EP2235263A1 - Device for transporting building materials for a bed and/or pavement of a roadway - Google Patents

Abstract

The invention relates to a device for transporting building materials for a bed and/or pavement of a roadway, such as a track ballast installation crawler, comprises a vehicle frame (16) displaceable by a chain drivetrain (12) in a working direction of the device, wherein the working direction runs substantially parallel to the longitudinal axis of the vehicle frame (16); a first receiver container (3) in a rear area of the device in the working direction for receiving a building material; a first conveyor belt (4) for transporting the building material from the first receiver container (3) in the working direction; a second receiver container (5) for receiving the building material from the first conveyor belt (4); and a second conveyor belt (6) for transporting the building material from the second receiver container (5) in the working direction past the front end of the vehicle frame (16) in the working direction, wherein at least one front discharge end of the second conveyor belt (6) in the working direction can pivot transverse to the longitudinal axis of the vehicle frame (16). Such a device can be particularly advantageously used in difficult to reach construction sites.

Description

 DEVICE FOR DISPOSING CONSTRUCTION MATERIALS FOR CONSTRUCTION AND / OR CONSTRUCTION OF A TRACK

BACKGROUND OF THE INVENTION

1. Field of the invention

The present invention relates to a device for moving building materials for a substructure and / or superstructure of a roadway.

2. Technical background

Roadways are generally constructed of a substructure and a superstructure. The substructure optionally has several layers and the superstructure optionally has a plurality of base layers and a cover layer. Depending on the type of roadway, there are other layers and connecting layers.

Track sections usually consist of a track ballast foundation, a track ballast, track sleepers, a rail track with points, signals and electrical lines. In this case, a distinction is also made between single-track and multi-track, electrically and not electrically passable routes. Other types of roadways such as roads consist of an optionally multi-layered substructure, one or more base layers and a top layer (as a road surface).

A track route is made, for example, as follows. After applying a so-called Planumssauberkeitsschicht (PSS) a planum of track ballast is applied to this PSS. The planum cleanliness layer and the track ballast foundation are usually made with excavators and bulldozers. On this track ballast plan a rail track is mounted as a so-called track yoke (pre-assembled combination of sleepers and rails). Then the sleepers are filled in the middle and laterally with another track ballast. Subsequently, a so-called Gleisstopfzug built the sleepers with the previously spent track ballast to bring the track to the desired height and direction. Finally, with a so-called ballast plow created the slope slope and removed the track ballast from the sleepers and rails.

Depending on the location and the environmental conditions of a planned track section arise for the manufacturing process of the track section various restrictions and obstacles. Particularly in the direction transverse to the track, there is the danger of collision with rail vehicles on a neighboring track, an impairment due to platform edges, a restriction by short blocking times of neighboring track sections, inapplicability of the track section from the side and the like under certain terrain conditions. In such cases, it is often necessary that the built-in unit must repeatedly extend out of the track bed to be created for lack of space to allow the transport vehicles to introduce the paving material. Furthermore, it must be noted that it is undesirable for the implement to deflect in the working direction in the case of a track bulkhead installation because of such a damage to the planar cleanliness layer. In such cases, the time required to make the track ballast substructure is prolonged and delayed the introduction of the prefabricated track elements, the subsequent Nachschotterung, the alignment of the track and the final work with the ballast plow. The described restrictions and hindrances therefore result in a significant loss of time, which results in a construction that is not on schedule.

In addition to the construction of new tracks, there is also a similar problem in the upgrading of existing track sections. In this context, there are already so-called track renewal trains, as they are known for example from German patents DE 42 29 534 C2 and DE 42 35 360 C2.

When upgrading the track track with a track renewal train, the rail track is severed and taken up at the beginning of the train. Next, the sleepers are removed and taken up the track ballast. The track ballast picked up is cleaned and impacted by a sieve and crusher installation installed in the train and then deployed again at the end of the turn. New track sleepers and a new track will be laid on the new track ballast bed. Finally, with a track ballast tamping machine, the newly laid Rail track height and direction brought signals and points are connected to the control cables and electrical lines. With a gravel plow then the excess track ballast is distributed. After the technical acceptance and approval, the track is again passable.

Due to the high maintenance costs of a track renewal train, however, the use of construction machines is increasingly preferred even when upgrading a track section, since construction machines generally have much lower retention costs and can be used more individually. However, there are the above restrictions for the use of construction equipment, especially in hard to reach construction sites.

A similar problem also exists in the area of other roadways such as roads in the case of hard to reach construction sites.

OBJECTS AND SUMMARY OF THE INVENTION It is therefore the object of the invention to provide a device for moving building materials for a substructure and / or a superstructure of a roadway, which can be used effectively even in hard to reach construction sites.

This object is achieved by a device for the removal of building materials for a substructure and / or superstructure of a roadway with the features of claim 1. Advantageous embodiments and modifications of the invention are the subject of the dependent claims.

The device for placing building materials for a substructure and / or superstructure of a roadway has a vehicle frame which can be moved by a chain drive in a working direction of the device, the working direction being essentially parallel to the longitudinal direction of the vehicle frame; a first collecting container in a rear region of the device for receiving a building material in the working direction; a first conveyor belt for transporting the building material from the first receptacle in the working direction; a second receptacle for receiving the building material from the first conveyor belt; and a second conveyor belt for transporting the building material from the second catchment container in the working direction beyond the front end in the working direction of the vehicle frame, wherein at least one front in the working direction ejection end of the second conveyor belt is transverse to the longitudinal direction of the vehicle frame pivotable.

The inventive device for moving building materials for a substructure and / or superstructure of a road allows in a simple and effective manner, a Cl-head-Spend the building material in the working direction. In this way, it is ensured that both the device itself and the building material transport means (for example trucks) drive only on the already distributed building materials. In the case of the construction of a track ballast foundation, it is thus ensured, for example, that the level coating layer produced in front of the track ballast substructure is not damaged by the device or the trucks. Due to the overhead of the building materials, i. without the need for swinging construction machinery, there is no danger of collision with trains on a neighboring track and the possibility of working on narrow and / or laterally inaccessible construction sites.

The second conveyor belt, which finally ejects the building material, is pivotable transversely to the longitudinal direction of the vehicle frame, so that the building material can be distributed over the entire desired installation width without further processing by construction machinery or the like. Since only the second conveyor belt (or at least its front ejection end) must be pivotable, there is a total of only a short pivoting path, which increases the stability of the entire device and also makes no special construction of the vehicle frame required.

In one embodiment of the invention, the second conveyor belt is pivotable about a substantially vertical axis in the region of the second collecting container. In this case, the second conveyor belt and the second collecting container are preferably fastened together on a turntable.

In a further embodiment of the invention, a third collecting container is arranged between the first conveyor belt and the second collecting container, whose receiving capacity is greater than that of the first collecting container. The provision such a third collecting container increases the working efficiency, since it can hold a larger amount of building materials for the second conveyor belt than would be possible with the first collecting container. In this embodiment, the third collecting container is preferably inclined downwards in the working direction, wherein a front end in the working direction of the third collecting container is positioned above the second collecting container, so that in the third collecting container vorhaltene material can be easily added to the second collecting container ,

In a preferred embodiment of the invention, a dozer blade for leveling the building material transported by the second conveyor belt is arranged between the vehicle frame and the front discharge end of the second conveyor belt in the working direction. This dozer blade preferably has a side cheek on one side of the dozer blade in the transverse direction of the device or, more preferably, two side cheeks on each side of the dozer blade in the transverse direction of the device so that the material spent by the second conveyor belt can be limited to a pre-set installation width. In this case, the width of the dozer blade in the transverse direction of the device can optionally also be variably adjustable.

The dozer blade is preferably mounted on the vehicle frame or track drive of the device such that it is tiltable about a substantially horizontal axis in the transverse direction of the device and / or is pivotable about a substantially horizontal axis in the longitudinal direction of the device. As a result, a planum of a desired height and direction can be generated with the spent building material.

In one embodiment, the blade is mounted on a holding device which is fixed to the vehicle frame. Alternatively, the dozer blade can also be supported on the chain drive via a push frame.

In a further embodiment of the invention, the device also has a fastening device for a building material transport means (for example a truck) in its rear area in the working direction, in order to establish a mutual positional relationship between the first collecting funnel of the device and a building material transport device. medium also during a movement of the device in the working direction to keep substantially stable. In this way, the building material can be filled by the building material transport means during operation of the device in the first receptacle.

In a still further embodiment of the invention, the device in its rear in the working direction of a further transport device for building materials, which is positioned laterally to the first collection container. This option allows the first container to be filled with building materials from the side if construction site permits.

Furthermore, the collecting containers provided on the device may each be provided with a vibrating device and / or a scraper device in order to ensure that the entire material contained in them is conveyed further.

In a further embodiment of the invention, in the working direction of the device behind the track drive a compressor device for solidifying the applied level can be attached. As a result, it may be possible to dispense with an additional operation for solidifying the substructure or superstructure of a roadway.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other features, advantages and applications of the invention will become more apparent from the following description of preferred, non-limiting embodiments thereof with reference to the accompanying drawings. Show:

Fig. 1 is a schematic side view of a track-laying scraper as a preferred embodiment of a device according to the invention for the transport of building materials for a substructure and / or superstructure of a roadway;

FIG. 2 shows a schematic top view of the track-laying installation bead of FIG. 1; FIG. FIG. 3 shows a schematic front view of the track-laying bead of FIG. 1 according to the view A in FIG. 2; FIG. and

FIG. 4 shows a schematic side view of a variant of the track bulkhead installation crawler of FIG. 1 (without blade).

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS The present invention will be described in detail below using the example of a track-laying installation bead for moving track ballast for the track ballast foundation of a track in the context of a new construction or upgrading of a track section with reference to the attached drawings. It should be noted, however, that the device for placing building materials for a substructure and / or superstructure of a roadway of the invention is not limited to this application.

For example, the material for the Planumssauberkeitsschicht a track section can be spent using a device according to the invention. It is also possible to use the device according to the invention in the field of road construction for moving the material for the different layers of the substructure and the superstructure. The building materials to be used with the device according to the invention can thus be, for example, ballast, sand, gravel, etc.

Furthermore, the device for the removal of building materials for a substructure and / or superstructure of a roadway in particular in hard to reach construction sites can be used advantageously without being limited to these applications.

The construction of a track-laying scraper according to the invention will now be described first.

The track bulkhead mounting bead has a vehicle frame 16 and a track drive 12 as a chassis so that it can drive well on a ballast bed, for example. The chain drive 12 is preferably designed variable, that is, for example, different sizes and materials used for the chain plates be used and various constructions relating to suspension / storage / damping of the track drive. In a modification of the device, a track drive can additionally be provided, which can optionally be switched on, so that the device can travel, for example, over a track section to the desired construction site.

The working direction of the device is substantially parallel to the longitudinal axis of the vehicle frame 16. In the illustrations of Fig. 1 to 4, the device moves according to their working direction in each case from right to left.

In the area of the rear area in the working direction, a first collecting container 3 is attached. This is mounted, for example, on a support (e.g., support plate, support rods, etc.) 20 fixed to the vehicle frame 16. The width of the first collecting container 3 is preferably dimensioned slightly larger than the width of, for example, a dump body of a conventional truck (building material transport means). As can be seen in Fig. 1, at the rear end of this support 20 also at least one hook 1 and a plurality of run-up rollers 2 are mounted. The hook 1 may optionally be additionally equipped with a winch or the like pulling device.

In one embodiment, the carrier 20 for the first collecting container 3 is variably adjustable, i. horizontally and / or vertically movably attached to the vehicle frame 16.

In operation, in a first step, a truck (building material transport means) is moved to the rear end of the device in the working direction (on the right in FIGS. 1 and 2) and hooked onto the hook 1. If necessary, the truck can be used in advance with the optionally available winch. In order to avoid damage to the truck, in particular its tires, the run-up rollers 2 or the like supports or buffers are provided at the rear end of the carrier 20. Since the truck is in an exact position to the first receptacle 3 and this remains by hooking while moving the device, the truck can continuously fill its loaded building materials during operation of the device by tilting its dump body in the first receptacle 3. That is the first one Sump 3 need not be sized so that it can accommodate a complete load of a truck, so that the size of the device is reduced overall.

From the first collecting container 3, a first conveyor belt 4 extends forward in the working direction of the device and rises in the process. The first conveyor belt 4 is generally supported by means of one or more support struts 18. Below the front ejection end of the first conveyor belt 4, a second collecting container 5 is arranged in the front region of the vehicle frame 16. As indicated in the top view of FIG. 2, this second collecting container 5 is generally constructed smaller than the first collecting container 3, since it merely serves for the passage of the building materials. In the case of an adjustable support 20, the support struts 18 simultaneously serve as a pivot bearing for the first conveyor belt 4.

From this second collecting container 5, a second conveyor belt 6 continues forward in the working direction in order to convey the building materials beyond the front edge of the vehicle frame 16 in the working direction. The second conveyor belt 6 preferably also rises forward in the working direction and is preferably supported by means of a support strut 30 (FIG. 1).

The second conveyor 6 is mounted together with the second receptacle 5 on a turntable 29 or the like turning device to form a unit. In this way, the front ejection end of the second conveyor belt 6 in the working direction can be pivoted over the entire installation width of the building materials, so that it is neatly locally positionable. In other words, the building materials can be distributed directly through the track bulkhead installation bead in the width direction, without requiring, for example, a post-processing with other construction machines or the like. While in the exemplary embodiment shown, substantially the entire second conveyor belt 6 is pivotable about a vertical axis in the region of the second collecting container 5, it is alternatively also possible to configure or arrange only a front region of the second conveyor belt 6 in the working direction. The swivel angle of the second conveyor belt 6 or its front ejection end is preferably variably adaptable to the respective paving width. As indicated in FIGS. 1 and 2, a driver's cab 14 and a drive unit 13 are also arranged on the vehicle frame 16. The drive unit 13 is used to drive and control the electrical, hydraulic, pneumatic and the like actuators of the device. Instead of the driver's cab 14 or in addition to this, a remote control system (not shown) may be provided for the track bulkhead built-in bead.

The track-laying bead of the invention is preferably also equipped with a GPS system for exact position determination and an ATS system for exact height determination.

Before the front in the direction of the end of the vehicle frame 16, but still behind the front in the direction of ejection end of the second conveyor belt 6 a blade 7 is arranged. The dough blade 7 essentially consists of a substantially vertically arranged and essentially plate-shaped element, which in each case has a side cheek 28 on its two sides in the transverse direction of the device. The side cheeks 28 are preferably formed integrally with the blade 7 or rigidly connected to it. The breadboard 7 with its two side cheeks 28 extends substantially down to the level of the lower edge of the chain drive 12.

In a preferred embodiment, the blade 7 is constructed so that its width (transversely to the working direction of the device) is variably adjustable, for example in a hydraulic manner.

The dozer blade 7 with its side cheeks 28 generates a desired track ballast laying planum of the building material that has been transported via the second conveyor belt 6. The height of the subgrade is determined essentially by the lower edge of the dozer blade 7, and the width of the subgrade is determined essentially by the positions of the two side cheeks 28. In the case of a track ballast substructure, a lateral demolition of track ballast is usually generated outside the two side walls 28. Through the distribution of the track ballast over the entire paving width by pivoting the front ejection end of the second conveyor belt, this laying planum can be easily created solely by the feed of the device. Optionally, the front end of the second conveyor belt 6 can also be pivoted over the side cheeks 28 of the dozer blade 7 out to the side.

In order to adapt the track ballast laying plan to the route of the desired track, it is preferred that the dozer blade 7 is supported on the vehicle frame 16 or track 12 of the device such that it can be tilted about a substantially horizontal axis in the transverse direction of the device and that it is pivotable about a substantially horizontal axis in the longitudinal direction of the device. This storage of the blade 7 is achieved for example by the following construction.

In front of the front end of the vehicle frame 16 in the working direction, a retaining plate 10 is arranged, which is aligned substantially vertically in its initial position. This holding plate 10 is fastened to the vehicle frame via a plurality of connecting rods 11, whose orientations can be changed, for example, by a hydraulic cylinder 15 (FIG. 1). By changing the orientation of the connecting rods 11, the holding plate 10 can be tilted out of its substantially vertical vertical orientation about a horizontal axis extending in the transverse direction of the device.

At the upper end of the holding plate 10, a further support plate 21 is fixedly or rigidly fixed, which is held by support wedges 22 in a substantially right angle to the holding plate 10. As shown in Fig. 3, the dozer blade 7 is mounted with its two side cheeks 28 via a hinge on this support plate 21 to allow pivoting of the blade about a substantially horizontal axis in the longitudinal direction of the device.

As illustrated in FIG. 3, the swivel for supporting the dozer blade 7 is comprised of at least a first cheek 23 fixed to and projecting substantially perpendicularly from the support plate 21 and at least one second cheek 24 attached to the dozer blade 7 is attached and protrudes from this up, formed. The first and second cheeks 23, 24 overlap each other and are in This overlap region is formed in each case with a bore 25. Through this hole a connecting bolt or the like is guided, which forms the axis of rotation of this rotary joint.

A mutual rotation of the first and second cheeks 23, 24 and thus of the dozer blade 7 relative to the support plate 21 is effected for example via two hydraulic cylinders 27 which are supported on the one hand on the dozer blade 7 and on the other hand on the support plate 21 (26).

In order to keep the dough blade 7, despite its weight substantially parallel to the holding plate 10, a plurality of support rollers 9 or the like are arranged between these two components 7, 10, which maintain the mutual distance between these two components 7, 10 over the entire surface, but at the same time allow mutual displacement of the two components 7, 10 in the plane of the blade 7 (when it is pivoted by the pivot 23-27). The support rollers 9 are preferably mounted freely movable.

With a track-mounted scraper bead constructed as above, it is possible to continuously pass the track ballast over the head in working direction onto the slab cleanliness layer (PSS). In this case, this Planumssauberkeitsschicht is not driven by the device itself or by the building material transport, as they can move on the already applied track ballast base, without damaging the PSS. Due to the overhead use of the building materials, the construction site is also independent of blocking periods for any existing sidings.

By the pivotable ejection end of the second conveyor belt 6 of the ballast is distributed directly over the entire pave width. Since the rotation axis for the second conveyor belt 6 is provided in the front region of the vehicle frame 16, only a relatively short pivoting path is present, so that the stability of the entire device is not affected or no special measures for stabilization must be taken. In addition, the fulcrum of the second conveyor belt 6 in the form of the turntable 29 is above the vehicle frame 16 or at least in its upper region, so that no special recesses in Vehicle frame 16 must be made, which would reduce its stability, as would be the case, for example, if one waives the second conveyor belt 6 and the first conveyor belt 3 is formed over the entire vehicle frame 16 and pivotally.

The present invention is of course not limited to the above specific embodiment of a device for moving building materials for a substructure and / or superstructure of a roadway in the form of a track bulkhead installation bead. In addition to the other possible applications of the device according to the invention already mentioned above, numerous modifications are possible.

In the above embodiment, the device has a first collecting container 3, which is fed in the working direction from the rear. Optionally, the device can be additionally provided in its rear region in the working direction with a further transport device in the form of a conveyor belt, a chute or the like for building materials which can be positioned laterally relative to the first collecting container. This option allows filling of the first collection container with building materials also from the side, if the construction site permits.

The first and the second collecting containers 3, 5 are preferably provided with a bottom sloping towards the beginning of the respective conveyor belt 4, 6, a conveyor belt running in the bottom, a conveyor belt in the bottom, a vibrating device (eg vibrating vibrator) attached to the outside wall or the like in order to achieve the most complete possible emptying of the respective collecting container 3, 5 and to transport the building materials as effectively as possible with the respective conveyor belts 4, 6.

All actuators of the device (hydraulic cylinders 15, 27, drives for conveyor belts, etc.) can optionally be designed hydraulically, electrically and / or pneumatically.

In the above embodiment, the apparatus includes a first receptacle 3 and a smaller second receptacle 5. In order to increase the working efficiency of the apparatus, as shown in the side view of Fig. 4, In addition, a third collecting container 17 may be provided. This third collecting container 17 is placed between the first conveyor belt 4 and the second collecting container 5 and has a significantly greater absorption capacity than the first collecting container 3, so that it can always maintain a sufficient amount of building materials for the second collecting container 5 and the second conveyor belt 6.

The third collecting container 13 is mounted on supports 18 on the vehicle frame 16, which were preferably used in the variant of FIGS. 1 and 2 as supports for the first conveyor belt 4. As shown in Fig. 4, this third collecting container 17 in the working direction (left in the figure) is inclined downwards, with its front end is positioned above the second collecting container 5, so that the materials received in the third collecting container 17 automatically towards the second Slip collecting container 5. This can be further promoted by an additional vibrator (e.g., vibration vibrator). At the front lower end of the third collecting container 17 is generally provided, for example, a hydraulically operated flap (not shown) for dispensing the building materials from the third collecting container 17 into the second collecting container 5.

As seen in Fig. 4, the front ejection end of the first conveyor belt 4 must be positioned higher when providing the third receptacle 17. Because the

Slope of the first conveyor belt 4 can not be increased arbitrarily, is therefore the

Carrier 20 extended to the rear, so that the first receptacle 3 and the

Beginning of the first conveyor belt 4 are positioned further back in the direction of work.

To compensate in this case, an additional support strut 19 should be provided for the unit formed by the carrier 20 and the first receptacle 3.

In order not to increase the structure of the device by the third collecting container 17 too much, it is also possible to lower the second collecting container 5 slightly in the vehicle frame 16, as indicated in Fig. 4. In order to simplify the conversion between the two described variants (FIGS. 1, 2 and 4), the first conveyor belt 4 can also be configured or stored in a height-adjustable manner.

In the embodiment of Fig. 1 to 3, the dozer blade 7 is fixed to the vehicle frame 16 and thereby pivotally mounted about two axes, as above described. Alternatively, it is also possible to attach the dozer blade via a push frame on the chains drive 12, as is known for example in caterpillars and track tractors. In this case, the two different tilting movements can be achieved by corresponding hydraulic cylinders of the four-way suspension of the push frame.

As indicated in dashed lines in FIG. 1, a compactor device 31 can additionally be optionally attached to the track-laying installation bead of FIG. 1 (analogous to that of FIG. 4) in order to compact and solidify the applied plane.

For example, in the working direction of the apparatus behind the track drive 12, the compacting device 31 is attached to the support 20 for the first receptacle 3, and pulled behind the track-laying bellows. The compressor device 31 has, for example, a width transversely to the working direction corresponding to the width of the dozer blade 7, but it can also be designed narrower or wider than the dozer blade 7. In one embodiment, the compressor device is also adjustable between a raised rest position and a lowered operating position.

The configuration of the compressor device 31 is basically arbitrary. For example, the compacting apparatus may be formed as a compactor bar or roll, or in the form of vibrating plates or Trenkler plates, as known from other construction machines. The compressor device 31 may be pivotally mounted or formed in the horizontal direction, have variable sizes and / or weights, and / or be constructed from one or more compressor elements.

REFERENCE NUMBER LIST

1 hook

2 start roller

3 first collecting container 4 first conveyor belt

5 second collecting container

6 second conveyor belt

7 dozer blade 9 support roller

10 vertical retaining plate

11 connecting rods between 10 and 16

12 chain drive

13 Power unit 14 Cab

15 hydraulic cylinders

16 vehicle frame

17 third collecting container

18 support 19 support strut

20 carriers

21 horizontal support plate

22 support wedge

23 cheek 24 cheek

25 hole

26 attachment

27 hydraulic cylinders

28 Sidewall 29 Turntable

30 support strut

31 compressor device

Claims

1. A device for transferring building materials for a substructure and / or superstructure of a roadway, with a by a chain drive (12) in a working direction of the device movable vehicle frame (16), wherein the working direction substantially parallel to the longitudinal direction of the vehicle frame (16) ; a first collecting container (3) in a rear direction in the working direction

Area of the device for receiving a building material; a first conveyor belt (4) for transporting the building material from the first collecting container (3) in the working direction; a second receptacle (5) for receiving the building material from the first conveyor belt (4); and a second conveyor belt (6) for transporting the building material from the second receptacle (5) in the working direction beyond the front end of the vehicle frame (16) in the working direction, wherein at least one in the working direction front ejection end of the second conveyor belt (6) transversely to the longitudinal direction of the vehicle frame (16) is pivotable.

2. Apparatus according to claim 1, characterized in that the second conveyor belt (6) about a substantially vertical axis in the region of the second collecting container (5) is pivotable.

3. Apparatus according to claim 2, characterized in that the second conveyor belt (6) and the second collecting container (5) are fastened together on a turntable (29).

4. Device according to one of the preceding claims, characterized in that between the first conveyor belt (4) and the second collecting container (5), a third collecting container (17) is arranged, whose receiving capacity is greater than that of the first collecting container (3).

5. Apparatus according to claim 4, characterized in that the third collecting container (17) is inclined in the working direction downwards, wherein a front in the working direction end of the third collecting container (17) above the second collecting container (5) is positioned.

6. Device according to one of the preceding claims, characterized in that between the vehicle frame (16) and the front in the working direction ejection end of the second conveyor belt (6) a blade (7) for leveling of the second conveyor belt (6) spent building material is arranged ,

7. The device according to claim 6, characterized in that the dozer blade (7) has a side wall (28) on one side of the dozer blade in the transverse direction of the device or two side cheeks (28) each on one side of the

Dozer blade in the transverse direction of the device has.

8. Apparatus according to claim 6 or 7, characterized in that the dozer blade (7) is mounted on the vehicle frame (16) or the chain drive (12) of the device such that it can be tilted about a substantially horizontal axis in the transverse direction of the device is.

9. Device according to one of claims 6 to 8, characterized in that the dozer blade (7) is mounted on the vehicle frame (16) or the chain drive (12) of the device, that it is about a substantially horizontal axis in the Longitudinal direction of the device is pivotable.

10. Device according to one of claims 6 to 9, characterized in that the dozer blade (7) on a holding device (10, 21) is mounted, which is fixed to the vehicle frame (16).

11. Device according to one of claims 6 to 9, characterized in that the dozer blade (7) via a push frame on the chains drive (12) is supported.

12. Device according to one of the preceding claims, characterized in that the device in its rear in the working direction a fastening device (1) for a building material transport means to a mutual positional relationship between the first collecting funnel (3) of

Device and a building material transport even during a movement of the device in the working direction to keep substantially stable.

13. Device according to one of the preceding claims, characterized in that the device has in its rear in the working direction a further transport device for building materials, which is laterally positioned to the first collecting container (3).

14. Device according to one of the preceding claims, characterized in that the first collecting container (3), the second collecting container (5) and / or the third collecting container (17) are provided with a vibrating device and / or a scraper device.

15. Device according to one of the preceding claims, characterized in that in the working direction of the device behind the chain drive (12) a

Compressor device (31) is attachable.