DE1010933B - Resilient pit lining - Google Patents

Description

Compliant Pit Support The invention relates to a compliant pit Pit expansion in ring or arch form or a door frame expansion, this expansion consists of two or more collapsible profiles or segments in which a cutting tool attached to a profile causes a machining process, whose power requirement of the load absorption of the expansion through appropriate dimensioning is adapted.

Extensions are known from arcuate segments, with between each two segments of wooden parts are built in, which when pushed together by one or several cutting edges are to be cut through gradually. It is also known to sharpen a segment part and place it in a hole in a shear plate, so that the pressure coming from the mountains gradually moves the cutting edge into the shear plate lets penetrate. Pit punches are also known in which a punch part is a Tool or a cutting edge of different shape carries and thus when sinking in The part to be machined that is attached to the other part of the punch shears off.

In all of these known shearing devices, one or more chips are always sheared from a workpiece, with only one cut surface being created for each chip. In addition, these known solutions have always been proposed in such a way that the workpiece to be machined only has to fulfill the task of being machined.

Up to now, increasing chip widths have been used to increase the load absorption or widening cutting bodies proposed. Thereby the constructions become complicated and difficult. In addition, special profiles for machining Rings or wedge-shaped bodies are used to shear complicated tools make necessary that make the expansion more expensive. Another disadvantage is that the load applied by machining was not always centered on the profile. Even robbing the known devices is usually not easy; either it requires the loosening of screws that are rusted underground in most cases, or often it can only be made possible by staging or outlining.

According to the invention, to avoid the disadvantages mentioned, it is now proposed to carry out the machining process as a shearing process with two cut surfaces at the same height or one behind the other or with more than two cutting surfaces, so that double the cutting force is produced with the same material expenditure and only one cutting tool. Another great advantage of the invention can be seen in the fact that the shear bar is bilateral, i.e. H. is held or clamped on both sides of the shear point. According to the invention, the shear bar also has two tasks: on the one hand, it serves to be machined and, on the other hand, it simultaneously has the task of holding together the profiles or guide tabs that carry it and that guide the profile carrying the shear tool. By shearing open the shear bar, this connection is released at the end of the shearing process and the guide tabs can thus be easily removed. The shear bar can be an I, U or Z profile and welded, riveted or screwed to the guide brackets.

On the other hand, the guide brackets are provided with external clamps or rings held together, so the shear profile can remain without Einspannufig. So can z. B. on the inside of the guide tabs guide strips in a suitable manner are attached, between which then simple flat bars inserted as shear bars will. The guide strips can also be attached to the profile z. B. rolled will. When robbing, only the rings have to be removed.

If two shear bars are used at the same time, they can be inclined Shear tools provided so inclined towards each other that the horizontal components cancel the shear forces.

Instead of a composite profile made up of guide tabs and a shear bar as a web, an I-profile can also be used according to the invention. In this way, two I-profiles slide, twisted by 90 '. into one another, with one profile carrying the cutting tool on its web, which then separates the other web. To guide the two profiles into one another before the start of the shearing process, a slot of sufficient length is made or cut out in the shear profile, that is to say in the one web.

In the case of a composite, approximately I-like profile, according to FIG Invention, the shear bar is exchangeable and preferably consists of a sheet metal strip, whose edges are notched. Both sides stopped Tabs are inserted through the slots in the guide tabs, bent over and held in place so the two guide brackets are firmly in their position. Is the shearing process at the time the robbery has not yet ended, the connection of the guide plates can thereby be solved that the remaining bent lobes of the shear bar knocked off will. To make it easier to break off, the tabs are useful before installation notched. Due to the two-sided clamping of the shear bars, there is an evasion in front of the shear tool.

An increasing load absorption or an increasing shear resistance to achieve, the shear bars according to the invention are left in the same wall thickness, however provided with one or more notches that are in the shear plane and shear device run and gradually decrease in depth.

In all solutions according to the invention, there is always a central axial one Power transmission guaranteed.

Several embodiments of the inventive concept are shown schematically in the drawing. It shows Fig. 1 a side view, partly in section, according to the line 1-1 of Fig. 2 of an embodiment of the invention, Fig. 2 is a cross section along the line II-II of Fig. 1, Fig. 3 is a partial section along the line III-III of Fig. 2, Fig. 4 is a front view of a shear plate in accordance with the 5 shows a cross-section neighboring the line VV of Fig. 4 6 a cross section of another AU sführungsforrn of the invention the invention, Fig., Fig., in which two I -shaped profiles are arranged crosswise, Fig. 7 is a partial longitudinal section along the line VII-VII of Fig. 6, Fig. 8 is a side view of an embodiment with a roof-shaped cutting edge that shears off two shear bars, Fig. 9 is a side view like Fig. 8, but the two shear edges arranged in the manner of a notch, fig. 10 is a side view with two remotely mounted from each other by the web thickness shearing edges, Fig. 11 is a partial front view of the embodiment of Fig. 10, Fig. 12 is a cross section of an embodiment of the invention, be i which the guide tabs are held by rings and have ribs on the inner surface, between which the shear bars are inserted.

In the drawings, 1 denotes a cutting tool which is attached to a z. B. I-shaped Profil.2 is attached. With this tool, the expansion profile 2 rests as an expansion segment on a shear bar 3 , which z. B. is attached to two channel-shaped profiles 4 in a suitable manner. These channel-shaped profiles 4 can also form an extension segment, but they can also only appear as tabs between two extension segments, or they can also be put together in the form of a foot part or a door frame-like part. In Fig. 1 the shear bar 3 is shown riveted. A particularly simple attachment results according to the invention when the shear bar z. B. starting from a sheet metal strip as the basic shape, is notched on both sides, so that arms or teeth 5 protrude on both sides. These teeth reach through slots in the profiles 4 and are bent there alternately in one direction and the other. Some of the teeth can also be bent before the profiles, so that a sufficiently strong connection between the shear bar 3 and the profiles 4 is created. If the case should occur that the shear bar has not yet been completely sheared off and the removal is to be stolen, the teeth can be broken off or chipped off, assuming that the removal has been in place for a long time, i.e. the rust has already taken hold of everything ferrous . To facilitate this process, the teeth get before installation depending a notch 6 in which they then cancel later after a certain service life by simply bending back. If the guide brackets are free, they can be removed and used in another place if necessary.

For the introduction and initial guidance of the tool, the shear bar 3 is preferably provided with a head incision 7 with a beveled insertion opening. Furthermore, to increase the resistance to shearing from top to bottom, notches 8 which decrease in depth can be provided in the longitudinal direction of the shear bar. The shear bar can also be carried by the same screws etc. that hold the guide tabs or the outer profiles together.

Another embodiment consists of two double-T-shaped profiles 2 and 9 . The profiles are arranged crosswise so that the web 2 'of one profile 2, which carries the tool 1 , the web 9' of the other profile 9 shears. A guide shoe 10 is preferably inserted between the web 2 and the tool 1 , which surrounds both profiles with a collar 10 'and gives them guidance. A bridge is formed transversely to the shear web 9 ' , which on the one hand receives the foot of the pressure-transmitting profile 2, but on the other hand also carries the tool 1. In the corners of the inside of the collar or ring there are projections 18, which also offer the two profiles 2 and 9 to the sides and thus provide guidance.

Another embodiment provides a double web 12 and 12 'for shearing. The tool is arranged in such a way that the horizontal components of the shear forces have opposite directions. This can be achieved by arranging the cutting edge 13 in the shape of a roof, with the foremost tip of the tool lying between the two shear webs 12 and 12 '; the chips roll outwards.

Another possibility is given by reversing the roof on the tool. The disk is j ow notch-like shape, the chips curl inwards.

Even with only one shear web 3 or 9 ' , an opposite direction of the shear force components can be caused if, for. B. on a S teg 2 ', the cutting edges 15 and 16 on both sides of the web 2' are attached with the same, but opposite inclination. In this case, chip guidance is probably necessary if it is not sufficient to notch the ridge between the cutting edges. The sharpness of the cutting edge can be placed on the inside and, even better, on the outside edge of the cutting tool.

In Fig. 12, a pair of guide tabs 4 'is shown, on the inside of which guide strips or ribs 19 are attached or already rolled with the profile, between which the shear bars and shear plates 20 are inserted. The Z. B. roof-shaped tool could then z. B. be attached to the profile 21 shown dotted.

Claims (2)

PATENT CLAIMS- 1. Resilient pit lining made of two or more collapsible profiles, in which a cutting tool attached to a profile causes a machining process, the power requirement of which is adapted to the load bearing of the structure by appropriate dimensioning, characterized by a two-cut shearing process by one or more shear bodies that work simultaneously hold the guide tabs (4) for the tool (1, 13, 14, 15, 16) supporting extension part (or upper part) (2) together or apart at a suitable distance from one another and that after the end of the shearing process and the upper part sitting on the lying surface the guide brackets (4) can be removed without venting the extension. 2. Pit lining according to claim 1, characterized in that the shear bar (3) is clamped on both sides. 3. Pit lining according to claims 1 and 2, characterized in that the shear bar (3) is exchangeable. 4. Pit lining according to claims 1 to 3, characterized in that an increasing load absorption is achieved by increasing shear thickness. 5. Pit lining according to claim 4, characterized in that in the shear bar (3) grooves (8) are introduced in the direction of the progressive shearing, the depth of which decreases steadily. 6. Pit lining according to claims 1 to 5, characterized in that the shear bar (3) is supported on both sides by the same screws, wedge bolts or the like, which also hold the guide plates or the outer profiles together. 7. Pit lining according to Claims 1 to 5, characterized in that the shear bar (3) is provided on both sides with protruding tabs or teeth (5) which rest in slots in the guide tabs (4). 8. Pit lining according to claim 7, characterized in that the tabs or teeth (5) of the shear bar (3) are bent over after passing through the slots. 9. Pit lining according to claims 7 and 8, characterized in that the tabs or teeth (5) are provided with transverse notches (6) . 10. Pit lining according to Claims 1 to 5, characterized in that slots, depressions or strips (19) for inserting the shear bars are arranged on the guide tabs (4). 11. Pit lining according to claims 1 to 5, characterized in that the shear bar is formed from the web of I, U or Z profiles. 12. Pit lining according to claims 1 to 5 and 11, characterized in that two 1- (2, 9), U- or Z-profiles or the like. Slide one of the webs crosswise into one another with two-cutting machining. 13. Pit lining according to claims 1 to 5, 11 and 12, characterized in that the sinking profile (2) has a shoe (10) on the foot, which preferably carries the tool (1). 14. Pit lining according to claims 1 to 5, 11 to 13, characterized in that the guide shoe (10) consists of a collar provided with a ring which surrounds both profiles (2, 9) and in the corners of its inside such projections (18) has that both profiles are also guided laterally. 15. Pit lining according to claims 1 to 5, 11 to 14, characterized in that the guide shoe (10) has a bridge on which the upper profile (2) rises and to which the tool (1) is attached. 16. Pit lining according to claims 1 to 15, characterized in that the shearing tool (13, 14, 15, 16) is designed such that the horizontal components of the shear forces have opposite directions. 17. Pit lining according to claim 16, characterized in that the shearing tool (13) is roof-shaped. 18. Pit lining according to claim 16, characterized in that the shearing tool (14) is shaped like a notch. 19. Pit lining according to claim 16, characterized in that two shearing tools (15 and 16) are attached on both sides of a web (2 ') with the same, but oppositely directed inclination. Considered publications: German Patent Specifications Nos. 472 672, 875 335; British Patent Nos. 338 175, 364 814.