DE19701820A1 - Building rubble discharge chute - Google Patents

Abstract

The slightly conical pipes (1) fit telescopically inside each other and are suspended from at least one chain. At least one branch-pipe (2) is positioned at the junction of the pipes. A further discharge chute formed of separate pipes (1',1") open into the branch pipe. The centreline of the side inlets into the branch pipe forms an acute angle with the vertical drop direction above the branch pipe. The branch pipe has two or three inlets and one outlet. The outer top part of the branch pipe has at least one suspension (3). The pipe at the outlet of the branch has at least one suspension point (4). Preferably elastic baffle elements (5) protrude into the drop cross-section of the pipe branch.

Description

The invention relates to a rubble pipe for removing building rubble, consisting of individual slightly tapered tubes, which have brackets on at least one chain are each telescopically interlocking.

Such rubble pipes are used extensively in the renovation of old buildings, if necessary, rubble over one or more floors safely and as dust-free as possible to feed a container. The well-known rubble pipes for removing building rubble each have an input and an output.

Such a debris pipe is described in DE-A1 35 38 248. The disadvantage of one Such rubble pipe for the removal of rubble consists in that accumulating Rubble either has to be transported over long scaffolding paths or several Debris pipes can be arranged on a scaffold. This has a high individual need Pipes. Furthermore, there is a large space requirement on the construction site setting up several containers.

The object of the invention is to increase the number of pipes required for debris pipes reduce and the container space required for the rubble.

This task is carried out with the characterizing features of the first claim solved, advantageous embodiments are the subject of the dependent claims.

By placing at least one pipe branch in the composite of the pipes of a rubble pipe is arranged, in each of which another, composed of individual tubes Debris pipe opens into the center line of the side entrances into the pipe branch the vertical fall direction above the pipe branch an acute angle α (preferably between 20 and 50 degrees) and the tubes with each other and / or connected to the pipe branch, it is possible from different locations of the scaffold into the rubble pipe system to bring rubble into the rubble Merging systems and feeding them to a container. It sees Invention preferably before, pipe branches with two or three inputs and to use an output.

Important for the adaptation of the invention into existing rubble pipe systems with so far an input and an output is compatibility with the mounting and Suspension means, preferably consisting of hooks and chains. Therefore are on at least one suspension for the pipe branches on the outside in the upper area Connection with the one opening into the respective entrance of the pipe branch  Tube provided. When the pipes are suspended from chains, the Suspension on the pipe junction so a new chain.

The pipe arranged at the outlet of the pipe branch has one Embodiment via at least one suspension point, via which it is connected to the Pipe branch is connected. In this case the chain of suspension ends Pipes located below the pipe branch at the pipe branch.

Another embodiment of the invention provides that at the exit of the Pipe branch arranged pipe has at least one suspension point, via which it is connected to pipes opening into the entrances of the pipe branch. In in this case, the chain of suspension ends below the pipe junction Pipes do not pass the pipe junction, but are guided past it.

Furthermore, the invention provides in a special embodiment, in the area of Pipe branch preferably elastic within the cross section of the fall Arrange impact elements that protrude into the cross section of the fall. Through this elastic impact elements, it is achieved that the kinetic energy of the rubble in Deformation energy of the impact elements is converted. However, this does not happen completely, so that the rubble is still safely transported through the pipe becomes. The degree of reduction in kinetic energy consequently leads to one Reduce noise pollution and minimize wear and tear Pipe branch.

In an advantageous embodiment of this arrangement, the impact elements become Fall cross-section center inclined in the discharge direction. This secures the optimal flow of rubble. The impact elements should go into the The middle of the cross section is sufficient.

The baffle elements are arranged within the respective cross-section of the case preferably distributed symmetrically on the inner circumference. Both two, three as well as four impact elements are used.

Since the impact elements are subject to deliberate wear, the invention proposes various measures that require an effective replacement of the impact elements permit and their functionality if possible over a longer period of time guarantee. This includes that the baffle elements with the pipe branch in Junction area of the pipes are connected. As a result, the continuous building rubble no contact with the connection point between Has baffle elements and the pipe branch. Furthermore, the impact elements with the pipe branch detachably connected. In a particularly advantageous in this regard  Embodiment, the baffle elements are arranged on a ring which in the respective junctions of the pipe branch is used. Furthermore, the wear of the pipe branches can be lined with Metal can be achieved.

The invention is explained with reference to the drawing. Show it:

Fig. 1, the debris pipe system;

Fig. 2 shows a cross section of the pipe branch.

In Fig. 1, the scree pipe system consisting of the combination of the pipes 1 of a scree pipe with the pipe branch 2 , into which another, composed of individual pipes 1 'opens scree pipe, is shown schematically. The rubble pipes themselves consist of individual, slightly conical pipes, each of which is suspended telescopically by means of brackets on at least one chain.

Fig. 2 shows a cross-section of the pipe branch 2. The pipe branch 2 is arranged in the connection of the pipes 1 of a rubble pipe and has an outlet and two additional entrances, into each of which a further rubble pipe composed of individual pipes 1 'or 1 ''opens. The center lines of the lateral entrances into the pipe branch 2 form an acute angle α, preferably between 20 and 50 degrees, with the vertical fall direction above the pipe branch 2 .

The pipe branch 2 has four suspensions 3 on the outside in the upper region for connection to the pipe 1 , 1 ', 1 ''opening into the respective inlet of the pipe branch 2 . The pipe arranged at the outlet of the pipe branch 2 has two suspension points 4 , via which it is connected to the pipes 1 'or 1 ''which open into the side entrances of the pipe branch 2 .

In this arrangement, all pipes are suspended on two chains, the chains of the pipes 1 located below the pipe branch each forming a chain for the further pipes 1 and 1 '. The second chain for these pipes 1 'and 1 ''begins at the suspensions 3 of the pipe branch 2, just like the chains for the pipes 1 above the pipe branch 2 . However, this is only a form of suspension, the invention is not limited to this.

The upper central entrance into the pipe branch 2 has elastic baffle elements 5 which extend into the cross section of the drop space down to the center. The impact elements 5 are fastened at the entrance of the pipe branch 2 by means of an insertable ring. The dimensions of the ring are such that the connection to the pipe branch 2 takes place in the plug-in area of the pipe branch 2 and the pipe 1 . This ensures that building rubble falling through the upper pipe 1 penetrates into the pipe branch 2 without contacting the fastening. This considerably minimizes wear on the fastening of the impact elements. Just as the above middle entrance is equipped with elastic impact elements 5 , this can also be done for the side entrances.

By means of these elastic impact elements 5 , it is achieved that the kinetic energy of the building rubble is partially converted into deformation energy of the impact elements, which leads to a reduction in noise pollution and to a minimization of wear on the pipe branch.

Claims (15)

1. Debris pipe for the discharge of building rubble, consisting of individual slightly conical pipes, each of which can be telescopically suspended in interlocking manner via brackets on at least one chain, characterized in that at least one pipe branch ( 2 ) is arranged in the connection of the pipes ( 1 ) of a debris pipe , opens into each another, of individual pipes (1 'or 1' ') composite debris pipe, the center line of the side entrances into the pipe branch (2) with the vertical direction of fall above the branch connection (2) forms an acute angle α and the tubes are connected to each other and / or to the pipe branch ( 2 ). 2. Debris pipe according to claim 1, characterized in that the pipe branch ( 2 ) has two inputs and one output. 3. Debris pipe according to claim 1, characterized in that the pipe branch ( 2 ) has three inputs and one output. 4. Debris pipe according to claim 1, characterized in that the pipe branch ( 2 ) outside in the upper region at least one suspension ( 3 ) for connection to the pipe ( 1 , 1 ', 1 ''opening into the respective entrance of the pipe branch ( 2 ) ) having. 5. Debris pipe according to claim 1, characterized in that the pipe ( 1 ) arranged at the outlet of the pipe branch ( 2 ) has at least one suspension point via which it is connected to the pipe branch ( 2 ). 6. Debris pipe according to claim 1, characterized in that the pipe arranged at the outlet of the pipe branch ( 2 ) has at least one suspension point ( 4 ) via which it opens into the pipe branch ( 2 ) inputs of pipes ( 1 or 1 'or . 1 '') is connected. 7. Debris pipe according to claim 1, characterized in that in the region of the pipe branch ( 2 ) within the fall cross section, preferably elastic baffle elements ( 5 ) are arranged, which protrude into the fall cross section. 8. rubble pipe according to claim 1 and 7, characterized in that the baffle elements ( 5 ) are arranged inclined towards the center of the fall cross section in the discharge direction. 9. Debris pipe according to claim 1 and 7, characterized in that the baffle elements ( 5 ) are arranged symmetrically in the fall cross section of the pipe branch ( 2 ). 10. Debris pipe according to claim 1 and 7, characterized in that the impact elements ( 5 ) extend into the center of the cross-section of the fall. 11. Debris pipe according to claim 1 and 7, characterized in that the impact elements ( 5 ) with the pipe branch ( 2 ) in the plug-in area with the confluent pipes ( 1 and / or 1 and / or 1 '') are connected. 12. Debris pipe according to claim 1 and 7, characterized in that the impact elements ( 5 ) with the pipe branch ( 2 ) are detachably connected. 13. Debris pipe according to claim 1, characterized in that the baffle elements ( 5 ) are arranged on a ring which can be used in the mouths of the pipe branch ( 2 ). 14. Debris pipe according to claim 1, characterized in that the pipe branches ( 2 ) are lined with metal. 15. rubble pipe according to claim 1, characterized in that the acute angle α is between 20 and 50 degrees.