DE1150038B - Moving hydraulic pit support frame - Google Patents

Description

Traveling Hydraulic Pit Support The invention relates to a traveling hydraulic pit support frame for underground mining operations.

Several migrating hydraulic mine support structures have become known, the structure of which is as follows. Two frames with pit stamps, one of which connected to the rear cylinder and the other with the piston rod of the rear cylinder are alternately and parallel to each other following the progress of the mining. The differences between the known pit support frames are in the arrangement of the rear cylinders to see. While with an extension frame only one lying parallel to the frame Rear cylinder is provided, there are two rear cylinders in a different extension frame, a rear cylinder is provided on each frame. With a further extension frame a rear cylinder is arranged diagonally between the frames. Describe here the frames form a flat arc as they advance.

All of the aforementioned pit support racks have been used underground well proven. A disadvantage of this extension frame is the short stride length, which is determined by the stroke of the rear cylinder or cylinders can be seen.

The object of the invention is therefore to create a pit support frame, whose stride length is a multiple of the return cylinder stroke.

To achieve this goal and to eliminate the disadvantage mentioned The invention proposes that a telescopic cylinder acted upon twice as a rear cylinder is used, the piston rod of which is several times longer than the length of the outer cylinder. The stroke volume of the cylinder piston on the side of the cylinder cover is equal to the Annular displacement of the cylinder connected by a channel or a line. The access and the hydraulic fluid is discharged through two channels in the piston rod, one of which exits behind and the other in front of the piston of the telescopic cylinder. The telescopic cylinder connected to a frame is on a slide rail of the adjacent one Frame slidably guided.

The advantages of the pit support frame according to the invention are in the to see greater stride lengths of the frame, which is achieved that the hanging wall largely supported only once by the caps of the frame stamp at one point will. The hanging wall is thus spared, as it is not constantly burdened and relieved.

In the drawing, the subject matter of the invention is shown in two exemplary embodiments shown. It shows Fig. 1 a plan view of the support frame in the starting position, FIG. 2 shows the support frame according to FIG. 1 after a frame has advanced, and FIG. 3 a plan of another extension frame.

In the expansion racks shown in Figs. 1 to 3 are the Caps not shown, just the underframe, so the punches are cut are.

The traveling hydraulic pit support frame consists of two with Stamp 12, 13 and 14, 15 equipped frames 10, 11, which have a telescopic cylinder 16 are connected to each other. The frame 10 is connected to the cylinder 17 via a bracket 18 and the frame 11 is connected to the piston rod 19 of the telescopic cylinder 16 via tabs 20 connected. The piston rod 19 has two axial bores on one side 21, 22 (see section A-A above Fig. 2), through which the pressure fluid is supplied and discharged. The liquid passes through the radial connection bore 23 into the bore 22, flows through the piston rod 19 and occurs behind the piston 24 from the radial bore 25 into the displacement 26 of the cylinder on the end cover side 17. Here, the piston 24 with the piston rod 19 and the cylinder piston 27 in extended to the position shown in FIG. The ones in the ring displacement 28 and in the cylinder piston displacement 29 pending liquid is displaced into the bore 30 and occurs after flowing through it the axial bore 21 from the radial bore 31 into the return line 34. The stroke volume 29 of the cylinder piston 27 on the side of the cylinder cover corresponds to the annular stroke volume 28 of the cylinder 17 through a channel 32 or a line 33 tied together. A four-way valve 36 is built into the return and supply lines 34, 35, through that the reversal of the telescopic cylinder 16 takes place. The bore 22 of the piston rod 19 becomes the return line and the bore 21 becomes the feed line for the pressure fluid.

In Fig. 2, the beginning of the return process from the frame 10 is shown. The stamps 12 and 13 are stolen, while the stamps 13 and 14 of the frame 11 are set again. The hydraulic fluid now enters the radial bore 31 and flows through the axial bore 21 to the bore 30, where it exits into the displacement 29 of the cylinder piston 27 on the head deck and at the same time arrives via the line 23 to the annular displacement 28 of the cylinder 17. The bore 30 is offset by 180 ° from the bore 25 , since otherwise the bore 30 would intersect the axial bore 22.

In Fig. 3, a further expansion frame is shown, which differs from the one described above only by the telescopic cylinder. Here the piston rod 37 is not passed through the cylinder 38 on both sides. The cylinder piston 39 is provided with a channel 32 which performs the same function as the line 33. The control is the same as that described above. The cylinder 38, which is connected to the frame 10 via the tabs 18 ′, is guided by a tab 40 on a slide rail 41 of the frame 11. When the cylinder 38 and thus the frame 10 are pulled back, both parts are moved parallel to the frame 11 due to the arrangement of the slide rail. The tab 40 engages around the slide rail 41 with play. A further tab 42, which is also slidably guided on the rail 41, is fixedly arranged on the cylinder piston 39.

The extension racks described can perform a so-called overtaking step with a longer telescopic cylinder design, ie the punch 15 or 13 comes to exactly where the punch 14 or 12 was previously. 1 can also be such that the frames 10 and 11 are offset from one another by exactly half their punch spacing, that is, the front punch 14 of the frame 11 lies exactly between the punches 12 and 13 of the frame 10.

Claims (4)

PATENT CLAIMS: 1. Moving hydraulic pit support frame for underground mining operations, consisting of two frames equipped with pit punches, one of which is connected to the rear cylinder and the other to the piston rod of the rear cylinder, so that both frames are advanced alternately following the mining progress, characterized in that the rear cylinder is a double-acted telescopic cylinder, the piston rod (19) of which is several times longer than the length of the outer cylinder (17). 2. Pit support frame according to claim 1, characterized in that the cylinder cover-side displacement (29) of the cylinder piston (27) is connected to the annular displacement (28) of the cylinder (17) by a channel (32) or a line (33). 3. Pit support frame according to the claims 1 and 2, characterized in that the supply and discharge of the pressure fluid through two channels (21, 22) in the piston rod (19), one of which is behind and the other exits in front of the piston (24) of the telescopic cylinder. 4. Pit support frame according to claim 1, characterized in that the telescopic cylinder connected to a frame (10) is slidably guided on a slide rail (41) of the adjacent frame (il). Considered publications: German Auslegeschriften Nos. 1069 548, 1078 068, 1087 098; "Glückauf" magazine, 1958, p. 241, fig. 11; 1959, p. 285, fig. 42.