SU1090931A1 - Hydraulic cylinder - Google Patents

Abstract

HYDRAULIC CYLINDER, comprising a housing, covers, a main piston with a rod, installed in them with the formation of a piston working and rod cavities, an additional annular piston installed in the rod cavity with a seal on the housing and a rod and spring-loaded relative to the cover, channels for supplying the working medium to the piston and rod end, characterized in that, in order to expand the functionality of the cylinder, in the piston the throttling hole is thin, connecting the rod and piston cavity to the channel podvodaotvoda working fluid in the rod end of a check valve, and a settee podvodaotvoda working fluid in a piston (L, a check valve cavity with the control kitsey cavity.

Description

one

The invention relates to mechanical engineering and can be used in all sectors of the national economy for clamping and locking devices with hydraulic drive.

A hydraulic cylinder 5 is known that includes a housing, arms, a piston with a rod, installed in them to form piston and rod cavities C 1. ,

The drawback of the device is the insufficient force generated by it, since it is limited by the maximum pressure of the power source and the dimensions of the hydraulic cylinder.

Known hydraulic cylinder containing body, cover the main piston with the rod, installed in them with the formation of piston and rod cavities, an additional annular piston installed in the rod cavity with a seal on the housing and the rod and spring-loaded relative to the cylinder, and channels under-water and drain working environment in the piston and rod cavity 2,

A disadvantage of the known devices is that it, having allowed to create high pressure, cannot itself break the clamping force, since the main piston is not made in force 5, and this limits the functional features of the cylinder, cylinder,

The purpose of the invention: - the expansion of fuikid onalzh - possibilities cylinder

This goal is achieved by the fact that ii n-ifi.pa.BntiMc.cKGM cylinder, containing casing body, lids, main porsche} e with ITON 3 installed in them with the formation of a piston working and rod cavities, additional .5 ring piston installed 3 rod cavity with a seal on the housing and a rod and spring-loaded relative to the cover, channel for supplying and discharging the working medium to the piston and brush cavities, in the piston there is a throttling hole that connects the rod and piston cavities in the channel for supplying and discharging the working medium to the rod cavity obratnsh set valve, and the channel-drain supplying the working medium in the piston chamber is fitted with a check valve with a control cavity.

The drawing shows a hydraulic cylinder, longitudinal section.

909312

The hydraulic cylinder includes a housing 1 with covers 2 and 3, in which, with the formation of a piston 4 and a rod 5 Cavity, a main piston 6 with a rod 7 is installed. In the rod cavity 5 an additional annular piston 8 is installed, sealing the housing 1 and the rod 7 and spring-loaded 9 with respect to the SQ of the cover 2. In the hydraulic cylinder there are channels 10 and 11 for supplying and discharging the working medium, respectively, into the piston 4 and rod 5 cavities. In the inlet-outlet channel 10, water is installed a check valve 12, and in the outlet-outlet channel 11 an adjustable check valve 13 is connected to the control cavity 14, the control cavity (4 can be connected

Q with a channel 10 supply-outlet before the check valve 12. B piston 6 made throttling channel 15.

Works hydraulic cylinder as follows.

5 Preliminarily, through the inlet-outlet channel tO and the check valve 12, the rod cavity 5 is filled. In addition, the outlet-outlet channel 11 is connected to the drain, as a result

Q of which the piston 6 with the rod 7 pushes up. Then the inlet 11 of the outlet is connected to the pressure SOURCE (not shown), and the working medium through the valve 13 begins to flow into the piston cavity 4 "The piston 6 with the rod 7 will begin to move down through the working medium filling the rod cavity 5, the valve 12, compressing the spring 9. The spring 9 is compressed until those nopj until the rod 7 stops, resting against the part (not shown). When the rod 7 moves downwards, a small portion of the working medium from the rod end 5 will pass through the channel 15 into the piston cavity 4, for different STI pressure in them. When the rod 7 stops, resting against the part (not indicated), the flow of working medium through channel 11

 stop and the check valve 13 closes o

The force of the compressed spring 9 at the time of stopping the rod 7 is equal to

F P P P P 5 pr 1 1 2 -2

where R. is the pressure of the working medium in the piston cavity 4, developed by the pressure source; S is the area of the piston in the piston cavity 4; P „- fluid pressure in the rod cavity 5; S- - the area of the piston in the rod end. If we denote the ratio of areas S and Sj through n, the ratio of the pressures in the rod end of P2 will be determined from the expression. After closing the valve 13, the fluid pressure in rod 5 and piston 4 cavities will be balanced through channel 15 and become equal to pressure P in rod cavity 5 at the time of stopping the rod 7. Force F ,, on the rod 7 In this case, is determined by the expression P (S - S) or. . S (n) Thus, the clamping force of the proposed hydraulic cylinder is (n-1) times the force of the known cylinder under other conditions. This force on the rod 7 is held for a long time as the working medium leaks from the piston 4 and the rod 5 cavities are compensated by unclamping springs 9. The return of the piston 6 with the rod 7 to the upper position is carried out as follows. The inlet-outlet channel 10 is connected to a pressure source. The valve 13 opens and the pressure in the piston cavity 4 drops, since the inlet-outlet channel 11 at the same time, the check valve 12 will open and the working medium will flow into the rod cavity 5. The piston 6 with the rod 7 will go up and the working medium from the spring cavity 4 will be through the valve 13 draining into the tank. The spring 9 will unclamp and move the piston to the position shown in the drawing. After that, the hydraulic cylinder is ready for re-operation. Using the proposed hydraulic cylinder will increase the clamping force when using a pressure source limited power, as well as to compensate for leaks in the hydraulic system, as a result of which a tight force can be maintained for a long time with the pressure source disconnected.

Claims (1)

A HYDRAULIC CYLINDER containing a housing, covers, a main piston with a rod installed in them with the formation of a piston working and rod cavities, an additional annular piston installed in the rod cavity with a seal on the body and rod and spring-loaded relative to the cover, channels for supplying the working medium to the piston and rod cavity, characterized in that, in order to expand the functionality of the cylinder, a throttling hole is made in the piston connecting the rod and piston cavities in the root channel and-discharge working fluid in the rod end of a check valve, and a channel podvodaotvoda working medium in the piston chamber, a check valve with a control chamber. > I The invention relates to mechanical engineering and can be used in all sectors of the economy for clamping and locking devices with hydraulic drive. Known hydraulic cylinder containing a housing, cover, piston with a rod installed in them with the formation of the piston and rod cavities With 1 A disadvantage of the device is insufficient clamping force exerted by them, because it is limited to a maximum pressure supply and ^dimensions: hydraulic cylinder. A hydraulic cylinder is known, comprising a housing, covers, a main piston with a rod installed in them with the formation of a piston and rod cavities, an additional annular piston installed in the rod cavity with a seal on the body and rod and spring-loaded relative to the cover, and channels for supplying and discharging the working medium into the piston and rod cavities [2).