DE713805C - Iron polygon or arch construction - Google Patents

Description

Iron polygon or arch support The invention relates to an articulated one iron mine support. Besides the usual pinch-joint joints, they are known for building arches also hinge-like joints, the parts of which are tab-like with the actual expansion segments are connected or are formed from the ends of the segments themselves.

The invention goes to improve such types of expansion of one known arch construction, in which the mutually facing ends of the tubular Profile iron segments themselves are used to form the joint, namely in this known design, the tubular profiles are compressed at the ends, whereupon, after inserting flat iron intermediate layers, the hinge pin is pushed through will. This type of construction is not suitable for practice because it is at the transition point of the pipe profile to the flattening results in a strong weakening of the expansion. aside from that the bolt has to absorb considerable forces, as a relief is not provided is.

In another previously known from the same prior publication Embodiment of the iron pit lining form the ends of the joint producing Flap a semicircular head, which is in a pan-like approach of the opposite flap leads so that the bolts are relieved. This design has the disadvantage that the Expansion at the transition point from the bracket to the expansion segment considerably weakened will.

The invention is based on the known idea for education of the joint to pull and identify the ends of the profit iron segments themselves thereby claß when using U or rinnenförinig trained Profile iron segments the end of a segment to a hollow pivot pin is formed concentrically enclosing ring-like chamber. in which-- a from the other segment g: -forinter ringart'.g, r hollow pin engages. To this In this way, an articulated connection of great rigidity is avoided any weakening of the extension frame and at the same time achieving a Relief of the hinge pin.

In the case of ordinary plate-link chains, it is also known that the plates to be provided with zvlindrisclien hollow tenons near the two ends, with the 'Hollow pin of one tab engages in the hollow pin of the other tab, so that the bolts are also relieved. One surrounding the spherical bearing Rindhammer is not provided for here.

According to the invention, both the hollow pin and the closed pin Pivoting bearings by pulling and pressing from the channel or U-type: gene profile iron segments be shaped. The outer boundary of the ring-like chamber is intended to be cleaned up of the two flanges of the profile iron be formed, while the closed pivot bearing is formed from the meat of the profile iron web.

A particularly useful embodiment is obtained when the articulated Profile iron segments connected to one another each consist of two channel-shaped or U-shaped Profiles exist, which between them a space for the reception of the neighboring Leave rail-like or double-T-like profiles free and pass through their joint parts be held together by a common bolt. Such shaped, arranged in pairs Profiles are used as rigid connecting straps to accommodate double-T or rail profiles known. The use of this arrangement as load-bearing expansion profiles in the Ralinien d.2r expansion type according to the invention, elen has the particular advantage that this a very load-bearing expansion with low weight is created, its load-bearing capacity with increasing compression, i.e. quite extraordinary with increasing mountain pressure elevated. whereby as a result of the articulated connection used, there is a collapse .ler profile # -; sen without 'changing the radius of curvature. d. H. without deadlocks, Kinks and premature destruction is guaranteed .. According to the invention Profiles to be connected to one another in an articulated manner can also consist of double T-bars. then in the formation of the Ge @ ukteile each on one side of the flange in is partially cut away near the web. These @; a; -tik: ä initcLinaiid ° r hidden double: a-T profiles finite their other ends in pairs ailg - @@ dne, en bracket-like or Kainnler-like profiles.

In this embodiment of the invention, it is particularly useful when the profile iron segments facing each other and those facing outwards have identically formed ends and if the profiles that each form a segment have differently designed ends.

In the drawing, the subject of the invention is at two Atisführunginsileispi.elen shown.

Fig. A shows an arch extension consisting of four segments.

Figure 2 is a section on line A-A of Figure i.

Figure 3 is a step along line L-D of Figure. i.

FIG. 1 is a view of the right end of the Segnient-z # of FIG. 3.

Fig. 5 and () are sections according to lines C-C tti, 1 D-D of Figs.

In Fig. 7, two profiles to be connected are each other in plan view at a distance -, - juxtaposed.

Fig. 8 shows the left flap of Fig. 3 ill view.

9 and 10 show sections along lines E-E and F-F of FIG.

Fig. I i illustrates the gel, -nlzige connection of two double-T profiles in view. FIG. 1 2 is a section along line G-G of FIG. 11.

Fig. I3 is a section along line H-H of Fig. I i.

Fig. I.l shows the end of the right profile segment of Fig. 13 in Opinion.

FIG. 15 shows a section along line K-K of FIG. 14.

In FIG. 16, in a plan view, the ends - «- are profiles to be connected facing each other at a distance.

Fig. 1; shows the end of the left profile of FIG. 13 in view.

Fig. Ig is a section along line 1I-II of the Fil-. 1;.

The expansion according to Fig. I ordered from four segments, which are connected in the roof by a gel-enk. The two lateral S2gnient ° i and 2 consist of Dol) pel-T-iron (see Fig. 2). while the two upper segments are made of profile iron pairs «, b of U- or klainnier-like basic shape. The clip-like profiles a, b have bent flanges 3, 4 . such that Führtilig channels 5 and 6 for the reception of the Flatisclien; and 8 of the profiles i and 2 arise. The profiles i and 2 enter the cavity formed between the profiles, a and b by a certain length, as illustrated in FIG. The connection of the Pzöfile ci and b with the profiles i and 2 then takes place- @ in a manner known per se by a clamping bracket io provided with tightening nuts 9. Of course, the connection can also be made in other ways, but always in such a way that a certain resistance is opposed to the profiles being pushed into one another.

The profile segments b are at their ends facing each other as hollow pivot pin i i formed by. an annular chamber 12 enclosed is, in which the closed pivot bearing forming the ring pin 12 "engages. The outer annular web-like delimitation 13 of the chamber 12 goes into the flanges 3 and 4 over. The outer boundary of the tab a forms a protruding ring-like Web 14, which also merges into the flanges 3 and 4 and an annular chamber forms. The bolt 15, which has a fixed one at one end, is used to couple the joint Has rivet head 16, while at the other end it is threaded and through a Nut 17 can be tightened. The washer 18 has an approach i9, which is inserted into the hollow pin and rounded in shape Transition is adapted in the hollow pin. In the middle of the joint is between the Profile iron -a spacer ring 2o provided in order to achieve a good surface contact.

The hollow pin and the closed pivot bearing are formed from the meat of the profile iron a and b by pulling and pressing. In the embodiment of FIGS. Ii to 18, the profiles consist of double T-irons 21. The joint is formed according to the same principle as has been described above with respect to the embodiment of FIGS. I to io. So a hollow ring pin ii is pulled out of the web of one (Fig. 13, left) profile iron, which is enclosed by an annular projection 12 ″ which forms a closed pivot bearing and is pulled out of the web of the other segment Similar to the first-described embodiment, the remaining flanges of the profile iron are connected to one another in such a way that they form a collar or web which forms a ring or ring section 13, 14 concentric to the pivot pin Connection takes place similarly w: e in the first example treated by a bolt 15. The idea of the invention can be applied to any forms of arched and polygonal construction. It is not necessary that all connection points are equipped with joints in the sense of the invention partly also h consist of straight profile bars. It is also possible that in addition to one or more articulation points designed according to the invention, one or more articulation points designed in a different way are used, e.g. B. such other hinge points can be formed in a manner known per se by a Ouetsch wood or a rigid roller, which is enclosed by suitable reinforcements attached to the punch ends (e.g. in the form of bearing shells, angle irons, () irons, etc.) are.

Claims (1)

PATENT CLAIMS: i. Iron polygonal or arched construction, consisting of profile iron segments which can be moved into one another against a resistance, with a joint being switched on between at least two such profile iron segments, the bearings of which are formed from the ends of the profile iron segments themselves, characterized in that when using U or Channel-shaped profile iron segments the end of one segment is formed into a ring-like chamber (12) which concentrically encloses a hollow pivot pin (ii) and into which an annular chamber (12) formed from the other segment. Hollow pin (12Q) engages. ?. Iron polygonal or arched structure according to claim i, characterized in that the outer delimitation of the ring-like chamber (12) is formed by the union of the two flanges of the profile iron, while the closed pivot bearing is formed from the meat of the profile iron web. 3. Iron polygonal or arched structure according to claims i and z, characterized in that the flanges of the segment end (a) forming the ring-like hollow pin (12Q) unite on the side facing away from the hollow pin to form a ririgartigen web (14). 4. Iron polygonal or arched structure according to claim i or the following, characterized in that the hinged profile iron segments each consist of two channel or U-shaped profiles that have a space between them for receiving the adjacent -schienen- or double- Leave the T-shaped profiles free and earth their joint parts held together by a common bolt. 5. Iron polygonal or arched structure according to claims z and q., Characterized in that each of the facing and the outward profile iron segments have identically formed ends and that each segment forming profiles (a, b) have differently formed ends.