SU796189A1 - Telescopic hydrocylinder - Google Patents

Description

The invention relates to mechanical engineering, and specifically, to telescopic hydraulic cylinders of hoisting devices.

Known telescopic hydraulic cylinders, in the case of which pistons with hollow rods are sequentially installed in each other, $ while the medium is supplied to the piston cavities using a telescopic pipeline [1].

A disadvantage of the known hydraulic cylinders is the increased complexity of the medium supply system and, as a result, its insufficient reliability, as well as the lack of fixing of the cylinder steps relative to each other.

Also known is a telescopic cylinder, comprising a housing with movable hollow cylinders installed therein with pistons and a rod, a guide rod and cylinder position locks (2].

The disadvantage of this device is the inability to sequentially extend and move the movable cylinders.

The purpose of the invention is to expand the functionality of the cylinder by allowing sequential movement of movable cylinders.

The set distance is achieved by the fact that in the bottom of each cylinder there are made cavities connected by a channel in which two plungers are provided with each pusher, while the piston of one cylinder acts on the pusher of one of the plungers of the adjacent cylinder, and a longitudinal cutout is made in the guide rod, in which the rocker arms are mounted , one of which is kinematically connected with the pusher of the second plunger, and the other with the latch.

In FIG. 1 shows a device, general * view; in FIG. 2 is a section AA in FIG. 1.

The hydraulic cylinder comprises a housing 1, inside which movable hollow cylinders 2, 3, 4 and 5 and a rod 6 are installed. The locking mechanisms 7 include a guide rod 8, attached with brackets 9 and 10 to the bottoms and ears of adjacent cylinders, while in one of the brackets 9, a wedge lock 11 is installed for the cylinder position with a spring 12, adjustable by means of a plug 13, and cavity B is made in the other crown matte 10, in which a spring-loaded plunger 14 with a pusher 15 kinematically connected to the rocker arms 16 and 17 and placed in a longitudinal cutout is installedguide rod 8. At the bottom of each cylinder 2, 3, 4 and 5, a cavity G, channel 18 connected with the cavity D, in which is mounted a second spring-biased plunger 19 with the plunger 20, the piston resting in a subsequent cylinder. A corrugated tube 21 with a sealing ring 22 is installed in the lower part of each of the movable cylinders, forming a cavity filled with a working fluid and connected with a hydraulic accumulator 23. The supply of working fluid and the hydraulic cylinder is carried out through aperture 24, and the outlet through aperture 25 and apertures 26.

The hydraulic cylinder operates as follows. '

In the “drive” mode, the working fluid is supplied through the openings 25 and 26, and the movable cylinders 2, 3. 4, and 5 begin to move upward, while, for example, the piston of the cylinder 4 comes out of contact with the plunger 20 of the plunger 19. Under the action of the spring the plunger 19 moves, and the plunger 14 moves with it, the pusher 15 rotates the rocker arms 16 and 17, which release the wedge lock 11. The latch 11 under the action of the spring 12 enters the groove of the guide rod 8 and fixes the position of the cylinder 4 relative to the cylinder 3. Similarly fix Xia mutual position and the other adjoining cylinders.

In the “extension” mode, the working fluid is supplied through the opening 24, and drains through the openings 26 and 25, and, since the cylinders 2, 3, 4 and 5 are fixed in pairs with each other and with the housing 1, the stem 6 extends. At the end the stroke of the rod 6, its piston moves the plunger 19 of the cylinder 5, which in turn squeezes the fluid from the cavity G through the channel 18 into the cavity B and thereby moves the plunger 14, the pusher 15 of which rotates the rocker arms 16 and 17, while the rocker arm 17 pushes the latch 11 out the groove of the guide rod 8, and the extension of the cylinder begins 5, As the cylinder 5 extends, the corrugated tube 21 expands due to the energy of the working fluid in the accumulator 23, and the o-ring 22 closes the hole 26 and thereby stops the draining of the working fluid from the rod cavity of the cylinder 5. The remaining cylinders 2, 3 are sequentially extended in the same way. and 4.

This embodiment of the hydraulic cylinder allows one to provide a reliable predetermined sequence of operation of the movable cylinders.

Claims (2)

The invention relates to mechanical engineering, specifically to telescopic hydraulic cylinders for lifting devices. Telescopic hydraulic cylinders are known, in the case of which pistons with hollow points are installed in series with each other in the piston cavities 1 produced by means of a telescopic pipeline 1. A disadvantage of the known hydraulic cylinders is the increased complexity of the system for supplying the medium and, as a result, its lack of reliability, as well as the lack of fixation of the cylinder path to each other. But other. A telescopic cylinder is also known, comprising a housing with movable hollow cylinders with pistons and a rod mounted therein, guiding the rod and locking cylinders of cylinder positions (2 .. The disadvantage of this device is the impossibility of successively advancing movable cylinders. The purpose of the invention is to extend the functionality cylinder by providing the possibility of sequential movement of movable cylinders. The goal is achieved by the fact that in the bottom of each cylinder are made channel cavities in which two plungers each are fitted with a pusher, the piston of one cylinder acts on the pusher of one of the plungers of the adjacent cylinder, and in the guide rod there is a longitudinal cut in which the rocker arms are installed, one of which is kinematically connected with the pusher of the second the plunger, and u) just - with a lock. On . 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. 1. Gysch cylinder contains 1, inside of which are mounted movable hollow cylinders 2, 3, 4 and 5 and 6. The locking mechanisms 7 contain a guide rod 8, attached with brackets 9 and 10 to the bottom of the douh of adjacent cylinders, while the brackets 9 are fitted with a wedge clamp 11 positioning cylinders with a spring 12, adjustable by means of a plug 13, and in another crown 14 of the cylinder 10 there is a cavity B, in which a spring-loaded plunger 14 is installed with a pusher 15, kinematically connected with the rocker arms 16 and 17 and placed longitudinally "cut in the direction guide rod 8. At the bottom of each cylinder 2, 3, 4 and 5 vsholnena cavity D, a compound with the cavity channel 18 wherein B has a second spring-biased plunger 19 with the plunger 20, a piston opirayuschims subsequent Sch1lindra. At the bottom of each of the movable cylinders, a corrugated tube 21 is installed with a sealing ring 22 forming a cavity filled with working fluid and connected to the hydraulic accumulator 23. The working fluid and the hydraulic cylinder are supplied through the opening 24, and the outlet through the opening 25 and openings 26. The hydraulic cylinder operates as follows. In the advance mode, the working fluid is supplied through the openings 25 and 26, and the movable cylinders 2, 3 and 5 begin to move upwards, for example, the piston of the cylinder 4 comes out of contact with the pusher. 20 plunger 19. The plunger 19 moves under the action of the spring, and the plunger 14 moves along with it, while the pusher 15 rotates the rocker arms 16 and 17, which release the wedge clamp 11. The latch 11 under the action of the spring 12 enters the groove of the guide rod 8 and fixes the position of cylinder 4 relative to cylinder 3. The mutual position of other adjacent cylinders is similarly fixed. In the advance mode, the working fluid is supplied through the opening 24, and drained through the openings 26 and 25, and since the cylinders 2, 3, 4 and 5 are fixed in pairs with each other and the housing 1, the piston extends at the end of the stroke of the rod 6 moving the plunger 19 of the cylinder 5, which in turn squeezes fluid from the cavity G of the black channel 1b into the cavity B and thereby moves the plunger 14, the pusher 5 of which rotates the rocker arms 16 and 17, while the rocker 17 pushes the retainer out of the groove of the guide rail 8, and the extension of the cylinder 5 begins. When the cylinder 5 is extended, the corrugated tube 21 is moved apart by the energy of the working fluid in the hydroaccumulator 23, and the sealing ring 22 closes the opening 26 and thereby stops the working fluid from the jets from the cylinder 5. Similarly, the remaining cylinders 2, 3 extend and 4. Such an embodiment of the hydraulic cylinder allows ensuring a reliable predetermined sequence of operation of the movable cylinders. Claims of the invention A telescopic hydraulic cylinder comprising a housing with movable cylinders with pistons and a rod mounted therein, a guide rod and cylinder locking lugs, characterized in that, in order to expand the functionality, the cavity channels in the bottom of each cylinder are connected to Install two pistons fitted with each plug, while the piston of one cylinder acts on the pusher of one of the plungers of the adjacent cylinder, and a longitudinal cut is made in the guide rod In which rockers are installed, one of which is kinematically connected with the pusher of the second plunger, and the other with the lock. Sources of information taken into account during the examination 1.V.A. Marutov and others. Hydraulic cylinders. Design and calculation. M., Mechanical Engineering, 1966. 2. Author's certificate of the USSR N 612896, cl. In 66 F 3/28, 1976. 2li.