DE1178028B - Articulated and adjustable spacer for track expansion - Google Patents

Description

Articulated and adjustable spacer for track expansion The invention relates to an articulated, adjustable length, pressure and tensile spacers, e.g. B. for track expansion frames.

Mining cavities, e.g. B. stretches, are caused by the mountain pressure in only relatively few cases loaded evenly over their entire length. Experience has shown that there are predominant cases in which the mountain pressure in one section of the route changes in sections and in which it changes depending on the nature of the mountains and the influence adjacent cavities can assume differences of considerable size. This is always recognizable by the different behavior of similar ones brought in Expansion parts in a section of the route. Apart from the deformations of individual structures, the pressure effects are essentially as follows: Displacements of individual structures or groups of buildings in the direction of the route, across the direction of the route to the right or left and perpendicular to the direction of the route up or down.

It is known to use spacers and spacers to build the individual structures or to connect bolts to one another or to support them against one another. There are Bolting known in various designs, z. B. those that are only for inclusion are suitable for pressure, d. i.e., two neighboring structures move away as a result of the Mountain pressure from one another, such bolts slide or fall out of it Location and fail as a pressure transmission medium. Other bolts can only Absorb tensile forces, therefore fail when two neighboring structures approach one another move. There are also a number of spacers known to the structures be fastened with clamps, wedges, etc.; they need to be attached proportionally a lot of labor and it is by no means certain that the wedges will not fall out or knocked out, so that in not too long a time the spacers partly stuck diagonally between the buildings, partly fallen out completely. Is at Such fastenings increase the security, at the same time the complexity increases enlarged. The latter not only makes it more expensive, it is also inexpedient underground. Only in a few cases are spacers known which have a small pivoting movement allow, however, only at the game of a hook hung in an eyelet is based.

In addition, all of these known spacers lack the uninterrupted one Lined up, because they have to be attached to the expansion with tools these are attached one above the other or side by side, so that each stand-off holder rises or falls like a staircase to the adjoining spacer. This allows Torques arise that are transferred to the extension frame. It is also missing the known spacers the continuous adjustability. At a well-known Unpublished bolting, the length adjustability is that the tubes or the profile iron are hidden or removed through various screw holes. can be screwed. The adjustability can therefore only be done by screw hole to be made screw hole. A known spacer shows one continuous adjustment, which, however, is based on the friction between two flat irons is based and is therefore dependent on the tightening of the screw that holds the two flat irons must press against each other. The weathering of the surfaces also plays a role. Each spacer will therefore have a different amount of friction. at however, these spacers cannot, in turn, be used by the successive holders be arranged in a straight line, but must be above or below each other be set.

The invention overcomes the aforementioned disadvantages and provides one simple spacer that can be strung together continuously at the same height and has a continuous adjustability that is independent of the friction and the surface condition of the adjustment devices. Line up for this purpose the spacers are uninterruptedly penetrating the extension profile on one side of the extension profile with a hinge part, on the other side with a threaded part to be received in the joint part. In the threaded part of the The continuous adjustability is arranged as a screw connection at the connection point. The joint should allow both an angling in every direction and to do so serve to allow an interruption of this spacer. Both the separation As ai.ch reunification should be easy at all times can. This enables individual extension rings or extension segments to be exchanged. The use of the spacers according to the invention is particularly favorable for transitions from a straight line to an incline or at junctions.

In the preferred plus guide of the invention, the spacer cross the web of the extension profile, but could also be attached to the Flanging does not eliminate the advantages of the invention.

Several embodiments of the inventive concept are shown in the drawing shown. It shows A b b. 1 is a side view of an embodiment of the spacer according to the invention in use between two I-shaped track expansion frames Profiles, A b b. 2 is a side view and A b b. 3 is a plan view of the articulated joint the execution according to A b b. 1, A b b. 4 shows a second embodiment of the spacer according to the invention in side view in use, A b b. 5 is a plan view of FIG Articulated connection of the second embodiment, A b b. 6 is a side view of a third embodiment, A b b. 7 a side view of the clamping piece or a Part of the joint piece of the third embodiment, A b b. 8 is a plan view of FIG the clamping piece according to Fig.7. A b b. Figure 9 is a partial top plan view of the insert of the rod in the joint according to the A b b. 7 and 8, A b b. 10 is a side view of one in the Joint according to A b b. 7 used disc.

In the figures, 1, 101 and 201 denote the spacer rod or the spacer tube, which at one end with the thread 2,102 and 202 is provided. This threaded end is in each case from the nut thread 3, 103 and 203 detected, which is arranged on a part of a joint.

In the first embodiment according to A b b. 1 and 2 become the nut thread Created by two screw nuts 4, which are bent in the opening of a U-shape Steel bracket 5 are attached or welded. This bracket 5 is with the support rod 1 connected by an eyelet 6, so that a pivoting of the rod in both vertical as well as in the horizontal plane is possible. Movement can also be limited are provided by suitable elevations 7 on both sides of the eyelet on the steel bracket that only release the desired game for the rod in one level.

Assume that in A b b. 1 the spacer 1 is inserted between the two set structures 8 and 9, the spacer 1 ' to be inserted would capture the end thread 2 of the rod 1 with its nuts 4 and tighten the rod i after the nuts have been placed against the expansion 9. If the rod 1 shows the correct distance, the counter nut 10 can be screwed against the extension 9, so that the rod 1 is now inserted between the structures 8 and 9 in a pressure and tensile strength. Nevertheless, through the joint 5, 6, it retains the possibility of being able to execute a pivoting movement to a limited extent. The latter is important z. B. if the expansion 9 is compressed faster (its flexibility is used more quickly) than the adjacent expansion designated 8.

According to the second embodiment according to A b b. 4 and 5, the joint is composed of a fork-shaped part which is open in the longitudinal direction and a bolt 17 which traverses the fork prongs and which also passes through an eyelet 106 on the rod 101 . The bridge 18 of the fork-shaped part b; there is a hole with the nut thread to receive the opposite end of the inserted holder 101. The inner surfaces 19 and 20 of the fork prongs move away from each other in the direction of their opening, which on the one hand facilitates the introduction of the eyelet 106 and on the other hand increases the pivotability of the rod . It is also advantageous to make the prongs reinforced, for example in their central part, so that when pressure occurs, the bolt has a larger contact surface. The new spacer to be inserted is again used in such a way that the bridge 18 of the fork-shaped part grasps and attracts the threaded end of the spacer used. Here, too, after the spacer 101 is in the correct position, the counter nut 110 is screwed against the extension profile.

Figures 6 to 10 show a third embodiment Embodiment results in a particularly easy release within the joint part. According to this embodiment, the holder rod does not show an eyelet, but the end is condensed and lies in a fork-like shape behind the thickening 25 Bearing part 26. The fork-shaped recessed wall 27 of the bearing part 26 is shown in FIG Direction of the fork deepest undercut, so that the rod pops out is effectively prevented from the fork. Behind the thickening 25 of the rod between this and the fork-shaped recessed wall 27 is a wedge-shaped perforated disc 28 inserted. In addition to the bore 29, the disk 28 is shaped like a spherical cap Recess 30, which is a full abutment of the correspondingly shaped back of the thickening 25 secures and enables joint movement in all directions. The fork-shaped one Cutout in the rear wall 27 as well as the bore 29 of the parts 28 are to the outside extended so as not to impair the ability of the spacer to pivot. The bearing part 26 is also used as a clamping piece by arranging the nut thread 203 in the closed bearing neck 31.

The bearing part or the clamping piece 26 is designed so that it is particularly suitable for a drop forging.

Claims (13)

Claims: 1. More flexible, adjustable in length, resistant to pressure and tension Spacers, e.g. B. for track expansion frame, characterized in that the holder uninterrupted on one side of the extension profile with a joint part, line up on the other side with a threaded part to be accommodated in the joint part, with a continuous adjustability in the thread of the connection point is arranged. 2. Spacer according to claim 1, characterized in that in a fork-shaped part (5, 16, 26) of the joint part, the holder rod or the holding tube is easily detachably connected. 3. Spacers according to claims 1 and 2, characterized in that a U-shaped bent round steel bow (5) at its open end with two between the U-legs fastened nuts (3, 4) is closed, which is the end of the already used holder (1) and record the distance between the two previous structures specifies. 4. Spacer according to Claims 1 and 2, characterized in that that the fork-shaped part (16) receives a bolt (17) which has an eyelet (106) the holder (101) traversed. 5. Spacer according to claim 4, characterized in that that the inner surfaces (19; 20) of the fork prongs after the opening from each other remove. 6. Spacer according to claim 4, characterized in that the fork prongs are reinforced roughly in their middle part. 7. Spacer according to claim 4, characterized characterized in that the fork prongs connecting bridge (18) with thread for receiving of the end of the holder (101) is formed. B. Spacer according to Claim 4, characterized in that characterized in that the fork is made in non-cutting deformation. 9. Spacers according to claims 1 and 2, characterized in that the end of the rod (201) is thickened and articulated in a fork-like shape behind the thickening (25) reaching Bearing part (26), which is also designed as a clamping piece, is inserted. 10. Spacer according to claim 9, characterized in that the fork-shaped recessed Wall (27) of the bearing part is undercut in the direction of the fork deepest. 11. Spacer according to Claims 9 and 10, characterized in that behind the Thickening (25) between this and the fork-shaped recessed wall (27) of the Bearing part a perforated wedge extending disc (28) is used. 12. Spacers according to claims 9 to 11, characterized in that the disc (28) is spherical cap-shaped is excluded. 13. Spacer according to claims 9 to 12, characterized in that that the clamping piece in non-cutting deformation, especially as a drop forged part, is made. Publications Considered: British Patents No. 273 982, 605 996: French patent specification No. 964111.