DE1871614U - HYDRAULIC PIT SUPPORT. - Google Patents

Description

Ρ.Α.21-3 553ΗΛ63

Wolfgang Vetter 4628 Lünen / Westf .., 02/14/63

MÜnsterstrasse 38

Patent application

Stepping hydraulic support frame

The invention relates to a walking hydraulic pit support frame for underground mining operations.

Several walking hydraulic pit support frames are known the structure of which is as follows. Two frames with pit stamps, one with the rear cylinder and the other is connected to the piston rod of the rear cylinder, are alternately, parallel or diagonally to each other following the mining progress. The differences between the well-known pit support frames are can be seen in the arrangement of the rear cylinders. While with an extension frame only one rear cylinder is provided, two rear cylinders are arranged in another extension frame, namely one on each frame. In a further extension frame, a rear cylinder is arranged diagonally between the frame. Here describe the frame at Advance in a flat arc. Furthermore, triangular expansion frames are known, but only as a whole, so after the robbery of all stamps move in the direction of the dismantling front permit.

Most of the aforementioned pit support frames are used underground in operation and have proven themselves well. The disadvantages of this extension frame, however, can be seen in the fact that the hanging wall twice stressed by the subsequent stamps of the frame in the same place and thus brittle and worn down, becomes, and on the other in that half of the hanging wall remains unsupported when the support frame is advanced.

The object of the invention is therefore to provide a hydraulic pit support frame to create, in which only one stamp has to be stolen from the forerunner of the pit support frame and never again a pit punch is set in the same place as before

Pit ram supported the hanging wall.

To achieve this goal as well as to abolish the specified after " parts, the invention proposes that in the hydraulic Rückzylindea two pistons with associated piston rods are slidably guided and each piston rod end and the rear cylinder with a pit punch are connected, so that with appropriate exposure of the .return cylinder always only one pit punch iff 'sighting of the dismantling front is moved. A pit stamp is on sole rails one piston rod end fixed and slidable on the other piston rod guided. Several hydraulic pit support frames are used by two known four-way valves, which are connected in series, One of the piston rods has a channel in which the Hydraulic fluid flows in or out.

The advantages of the hydraulic pit support frame according to the invention can be seen in the fact that the hanging wall is supported only once at each point and only when riding the Torah on the supporting structure a third of the hanging wall to be supported is relieved, while half of all known pit support frames or more of the hanging wall remains unsupported when the support frame is advanced.

In the drawing, the subject of the invention is in one embodiment shown schematically. Show Ks!

Figure 1 shows a plan of the support frame in the starting position, Figure 2 is a plan view of the building site 8 after the first

Stroke of the rear cylinder,
Figure 5 is a plan view of the extension frame according to the second

Hub of the Rüokzyli & ders,

Figure 4 the transport unit of the support frame lower part and Figure 5 is a view of the support frame seen from the mountain face.

In the expansion racks shown in the figures, the caps not shown, only the base with the stamp

Are cut.

The hydraulic pit support frame thus mounted consists of the pit punches 10, 11 and 12, which are inserted in the sole sockets 13, 14 and 15, and the rear cylinder 16. In the hydraulic return cylinder 16, the pistons 17 and 18 are slidably guided. The pistons 17 and 18 are provided with associated piston rods 19 and 20. The piston rod 19 has an inlet and outlet channel 27 for the pressure fluid. The sole pan 14 is firmly connected to the end of the piston rod 20 via a sole rail 2t and is slidably connected to the piston rod 19 with a sole rail 22. The sole pan 15 is connected via sole rails 23 and 24 to the rear cylinder 16 via brackets 35 and 26. The sole socket 13 of the stamp 10 is arranged at the front end of the piston rod 19. This sole pan 13 can carry additional arms to prevent the stamp 10 from tipping.

Figure 1 shows the extension frame in the starting position or in Initial position. The stamps 11 and 12 are set, while stamp 10 is stolen from you. The hydraulic fluid arrives from the pressure line 28 into the four-way valve 29 and then into the four-way valve 30, from where it goes into the connection 36 of the channels of the piston rod 19 arrives. The hydraulic fluid flows through the piston rod 19 and enters the cylinder space 31. The piston 17 with the piston rod and sole pan 13 with the punch 10 moves in the direction of the arrow The liquid flows from the cylinder chamber 33 via the connection through the four-way valve XJ 30 to the four-way valve 29 and from there to the discharge line 35. The cylinder connection 37 is now also connected to the drain line 35. In the figure 2 is the end position shown after the first stroke of the rear cylinder 16.

After the position in i'igur 2 has been reached, the stamp 10 set again and the stamp 11 stolen. The stamp 12 remains set. Then the four-way valve 29 is in the illustrated Position switched. The four-way valve 30 remains in the position shown in the figure. Now the hydraulic fluid flows out

the pressure line 28 the four-way valve 29 and, since the way to the four-way valve 30 is blocked by a check valve 38, aum cylinder connection 37 * The piston 18 is acted upon and moves together with the piston rod 20 and sole pan 14 with punch 11 in arrow 32. It slides the soleplate 22 over the already extended piston rod 19, whereby a safe guidance of the stamp 11 is guaranteed. The liquid from the cylinder space. 39 flows through the channel 27 of the piston rod 19 »around connection 36 and then through a hose line to the four-way valve 30, from there through the four-way valve 29 to the Mcklaufleltung 35. The return and inflow of connection 34 is blocked by the ^ check valve 36. The check valve 33 could also be saved, although the pressure fluid would then not only flow to the connection 37 but also to the connection 34. However, since the piston 17 and the cylinder 16 are fixed by the stamps 10 and 12, the functionality of the extension frame would also be guaranteed. since both are fixed but not possible. In the figure 3 the binding position after the second stroke of the rear cylinder 16 is shown.

After the position in FIG. 3 has been reached, the punch 11 is set again and the punch 12 is stolen. The stamp 10 remains set. Then the two four-way valves 29 and 30 are switched to the position shown. Now the pressure fluid flows from the pressure line 28 through the four-way valve 29 and 30 and arrives through the cylinder connection 34 in the 2ylinder space 40. BÄ Since both pistons 1? and ^ 8 are determined by the stamps 10 and 11, the cylinder 16 is acted upon and moves with the sole pan 15 and the stamp 12 in the direction of the arrow 32. The liquid from the cylinder chamber 41 escapes from the connection 37 and flows through the four-way valve 29 to then flow to drain line 35. The starting position of Figure 1 is reached again. After the four-way valves have been switched over, the extension frame can start moving again.

Hydraulic extension racks are often bad because of their size

to be transported in underground operations. Shown in JPigur 4 iat, that the present underframe is calibrated after removing the pit stamp can be folded into a small transport unit. The collapsibility of the subframe can then be carried out if a circular rear cylinder 16 is present, since then the pistons 17 and 18 can be rotated in the rear cylinder 16, or when the tabs 25 and 26 of the sole rails on the piston rod or are rotatably attached to the cylinder, but with a stop for tabs for driving when the cylinder or the piston rod must be provided.

In Figure 5, the support frame is shown as you can see it from the rock face. As caps 42 can be circular or quaeta? drive plate caps are used as well as the known ones rail-shaped caps. Furthermore, the caps can be interconnected by telescopic push and pull links or other known ones Parallel guide means hä are connected.

On a representation of the hose lines for the hydraulic pit punches 10, 11 and 12 were omitted in the drawings, as this arrangement is well known.

The hydraulic pit support frame at hand can, like the most known hydraulic support frames by simple Conversion, al-s · as hydraulic conveyor and coal mining machine bracing be used.

Literature considered in the prior art

DBP 1 127 299

DAS 1 087 098

DAS 1 069 548

DAS 1 078 068

Glückauf 1958 / 7/8 page 241, fig. 11

Glüokauf 1959/5 page 285, fig. 42

Claims (4)

Claims 1) Visible hydraulic excavation frame in triangular arrangement, characterized in that in the hydraulic cylinder (16) two pistons (17 and 18) with associated »piston rods (19 and 20) are slidably guided and that each Xolbenstangenend and the rear cylinder (16) with a Pit punch (10 »11 and 12) are connected in such a way that at corresponding application of the KÜokzylinders (16) only ever a pit punch is moved in the direction (32) of the mining front « 2) pit support frame according to claim 1, characterized «That a pit stamp (11) over sole rails (21 and 22) at a piston rod end (20) feet and at the other piston rod (19) is slidably guided. 3) örubenausbaugestell according to claim!, Characterized t that several hydraulic pit support racks of two known four-way valves (29 and 30), one behind the other are switched »are controlled» 4) ßrubenausbaugestell according to claim 1 and 3, characterized in that that one of the piston rods (19) has a channel (27) in which the pressure fluid is added or drains.