, and the chamber 9 between the other ends of the high pressure twin piston cylinder is connected by holes 10 with a cylinder cavity in which the control piston rod 11 and the seal 12 are located. pistons. Low pressure twin piston seals 13 are mounted relative to each other at a distance greater than the low pressure working stroke; The cavity 14 is connected to the atmosphere by the atmosphere through an opening 15, made in the housing at an equal distance from the seal in the middle position of the double piston. The hydraulic system 1a is filled with oil through the hole with a plug 16 j. The pneumatic-hydraulic multiplier works in the next manner. ; When compressed air is supplied to chamber 8, the dual low level avia 7, moving to the left, presses on oil IB chamber 9, which is forced out through the openings 10 of the high pressure cylinder 2 into the chamber. 3, and from it to the work items. In this case, compressed air and oil penetrating into the cavity 14 are removed through the opening 15 in the housing, the stroke of the twin piston 7 is chosen so that the seals 13 in the extreme fields of the twin piston do not reach the hole 15. To create VEL pressure, compressed air fed to chamber 5; The add-on piston 4 with the rod 11, moving to the right, enters the seal 12 and creates a high pressure in the chamber 3. When pressed, the compressed air enters the chamber 6, returns the control piston 4 to its original position. The oil from the high-pressure chamber 3 is forced into the chamber 9, under the action of the returning elements of the working and cylinders (not shown) on the double piston 7, pressing it to the right. Invention Pneumo-hydraulic multiplier, in one cavity of the KOTopord housing, is a high pressure cylinder with an internal chamber connected to the output channel of the multiplier, control piston located in another cavity of the housing, the chamber on one side of the control piston is connected to the pneumatic control channel and the chamber, on the other hand, is connected to a high-pressure pneumatic channel, a double-w-shaft is installed on the high-pressure cylinder;} ryen -1shek & pressure, the chamber between the body and one and From the ends of the dual low-pressure piston, it is connected to the low-pressure pneumatic channel, and the chamber between the other end face 4 and the outflow pressure cylinder is connected to the cylinder cavity, in the short section there is a control piston rod and piston sealing, characterized by the fact that, in order to increase the multiplier reliability , in it, the seals of the high pressure piston (installed low-pressure piston are installed FRIEND relative to each other at a distance greater than the stroke of the low-pressure piston, and the cavity between the seals is connected to the atmosphere). And through the hole, made in the housing, and equal to the distance from the seals in the middle position of the dual piston. ; Sources of information taken into account in the examination: 1.Bashta TM Hydraulic drives of aircraft, 1967, s, - 470, fig. 395. 2. Multiplicator Pneumohydraulic type OST-3-282-70 V7021-0001, 1970 .. i2 9 / "IS 7