CZ306692B6 - Telescopic hydraulic lines - Google Patents

Abstract

The telescopic hydraulic lines consist of the hollow pressure cylinder (3) mounted on the rigid frame (1). The pressure cylinder (3) is provided, in the axis of one of the bottoms, with the pressure oil inlet (4), while the flange (5) of the pressure oil inlet (4) is provided with elements for connecting the hydraulic lines. In the opposite bottom of the pressure cylinder (3), there is formed the opening (6) in which there is slidably placed the piston rod (7) provided with the piston (11) slidable in the pressure cylinder (3). In the axis of the piston rod (7), there is, along its entire length, created the through opening (8) which is connected to the coaxial through opening (12) of the same diameter formed in the piston (11) further provided with the longitudinal through openings (13) for pressure equalization, whose centres are located on a circle in the annulus formed by the through opening (12) and the outer circumference of the piston (11). The diameter of the longitudinal openings (13) for equalizing the pressure corresponds to one third of the diameter of the axial through opening (8, 12) in the piston (11) and in the piston rod (7). The outlet part of the piston rod (7), located in the movable frame (2), is arranged for connection to the hydraulic lines of the pressure oil outlet (9).

Description

Telescopic hydraulic line

Field of technology

The invention relates to a telescopic hydraulic line enabling its length to be extended or shortened without the need for loops of rubber pressure hydraulic hoses, in this case during the movement of the harvester support frame. The device works on the principle of movement of the piston rod in the body of a linear hydraulic motor.

Prior art

EP 2 417 890 T3 discloses a telescopic pull-out extension, in particular for household appliances, comprising an outer and an inner tube which are slidable relative to one another, the inner tube having shapes on the outer surface and a catch device for blocking its movement relative to to the outer tube. The Czech patent document CZ 278 949 contains an axial pipe compensator, which is formed by a basic body into which a hollow piston is inserted in the direction of the medium flow. The body and the piston are sealed to each other by a large cross-sectional sealing ring housed in a sealing space formed in the sliding part of the base body. The device working on the principle of a linear hydraulic motor and containing a piston with a hole is evident from the Czechoslovak AO-CS-221131, which solves the hydraulic damper especially for rail vehicles. A single-acting hydraulic cylinder, where a cavity is formed in the piston with the piston rod, the lower part of which is connected by a lower hole in the piston with the lower space under the piston and the middle part by a connecting hole with the upper space above the piston, is evident from Czech patent document CZ 294 478. Československé AO -CS-250746 discloses a fluid ejection device intended as a movement unit for ejectable machine parts, which is formed by a cylinder in which a single-acting piston is slidably mounted, which is inserted into the basic position by a return spring.

None of the mentioned solutions has a device working on the principle of movement of the piston rod in the body of the linear hydraulic motor enabling lengthening or shortening of the length of the hydraulic line when moving the movable frame relative to the supporting frame.

The essence of the invention

The essence of the present invention lies in the fact that in the axis of the piston rod a through hole is formed along its entire length, which is connected to a coaxial through hole of the same diameter formed in the piston. The piston is further provided with through-longitudinal longitudinal holes for pressure equalization, the centers of which are located on a circle arranged in an annulus formed by a through-hole and an outer circumference of the piston. The diameter of the longitudinal holes for pressure equalization corresponds to one third of the diameter of the axial through hole in the piston and in the piston rod. The outlet part of the piston rod located in the movable frame is arranged for connecting the hydraulic line of the pressure oil outlet.

In a preferred embodiment, at least six through longitudinal holes are formed in the piston for pressure equalization.

The piston rod body can also be provided around the piston with at least one row of radial holes with a smaller diameter than the diameter of the through-longitudinal holes.

As mentioned, the telescopic hydraulic line allows to lengthen or shorten its length without the need for loops of rubber pressure hydraulic hoses, in this case when moving the harvester support frame.

- 1 CZ 306692 B6

Explanation of drawings

The invention is further elucidated with the aid of the drawings, in which

Fig. 1 shows an exemplary embodiment of a telescopic hydraulic line in longitudinal section,

Fig. 2 shows a cross section A-A of the pressure cylinder and the piston rod at the location of the radial holes of Fig. 1, and

Fig. 3 shows the positions when the piston with the piston rod is inserted and extended.

Examples of embodiments of the invention

The telescopic hydraulic line according to the attached Fig. 1 has the shape of a conventional linear hydraulic motor, consisting of a hollow pressure cylinder 3 mounted on a fixed frame 1. The pressure cylinder 3 is provided in the axis one day with a pressure oil inlet 4 whose flange 5 is provided with elements for connecting hydraulic lines. An opening 6 is formed in the opposite bottom of the pressure cylinder 3, in which a piston rod 7 is slidably mounted with a piston 11 slidable in the pressure cylinder 3. A through hole 8 is formed along the entire length of the piston rod 7, which is connected to a coaxial through hole 12 of the same The piston 11 is further provided with through longitudinal pressure equalizing holes 13, the centers of which are located on a circle in the annulus formed by the through hole 12 and the outer circumference of the piston 11. The diameter of the longitudinal pressure equalizing holes 13 corresponds to one third of the axial through hole diameter. of the opening 12, 8 in the piston 11 and in the piston rod 7. The outlet part of the piston rod 7 is located in the movable frame 2, its end being arranged for connecting the hydraulic line of the pressure oil outlet 9.

In this case, six through-longitudinal pressure-compensating holes 13 are formed in the piston Uj and the piston rod body 7 is provided around the piston 11 around the circumference with two rows of radial holes 10 of smaller diameter than the through-longitudinal longitudinal pressure-equalizing holes 13 formed in the piston 11.

During operation of the device, for example the harvester, when the piston rod 7 is inserted with the piston 11 in the forward position, see Fig. 2, the pressure cylinder 3 of the telescopic hydraulic line in the space above the piston 11 and through the longitudinal holes 13 for pressure equalization via the oil pressure inlet 4 in the piston 11 and the radial holes 10 in the piston rod 7 and under the piston 11 filled with pressure oil. In this case, the pressure oil flows further through the through-openings 8, 12 in the piston 11 and the piston rod 7 into the pressure oil outlet 9 and further into the hoses of the hydraulic harvester line. During the retractable movement of the movable frame 2 relative to the fixed frame 1 of the device, the pressure oil inside the pressure cylinder 3 flows again through longitudinal holes 13 to equalize the pressure in the piston 11 into the space above the piston U, and thus its smooth displacement to the rear position, i.e. to the position of the piston 11 and the piston rod 7, as shown in Fig. 3, which causes the hydraulic line of the device to be extended, while in the opposite way it is continuously shortened without the need to use loops of rubber pressure hydraulic hoses in the hydraulic line of the harvester.

Claims (3)

A telescopic hydraulic line consisting of a hollow pressure cylinder (3) mounted on a fixed frame (1), wherein the pressure cylinder (3) is provided in the axis of one day with a pressure oil inlet opening (4), the flange (5) of which is provided elements for connecting the hydraulic line, and in the opposite bottom of the pressure cylinder (3) an opening (6) is formed, in which a piston rod (7) with a piston (11) slidable in the pressure cylinder (3) is slidably mounted, characterized in that in A through hole (8) is formed along the axis of the piston rod (7) along its entire length, which is connected to a coaxial through hole (12) of the same diameter formed in a piston (11) further provided with through longitudinal holes (13) for pressure equalization, the centers of which are placed on a circle in the annulus formed by the through hole (12) and the outer circumference of the piston (11), the diameter of the longitudinal holes (13) for pressure equalization corresponding to one third of the diameter of the axial through hole (8, 12) in the piston (11) and in the piston rod ( 7), the outlet part of which located in the movable frame (2) is arranged for connecting the hydraulic line of the pressure oil outlet (9). Telescopic hydraulic line according to Claim 1, characterized in that at least six through-longitudinal openings (13) are formed in the piston (11) for pressure equalization. Telescopic hydraulic line according to claim 1, characterized in that the piston rod body (7) is provided around the piston (11) around the circumference with at least one row of radial holes (10) with a smaller diameter than the diameter of the longitudinal holes (13).