DE536801C - Multi-part, reinforced reinforced concrete ring for the expansion of pit spaces, breaches, shafts, etc. like - Google Patents

Description

Multi-part, reinforced reinforced concrete ring for the expansion of pit rooms, Breaks, shafts and the like. It is known for the expansion of pit spaces, openings, Manholes and the like to use multi-part, reinforced reinforced concrete rings. The connection this ring parts to a whole ring usually happens in such a way that at the abutting ends of the ring parts are provided with recesses in the concrete, in which the reinforcement is connected. This connection of the reinforcements varies depending on the nature of the recesses. Is the recess arranged laterally to the neutral axis of the ring cross-section, so is only a simple one Reinforcement provided, the ends of which, accessible from the inner ring side, with one another can be braced, but such a ring reinforced on one side is for pressures changing direction and size unsuitable. There are also known rings that are double are reinforced and their inner and outer reinforcements in one of the ends of the Ring parts formed core are connected to each other, the central to the neutral Axis lies. However, the reinforcement ends are not connected directly to one another, but by filling the core with a solid concrete mass, whereby the in The ends of the reinforcements protruding loosely into the core are also rammed in. These Connection is only after the concrete mass has completely hardened and set load-bearing with the reinforcement ends. Before that, there must also be no load on the ring construction take place because the connecting core mass will otherwise be destroyed and not set. With this connection there is also no prior tensioning of the reinforcements. Such rings are therefore only limited for pressures of changing direction and size Dimensions stable. They also have the disadvantage that their carrying capacity depends entirely on the Load capacity of the filling compound of the core is dependent. This ring is also just below Destruction of the load-bearing core filling, i.e. only with the destruction of a load-bearing one Part, removable. When it is restored in another place, the connection is again not immediately, but only after the bonding material has set sustainable.

The present invention relates to a multi-part, double-armored Reinforced concrete ring in which all these disadvantages are avoided. She introduces a new one Connection of the ring parts, which for pressures of changing direction and size in high Dimensions is suitable, which is immediately load-bearing, which also applies when re-used in another place without destroying load-bearing parts easily and in one other places with undiminished strength and with immediate load-bearing capacity again can be set up. Also enables the new connection a subsequent one Reinforcement of the expansion.

All of these benefits are achieved through simultaneous use of two characteristics which are known in and of themselves in such reinforced concrete rings. These characteristics are i. the central position of the room or core k and 2. the arrangement two reinforcements that end in this space and are braced together.

The drawings show: Fig. Z a cross-section of a pit in reinforced concrete, Fig. 2 is a longitudinal cross-section, Fig. 3 is a junction of two Reinforced concrete ring parts in elevation, Fig. 4 such a point in the plan. The pit room a forms z. B. a conveyor line in which the mine car b on rails c, the are stored on the substructure d. The pit space d is with a lined multi-part reinforced concrete rings e. For the purpose of easier transport the size of the individual ring parts is limited to a practically suitable weight and then the number of ring parts is determined. The reinforced concrete ring shown in Fig. I consists of six parts, for example. These parts are beneficial during the daytime manufactured and only put together in the pit, on the spot of use. The ring parts are doubly reinforced in a known manner by iron inserts f, g. The abutting ends of the ring parts have centrally located recesses provided into which the reinforcement ends extend. These recesses form a hollow core located centrally on the neutral axis of the ring cross-section, in which the reinforcement is connected.

The immediate frictional tensioning of the outer and inner Reinforcement ends result in an increased load-bearing capacity of the finished ring when pressed of changing direction and size, without filling the hollow core with a stable concrete mass would be necessary. After completing this connection the ring parts to a whole ring is this immediately high pressure grown. The connection is also without damaging or destroying a load-bearing Part can be removed immediately. This gives the opportunity to dismantle the ring, to remove it and the individual parts for reuse in another place reassemble. This reassembled ring is immediately after the connection of the reinforcements again immediately for pressures in changing directions and size sustainable.

The connection of the ends of the reinforcements f, g can be done in a known manner z. B. be done by means of a spline connection. The reinforcement is braced then in such a way that in the overlapping reinforcement loops o a wedge p is driven. Such a connection is very effective and can be made quickly and solve again. So that the bracing on the inner and outer reinforcements occurs evenly, according to a particular embodiment of the invention Inserted between the CJsen o to be connected and the tensioning wedge p inlays r. The non-positive tensioning of the reinforcement ends is carried out by driving in a Wedge or several wedges, the wedge effect by means of the insert r on the äsen o the reinforcement is transferred.

To accelerate the application of the bracing is handiness and accessibility required; for this reason the connection and bracing takes place the reinforcement is best from the face of the ring. This benefit will achieved when the peripherally extending deposits in the same, to the ring axis vertical plane. This also requires a certain position of the tines, which one when inserting the reinforcements. into the rammed form of the concrete can.

The reinforced concrete rings can ring depending on the size of the rock pressure on a ring or, as shown in Fig. 2, at a distance from each other stand in groups or individually. If the rings aren't close together cover bodies h are placed on the outer circumference, which take the pressure of the rock Transfer i to the support rings e.

The expansion, in which the rings individually or in groups in some Distance from each other can be increased afterwards by placing between the individually or in groups standing rings subsequently additional rings of the same Art are placed in between, which are also immediately viable again. You need therefore not to dimension the expansion for particularly high pressures from the outset, but rather can set it up for lower pressures initially and later with less effort reinforce as necessary. This advantage is of great economic importance. But it can only be reached if the expansion is completed immediately is stable, as is the case with extensions made from rings according to the invention the case is.

Claims (1)

PATENT CLAIMS: i. Multi-part, reinforced reinforced concrete ring for expansion of pit spaces, openings, shafts and the like, characterized in that both the outer as well as the inner reinforcements in one common, through recesses centrally located space formed at the abutting ends of the ring parts or core are clamped directly to one another in a non-positive manner. z. Reinforced concrete ring according to claim r, in which the bracing of the overlapping inner and external reinforcement takes place by wedge effect, characterized in that the wedge effect is transferred through inserts to the eyelets of the reinforcement. 3. Reinforced concrete ring after Claim a, characterized; that the peripheral deposits in the same plane perpendicular to the ring axis, so that the driving of the clamping wedges takes place from the face of the ring.