SU739243A1 - Hydraulically powered prop with double telescoping system - Google Patents

Description

(54) HYDRAULIC POST WITH DOUBLE TELESCOPICITY

one

The invention relates to the field of mining and can be used for mechanized roof supports.

A double telescopic hydraulic strut is known, in which there is a cylinder, a second-stage rod and a first-stage rod, in the wall of which a longitudinal channel is made, which by means of radial holes constantly communicates the rod cavities of the first and second stages 1. Such a hydraulic post provides a forced fit of the rods as the first and second stages during the injection of fluid into the rod cavity of the first stage.

The disadvantage of this hydraulic rack is the high labor intensity when performing the longitudinal channel in the pipe wall of the first-stage rod, as well as a significant decrease in the strength of the pipe, which increases the metal consumption of the structure.

The closest known solution is a hydraulic stand with double telescopicity, including a cylinder, a second-stage rod and a first-stage rod with a radial channel that connects the rod cavities of the first and second stages.

 located below the guide bushing with seals 2.

The disadvantage of this double telescopic hydraulic strut is the low reliability and short service life of the first stage rod cavity seals.

The purpose of the present invention is to improve the reliability of the hydraulic rack by unloading the guide bush seals in the rod end of the first stage from the hydraulic pressures.

This goal is achieved by the fact that the radial channel is made with a segmental groove located on the outer surface of the stem of the first stage, with

15 this length is less than the distance between the seals of the guide bush.

FIG. 1 - a general view of the hydraulic rack; in fig. 2 — node I of FIG. one; FIG. 3 is a view A of FIG. 2

20

The hydraulic strut has a cylinder 1, into which the rod 2 of the first stage is installed, in the internal cavity of which the rod 3 of the second stage is placed. In this case, two piston cavities 4, 5 and rod cavities b and 7, respectively, of the first and second stages are formed. A bypass valve 8 is installed in the bottom part of the stem of the first stage. In the upper parts of the cylinder 1 and the stem 2 of the first stage, guide sleeves 9, 10 with seals I, 12 are installed. The segmental groove 13 and the radial channel 14 are located in the upper part of the stem 2 steps below the guide sleeve 9 to interconnect the rod cavities b, 7, respectively, of the first and second stages. The feed channels 15 and 16 connect the piston 4 and the rod end to the hydraulic line (not shown).

Sliding the stand at the time of its installation is carried out by supplying the working fluid from the hydraulic line through channel 15 to the piston cavity 4 of cylinder 1 and further, if the first stage extends the sliding motion, through the overflow valve 8 to the piston cavity 5. When raising the stem 2 of the first stage Segmental groove 13 and The radial channel 14 passes through seals 11, 12 of the guide sleeve 9 without pressure in the rod cavities 6 and 7, since in this case the liner cavity b is connected to the drain.

When the rack is forced to land at the time of its unloading, the working fluid through channel 16 is fed into the rod end b and a first-stage rod precipitates, and the liquid from the piston cavity 4 goes through the channel 15 to drain. The length of the chord of the segmented groove 13 is chosen in such a way that, when the rod 2 moves downward, the groove 13 simultaneously interacts with only one of the seals And or 12.

This is ensured by choosing the distance between the seals 11 and 12 longer than the length of the groove 13, which guarantees the tightness of the rod cavities b and 7 during the period of the forced landing of the rack.

When the first stage stem 2 is lowered, the bypass valve .8 is forcedly opened. When this working fluid through the segmental groove 13 and the radial channel 14 enters the rod end 7 and is forced

stock draft 3.

Claims (2)

1. USSR author's certificate number 196017, cl. E 21 D 15/44, 1964. 2. USSR author's certificate No. 370342, cl. E 21 D 15/44, 1971 (prototype). Phi2. 1 FIG. 2 Fig. 3