DE1179529B - Articulated expansion, especially multi-articulated expansion for underground spaces - Google Patents

Description

Articulated expansion, especially multi-gel käusb, u "for underground rooms The joints are mostly on known articulated expansion frames for underground spaces with a shoe-like, e.g. B. fork-shaped approach, which is generally referred to below as Articulated base is referred to on the profiles, for. B. attached to the web of I-profiles. The disadvantage is that at these connection points because of the smaller cross-sectional area or the unfavorable moment of resistance of the articulated base or the transitions of the articulated base profile only part of the normal forces, transverse forces and bending moments that are not in the joint axis (i.e. deflection in the direction of the joint axis) can be recorded with which the profile of the extension frame itself may be claimed. Form the joints therefore with the known articulated expansion and. especially multi-articulation critical cross-sections. For socket-like joints in which parts of the profile cross-section - are placed directly against roller-shaped joint bodies, the same applies. Though are also articulated extensions -with articulated base known that against the entire cross-sectional area of the profile, but compared to the profile, they have an incomparable higher weight per meter, must also .forged, possibly cast. or similar are manufactured.

It is also known to have cylindrical shells lying symmetrically to the profile with diameters that are larger than the profile height, ... directly against the whole To create a profile section, which then to a certain extent - itself forms the joint base., These known articulated extensions have the disadvantage that the joint angle cannot be reduced to small angles, such as about 90 °, since the joint cups are too big; and further that when the joint angle changes, there is a shift of the profiles to each other takes place perpendicular to the route axis, which in turn is less Longitudinal force transmission than in the profiles themselves and an additional moment load means. In addition, joints with such large shells are expensive. Furthermore, be able to such joints, which are usually designed as support joints, do not have any significant stresses record in the direction of the route.

The parts rotating against each other or rolling against each other are more familiar Joints of pit supports, the latter have the night. variable stress, z. B: Shells and hinge pins are often due to the longitudinal force alone. held against each other and form. hence so-called support joints They take shear forces in . Route direction through interlocking projections and depressions, .can be stressed in the direction of the route, but not in bending. -. their resistance - against transverse forces perpendicular to the hinge pin is unsafe, - and there is the Possibility that the entire extension frame at these hinge points has an uncontrollable Maintains instability. There are plate-like approaches to bolts known, -the, tightened - by screws, the shell-like bulges - of the two to be connected Hold the joint sides together under, shear and bending loads, this version However, it has the disadvantage of several loose = and not simple parts as well as one large material with a stretch of construction in which the expansion segments; - more iridescent in the roof, against a runner from Ftrbfileigei3 - a'bgestät2t`are, 'whose Web between the opposite, with the extension segments. verbüideheii '' Support members are clamped, is''äs ° hekaünt, "2ie- Stüttgliedei ab äkial @ -z'u to train the segmenter # `angeerdüete üiid ürir with` "these pressure pieces connected, ' which by one or more die-runners fully or partially encompassing coupling members _ are connected-: This is how you want the three to be connected to each other at the joints connected - elements - unite with each other in a constructive way. A safeguard against bending moments acting transversely to the joint axis is provided by - the well-known: measures not achieved. z Rather, one strives for -only- a connection, in which the runner profile is not - through screw holes or the like - in its moment of resistance is weakened. . However, it is basically known to each other connected elements of rings.to include.-at-one made of rails Expansion is also known - on dan = joint parts from = the rails web parts remove and rail head as well as rail foot and on one through to bend the hinge pin given distance against each other and to the hinge pin to connect. Such deformations of the rails forming the support frame cause however, the result is a weakening of the moment of resistance of the frame parts against Bending moments acting transversely to the joint axis, so that this is also known Embodiment the hinge points, which otherwise act against transverse to the hinge axis Bending moments and shear forces are in no way secured, critical cross-sectional areas that are dangerous.

The suggestion for pit support frames does not belong to the state of the art with pin joint as joint securing ring-shaped closed connecting links to provide the articulated interacting parts on both sides of the joint. The problems caused by the profiles of the Frame at the hinge connection points for receiving transversely acting to the hinge axis Bending moments are weakened, has not found any consideration in this proposal.

The invention has set itself the task in all joint parts, d. H. both in the joint base and in the actual joint parts the same and forces of approximately the same size, in particular longitudinal forces and also transversely to the joint axis Record running bending moments, as in the profile itself same weight per meter in terms of optimal material utilization, simplest production, same design of the ends reinforced with joint parts, suitability for simple connection of further expansion elements, such as bolting irons or power transmission supports, good robbery and the correction of the disadvantages listed by dispensing with loose wedges and force-absorbing ones Machine elements such as screw wedges and the like can be realized.

The invention relates to an articulated extension, in particular a multi-articulated extension for underground rooms, made of extension profiles with hinged bases and on the hinged bases attached joint parts, it consists in the fact that in combination a) the profile ends even to the joint bases carrying the joint parts with from the profiles to the joint axis are deformed towards increasing section modulus, b) with the joint sockets in the direction the joint axis projecting joint parts are connected and the projecting joint parts are held together by round iron washers or rings as a backup.

The extension profiles are expediently flange profiles, in particular box profiles, which in multiple and simple ways with the simplest processing a deformation to allow joint sockets within the meaning of the invention. Such profile ends with articulated base training but can also only represent sleeves or shoes to accommodate other expansion parts, the z. B. be inserted as a cap into the sleeves.

Advantages achieved by the described features of the invention are mainly to be seen in the fact that the entire expansion frame for the transmission of Bending moments transverse to the joint axis in the same way in terms of strength and stability is designed so that the overall arrangement because of the possibility of receiving large Moments and shear forces are of particular importance for the multi-joint construction, in which it significantly reduces the risk of instability in the direction of the route and even avoids. It is thus through the deformation of the expansion profiles themselves that lead to the mentioned support of the joint parts leads, that consequently transversely to the joint axis acting bending moments can be easily absorbed.

In the following the invention is based on a merely exemplary embodiment Illustrative drawing, which also contains other features of the invention, with emphasis further advantages achieved by the invention, explained in more detail. It shows F i g. 1 shows the joint part of a pit lining according to the invention in a side view.

F i g. 2 a plan view of the object according to Fig.l, F i g. 3 one Section from the object according to FIG. 1 in an enlarged view, FIG. 4 shows a section from the object according to FIG. 2 in an enlarged view, F i g. 5 shows the side view of a joint base without the joint parts, FIG. 6 one Side view of the object according to FIG. 5 and FIG. 7 a plan view of the Item according to the F i g. 5 and 6.

As the figures show, there is an articulated extension, in particular a multi-articulated extension, for underground spaces from articulated bases 1 a, 1 b assigned to one another, which are formed on the extension elements 2 a, 2 b by deformation. The joint parts or joint elements are attached to the joint sockets 1 a, 1 b. The joint parts themselves can be designed in any way within the scope of the invention and consist in the figures of cylinder segment identical or similarly shaped shells 3 a, 3 b, which are welded to the joint sockets 1 a and 1 b, the welds 5 are in the figure indicated. Furthermore, round bars 4a, 4b or equivalent-acting pipe sections are placed in the shells 3a, 3b as hinge bolts and the hinge bases l a, 1 b and thus the profile ends 2 a, 2 b are held together by clasps 6 a, 6 b .

The joint bases 1 a , 1 b are shaped in this way (cf. in particular FIGS. 5 to 7). that the section modulus (this means that the integral Z (y2 df, if y means the distance from a profile axis running transversely to the joint axis) increases from profile 2a or 2b towards the joint Flanges 7 or the webs 8 of the profile) and because of the fact that the flanges 7, as shown, can be bent together so that they deviate only slightly from their parallel course, the full longitudinal, transverse force and bending momentum are practically obtained The flange 7 or, in the case of double flange profiles such as I-profiles, the flanges 7 are deformed in such a way that they form an angle with one another Welding seam 5 for fastening the shells 3 a, 3 b or the hinge pins 4 a, 4 b at the most heavily stressed point prevents or enables wide fastening eg 8 or corresponding profile parts created part of the joint socket 1 a or 1 b has in section parallel to the flange alternating curvature, as indicated by 10 , and thus increases the flexural rigidity of the web 8, which is of particular importance. The shell shape of the base produced as a whole also results in a substantial stiffening of the profile against stress on shear, which is particularly important when bending the profiles 2 a, 2 b , but is also important for underground loads.

As the figures indicate, the shape illustrated can be of the joint socket l a, 1 b is an approximation of the profile ends 2 a, 2 b to about 90 °.

The profile base 1 a and 1 b can be manufactured as a ram by pressing on the profile ends with mutually perpendicular wedge surfaces. The joint bases 1 a, 16 can most advantageously be formed from boxes or similar profiles as shown. In the case of round or box profiles, the web profile parts for absorbing moments can also be bent inwards, although less advantageously.

In the case of single-bar profiles (I-profiles, rails, etc.), as they do, however are not described in the figures, is a one-sided design of the Figures shown base possible. Then add the other side. Man can also exclude profile walls in the direction of the profile height for all profiles, which Press flanges or corresponding parts together as described and add additional Weld connecting iron against the profile ends or from profile walls to the shell, similar to the loop9 together with the other profile parts sufficient section modulus to produce within the meaning of the invention. This is especially true for I-profiles and pit I-profiles advantageous. Channel profiles can be treated in a similar way to box profiles. Basically a wide variety of profiles can be used, e.g. B. also circular, rectangular or polygonal pipe cross-sections in addition to double I-profiles and the like, whereby for all profiles press the profile end as well as removing, bending and Connection is possible.

The special arrangement of the individual joint parts can be seen in particular from FIG. 1 to 4. Both bases 1 a and 1 b of the joint are covered with a shell 3 a and 3 b. In between are the hinge pins 4 a, 4 b. There are both base cross-sections 1 a and 1 b, on the one hand, the center of the base with the shell 3 a or 3 b, on the other hand, the center of the base with hinge pins 4 a or 4 b plus shell 3 a and 3 b connected, but this can also be varied can.

The shell parts 3 a and 3 b projecting over the base (without hinge pins) are anchored again to the web 8 of the profile 2 a and 2 b by means of an anchor plate 11 a, 11 b , whereby the stress in the shells 3 a and 3 b when force is applied to the clasping between the profile and the anchor drops by about half. The protruding part of the shells 3 a and 3 b has a large lever arm because of the large distance from the center of the joint, so it only needs to absorb relatively small forces. The shell 3 a, 3 b protruding freely over the joint base forms an intimately connected unit with the joint pin 4 a and 4 b, respectively. This is designed so that the freely cantilevered length and the clamping length (= fastening length) are comparable with their height, so that the bending stress is small. As a result, the forces that occur can be absorbed by the cantilevered arrangement.

The non-positive connection of the joint parts is achieved by slipping them over them of clasps 6 a and 6 b over the protruding ends of the shells 3 a and 3 b made. The securing of the clasp is done according to the figures Insertion of a safety spring in the manner of the safety pin 12 into a bore of the hinge pin 4 b or the associated shell 3 b and closing it Feather.

There are no force-absorbing machine elements to connect the joint parts, such as screws, wedges, etc., are required.

Is the joint base cross-section, as shown in the figures, half proven with shell 3 a or 3 b, half with hinge pins 4 a or 4 b plus shell 3 a or 3 6 and in closed clasps between profile and anchor plate 11 a, 11 b arranged, so matching profile ends are completely the same, and the transverse forces in the direction of the route are absorbed on one side by the pivot pin halves 4 a and 4 b on the other side by self-locking of both clasps 6 a and 6 b. The shear strength can be increased by intermeshing depressions and elevations.

As long as the hinge pin 4 a or 4 b is attached to the shell 3 a or 3 b, all parts are firmly connected to the profiles 2 a and 2 b and are thus arranged captive, except for the safety spring 12. Since the bore holds the safety spring even after dismantling, the safety spring can be considered captive.

The clasps 6 a and 6 b can be brought safely into the space between the flanges 7 and the web 8 for transport with elastic deflection of the anchor plates 11 a and 11 b by erecting the finitely receding web 8 for profiles. The shells 3 a and 3 b and hinge pins 4 a and 4 b can advantageously be connected to the base 1 a or 1 b by butt welding, flash welding and the like.

The design of the actual joint parts is, as mentioned above, basically arbitrary. According to the figures, the shells 3 a and 3 b are designed as cylinder segments or another structure whose surface facing the hinge pin 4 a or 4 b does not have at least three points in one plane and has the shell 3 a or 3 b a diameter, which is possibly determined by the three points, but which is preferably smaller than the profile height and an extension that covers the base end cross-section at least including any weld seams 5. The clasps 6 a and 6 b are designed as open or closed rings, preferably round rings, and have the advantage of acting on a favorable lever arm and practically only being subjected to tensile stress. Are the Schalensägmente 3 a and 3 b thick, but of smaller arc length, we shall advantageously between ring 6 a and 6 b and hinge pins 4a and 4b in the region between the shells may be at the ring 6 a, 6 b, or at Hinge pins 4 a and 4 b attached intermediate pieces 13, so that when the ring is stressed, the ring is stressed like a rope polygon, with pure tensile stresses occurring after the initial flow. The clasp 6 a, 6 b is designed according to the figures as a sheet metal provided with a hole.

One recognizes from the F i g. 1 to 4, that the joint socket 1 a or 1 b with Shells 3 a and 3 b leave so much latitude between them that they also additional expansion elements, such as bolting irons or power transmission supports, between can take up which may also be combined with the clasps 6 a, 6 b or these can be part of it as form training.

Claims (19)

Claims: 1. Articulated extension, in particular multi-articulated extension, for underground spaces with extension profiles made of hinged bases and joint parts attached to the hinged bases, characterized by the combination of the following features: a) The profile ends (2a or 2b) themselves are the joint parts (3 a or 3 b; 4 a or 4 b) supporting joint sockets (1 a or 1 b) deformed with an increasing moment of resistance from the profiles to the joint axis; b) joint parts projecting in the direction of the joint axis are connected to the joint sockets, and the projecting joint parts are held together by round iron washers or rings as a backup. 2. Articulated expansion according to claim 1, characterized in that as Ausbauprofile- known profiles, preferably flange profiles (2 a or 2 b) are used and to form the joint base, the flange or flanges (7) or corresponding parts Deformed to form an angle to the longitudinal axis of the profile and the web or webs (8) or corresponding profile walls of which are deformed to form a loop-like bulge (9) running perpendicular to the hinge axis. 3. Expansion according to claims 1 and 2, characterized in that from the web (8) or corresponding profile walls bulging parts (9) of the joint base (la or lb) in section parallel to the flange (7) or alternating according to the profile wall Have curvature (10). 4. Expansion after to claims 1 to 3, characterized in that the joint bases (la or 1 b) from box profiles (2 a or 2 b) or similar profiles by pressure the profile ends are made with mutually perpendicular wedge surfaces. 5. Expansion according to claims 1 to 4, characterized in that in the case of round or box profiles the profile parts are not brought out to the outside but are bent inwards. 6th Extension according to claims 1 to 5, characterized in that single-web profiles (I-profiles or rails) the base is formed on one side and on the other side is supplemented by additional elements. 7. Expansion according to claims 1 to 6, characterized characterized that extending in the direction of the profile height profile parts excluded and the flanges or corresponding profile walls bent together and additionally Connecting bars are provided to increase the section modulus. B. Extension according to claims 1 to 7, characterized in that both joint bases (1 a or 1 b) of each joint are cantilevered (welded) with a shell (3 a or 3 b), between the shells (3 a or 3 b). 3 b) a hinge pin (4 a or 4 b) or tube is inserted and the protruding shells (3 a or 3 b) are clasped by washers, rings or the like (6a or 6b). 9. Expansion according to claims 1 to 8, characterized in that both base cross-sections (l a or 1 b) on the one hand the base center with a shell (3 a or 3 b), on the other hand the base center with hinge pin (4 a or 4 b) and shell or a corresponding unit (3a or 3b) are provided. 10. Expansion according to claims 1 to 9, characterized in that the over the base (la or lb) cantilevered shell (3a or 3b) by an anchor plate (11 a or 11 b) once again on the profile (2 a or 2 b) is anchored. 11. Expansion according to claims 1 to 10, characterized in that the over the base (la or lb) cantilevered, with the hinge pin (4 a or 4 b) intimately connected shell (3 a or 3 b) or a corresponding unit is designed so that the freely projecting length and preferably also the clamping length is comparable to the height of the hinge pin plus shell or the corresponding unit. 12. Expansion according to claims 1 to 11, characterized in that the joint parts (3a or 3b, 4 a or 4b) are brought into a force-locking connection by clasps (6a or 6b) over the protruding end and the clasping through Insertion of safety springs (12) in the manner of a safety pin or similar in a hole in the hinge pin (4a or 4b) or the associated shell (3 a or 3 b) is held in place. 13 .. Extension according to claims 1 to 12, characterized in that half of the base cross-section with the shell (3a or 3 b) alone, half with hinge pins (4 a or 4 b) and shell (3 a or 3 b) or a corresponding unit and the joint parts are arranged in clasps (6 a and 6 b). 14. Expansion according to claims 1 to 13, characterized in that all joint parts (3 a or 3 b, 4 a or 4 b) are arranged captive except for the safety spring (12). 15. Expansion according to claims 1 to 14, characterized in that the shell (3 a or 3 b) and hinge pin (4 a or 4 b) by butt welding, flash welding or the like. With the base (la or 1 b) are connected. 16. Expansion according to the claims 1 to 15, characterized in that the shell (3 a or 3 b) as a cylinder segment or a similar structure, of whose surface facing the hinge pin at least three points do not lie in one plane, is formed and one diameter having, which is smaller than the profile height and has an extension that is at least including possible welds (5) covers the base end cross section. 17. Expansion according to claims 1 to 16, characterized in that between the clasping ring (6 a or 6 b) and hinge pin (4 a or 4 b) in the area between two shells (3 a or 3 b) possibly on a ring (6 a or 6 b) or hinge pins (4 a or 4 b) attached intermediate pieces and on them the clasping ring (6a or 6b) is supported in the force guide recording. 18. Expansion according to claims 1 to 17, characterized in that the clasp (6a or 6b) is designed as a sheet metal provided with a bore. 19. Expansion according to claims 1 to 18, characterized in that the clasps (6a or 6b) are designed as parts of other expansion elements, such as bolting irons or power transmission supports. Documents considered: German Patent No. 815 946; French patent specification No. 1001977.