NL2012401A - Magnet device for the removal of debris containing rebar. - Google Patents

Description

Magnetic device for clearing rubble containing reinforcing iron

The present invention relates to a magnet device for clearing debris containing reinforcing iron.

When demolishing concrete structures, a quantity of debris that not only contains broken concrete, but also reinforcing iron, which served as reinforcement in the concrete construction, with pieces of broken concrete on it, results.

At the location of the demolition of the concrete structure, it is known to separate the reinforcing iron with pieces of concrete still connected to it from the rest of the rubble. Tools with a work arm, such as excavators, are used which are provided with a magnet device at the free end of the work arm. By means of the magnet device which is generally provided with an electric magnet, the reinforcing iron with pieces of concrete still connected thereto can be pulled out of the rubble and transferred to a container for discharge of the reinforcing iron to a processing facility.

The present invention has for its object, among other things, to improve the known magnet devices for clearing debris containing reinforcing iron.

To that end, a magnet device according to the invention comprises a magnet and at least one reel member positioned at the magnet.

The rubble can be loosened with the aid of the winding element, so that reinforcing iron can be pulled out of the rubble more easily by means of the magnet positioned at the winding element. A piece of reinforcing iron, part of which is located on the surface of the rubble, often extends partially into the rubble.

Although in known magnetic devices that are not provided with winding members, the magnet can engage the part of reinforcing iron located on the surface of the rubble, in practice the part of the reinforcing iron extending into the rubble is difficult to pull out of the rubble. This is particularly due to the pieces of concrete that are still attached to the reinforcement iron and that act as an anchor. Pulling the reinforcement iron out of the rubble is more difficult as the layer of rubble in which the reinforcement iron is located is further compacted. A considerable compaction of the layer of rubble occurs frequently because when demolishing the concrete structure, the demolition machines drive over the previously created rubble as the demolition work proceeds. When the magnet device according to the invention is used, the layer of rubble can be loosened by means of the winding element, so that more space is created in the rubble to pull a piece of reinforcing iron with pieces of concrete thereon from the rubble by means of the winding element at the winding element positioned magnet.

In a favorable embodiment of the magnet device according to the invention, the winding member, in an operative condition, extends beyond the magnet on the working side of the magnet device. In use, the working side of the magnet device is brought near the rubble, so that the magnet can attract reinforcement iron present in the rubble. Because, in an operative condition, the toiling member extends beyond the magnet on the working side of the magnet direction, the toiling member can be inserted into the rubble to rinse the rubble free without bringing the magnet into contact with the rubble to be loosened.

In a favorable embodiment thereof, the agitator is selectively movable between the operative state and an inactive condition, wherein the agitator does not extend beyond the magnet in the non-operative condition on the working side of the magnet direction.

This measure makes it possible to use the magnet not only for pulling reinforcement iron out of the rubble, but also for receiving and moving iron road plates.

In a further favorable embodiment of the magnet device according to the invention, the magnet device comprises a frame which is adapted to be attached to a working arm of a tool and the magnet and the turret are each separately attached to the frame. By attaching the frame to the working arm of a tool and each separately attaching the magnet and the turret to the frame, the forces that occur in the turret during the loosening of the debris are passed through the frame directly to the working arm, so that prevented the magnet from being loaded by forces occurring during winding.

In a favorable embodiment thereof, the frame is provided with coupling members adapted to mount a working arm of a tool at the top of the frame, the frame is provided with coupling members with which the magnet is coupled to the bottom of the frame, and agitator mounted on a side of the frame. This permits a simple design of the magnet device according to the invention. The frame can for instance be simply designed as a plate. In a favorable embodiment, the coupling members adapted for coupling a working arm of a tool to the top of the frame are coupling members which cooperate with known quick coupling systems for coupling work pieces such as an excavating bucket to a working arm.

In a favorable embodiment of the magnet device according to the invention with a frame on which the toiling member is selectively movable between the operating state and a non-operating state, the toiling member is attached to the frame by means of a hinge and can be pivoted between the active state and the inactive state. These measures enable an easily operable and robust realization of the active state and a non-active state of the turret.

In a favorable embodiment thereof, the magnet device comprises a locking member for locking the coil member in the operative state and in the non-operative state. With this measure it is possible to prevent the agitator from unintentionally moving from the active state to the inactive state or vice versa.

In a favorable embodiment of the magnet device according to the invention, the turret comprises an elongated body. An elongated body can be inserted into the debris with relatively little effort in the longitudinal direction thereof. By moving the elongated body into the debris after moving the magnet device in a direction transverse to the longitudinal direction of the tossing element, the debris can be effectively loosened.

In a favorable embodiment thereof, the reel member is provided with a replaceable wear tooth at a free end thereof. When the turret member is inserted into the debris and the debris is loosened, wear occurs at the free end of the turret member. By using an exchangeable wear tooth at the free end of the winding element, damage to the end of the winding element after a period of use can be easily remedied by changing the wear tooth.

In a favorable embodiment of the magnet device according to the invention, the magnet device comprises an actuator adapted to cause the turret to vibrate. By causing the toiling member to vibrate, in particular with a high degree of compaction of the rubble, the forces required to insert the toiling member into the rubble and / or to loosen the rubble are lowered.

In a favorable embodiment of the magnet device according to the invention, wherein the winding member is selectively movable between the active state and a non-active state, it comprises an actuator adapted to move the winding member between the active state and the non-active state. This measure makes it possible, for example, to move the agitator from the driver's cab of a work vehicle to which the magnet device is arranged between the operative state and the non-operative state. Alternatively, the movement of the agitator between the operating state and the non-operating state can be realized manually. A suitable actuator is, for example, a hydraulic work cylinder.

In a favorable embodiment of the magnet device according to the invention, wherein the toiling member is mounted on a frame by means of a hinge and is movable between the operating state and the non-operating state by means of an hinge, the toiling member is moving the active state to the inoperative state by rotating the turret by means of the actuator about a pivot axis.

By means of the same actuator, it is possible to achieve a vibration of the swivel member by moving the swivel member back and forth through a slight angle around the pivot axis by means of the actuator. A suitable actuator is, for example, a hydraulic work cylinder.

In a favorable embodiment of the magnet device according to the invention, it comprises a plurality of spaced-apart reel members positioned in a row. The agitators thus form a comb that can be pulled through the rubble to loosen the rubble.

In a favorable embodiment of the magnet device according to the invention, the magnet is an electromagnet. By means of an electromagnet, a piece of reinforcing iron attracted by means of the magnet can easily be released from the magnet again by switching it off. Alternatively, the magnet is a permanent magnet.

The present invention also relates to a tool for rubble clearing work comprising a working arm with a magnet device according to the invention as described above at its free end.

The present invention also relates to a method for clearing rubble containing reinforcing iron, comprising the steps of - winding the rubble loose with at least one turret, and - removing reinforcing iron from the loosened debris with a magnet positioned at the turret.

The present invention will be explained in more detail below with reference to a number of exemplary embodiments which are schematically shown in the attached figures. These are non-limitative exemplary embodiments. In the figures: - Figure 1 shows a perspective view of an embodiment of a magnetic device according to the invention with turret members in the active state; Figure 2 is a perspective view of the magnet device of Figure 1 on a working arm of a tool during use of the magnet device for loosening rubble and removing reinforcing iron from the rubble; Figure 3 is a perspective view of the magnet device of Figure 1 with turret members in the non-operating state; Figure 4 is a perspective view of the magnet device of Figure 3 on a working arm of a tool during use of the magnet device for receiving an iron road plate; Figure 5 is a side view of an alternative embodiment of the magnet device of Figures 1 to 4.

Figure 1 shows a magnet device 1. The magnet device 1 has an electromagnet 3 and four turret members 5, 7, 9, 11 positioned at the magnet 3. The turret members 5 and the magnet 3 are attached to a frame in the form of a plate 13. The plate 13 is provided with holes 15 which serve as coupling members for coupling the plate 13 at the top 13a thereof to a free end of a working arm 16, as shown in figures 2 and 4. The magnet 3 is coupled at the bottom 13b of the plate 13. The plate 13 and the magnet 3 are provided for this purpose with cooperating coupling members 17, 19. The turret members 5, 7, 9, 11 are attached to a side 13c of the plate 13 by means of hinges 21, 23, 25, 27. Each hinge has a pair of hinge plates 21a / b, 23a / b, 25a / b, 27a / b attached to the plate 13. A respective turret member 5, 7, 9, 11 is positioned between each pair of hinge plates. Each hinge plate has three holes. Each toiling member 5, 7, 9, 11 is provided with two holes. The two holes of each turret 5, 7, 9, 11 are aligned with two of the three holes of each pair of hinge plates. Two pins are inserted through the aligned holes, namely a hinge pin 31 and a locking pin 33. In Figure 1 only the top hole 29 of each hinge plate is visible. After all, the hinge pin 31 and the locking pin 33 are respectively inserted into the middle hole and the lower hole.

The coil members 5, 7, 9, 11 can be pivoted by means of the hinges 21, 23, 25, 27 between an active state shown in Figure 1 and an inactive state shown in Figure 3.

In the operative condition as shown in Fig. 1, the coil members 5, 7, 9, and 11 extend beyond the magnet 3 on the working side 1a of the magnet device 1. As shown in Fig. 2, the working side 1a of the magnet device is used in use. 1 is brought near the rubble 35, so that the magnet 3 can attract reinforcement iron 37 present in the rubble. Because, in the operative condition, the winding members extend beyond the magnet 3 on the working side 1a of the magnetic direction 1, the winding members 5, 7, 9, 11 can be inserted into the debris 35 to rinse the debris 35 without contacting the magnet 3 to bring with the rubble to be loosened. During loosening, the free ends 5a, 7a, 9a, 11a of the turret members shaped like elongated bodies are inserted into the rubble. At these free ends, the coil members are each provided with an exchangeable wear tooth 37, 39, 41, 43. The coil members 5, 7, 9, 11 are positioned in a row at a distance from each other. The turrets form a comb that can be swept through the rubble.

By pulling the locking pin 33 in the direction of arrow A from the holes in the hinge plates 2a / b, 23a / b, 25a / b, 27a / b and the holes in the turret members 5, 7, 9, 11, the agitators 5, 7, 9, 11 are coupled to the hinge plates 21 a / b, 23a / b, 25a / b, 27a / b only by means of the hinge pin 31. The pivot pin 31 then serves as a pivot axis about which the turret members 5, 7, 9, 11 can be rotated in the direction of arrow B to move the turret members in the inoperative condition shown in Figure 3.

Figure 3 shows that the turret members 5, 7, 9, 11 no longer point downwards, but point upwards. In this non-operating state, the winding members 5, 7, 9, 11 no longer extend beyond the magnet 3 on the working side 1a of the magnet device. As shown in Figure 4, it is possible with the winding members in the non-operating state to use the working side 1a of the magnet device 1 near an iron road plate 45 and receive the iron road plate 45 by means of the magnet 3.

As shown in Figures 3 and 4, the locking pin 33 is inserted into the upper holes 29 of the hinge plates 21a / b, 23a / b, 25a / b, 27a / b which were still free in the operative state of the turret members. The lower holes 47 are free from the working members in the inoperative condition. The locking pin 33 is inserted through the upper holes 29 of the hinge plates in the non-operating state of the winding members and through the hole in the winding members aligned with the lower holes 47 and the non-operating state of the reel members is aligned with the upper holes 29 of the hinge plates.

Figure 5 shows an alternative embodiment of the magnetic device 1 of Figures 1 to 4. In this embodiment, the turret members 5, 7, 9, 11 are pivotably mounted around pivot axis 49 on the plate 13. An actuator designed as a hydraulic working cylinder 51 is in engagement with an end 5b of the turret member 5 shown. By extending or shortening the working cylinder 51, the opposite end 5a of the turret member with wear tooth 37 thereon can be rotated around in the direction of arrow C and in the direction of arrow D, respectively hinge axis 49. By moving the turret members in the direction of arrow D, the turret members can be brought into a non-operative state in which the turret members no longer extend beyond the magnet 3 on the working side la of the magnet device. By moving the turret members alternately over a small distance in the direction of arrow C and the direction of arrow D, an oscillating movement can be generated. The agitators thus vibrate.

In the embodiments shown, the magnet and the coil members are each separately attached to the frame. However, it is also possible that the coil members are attached to the magnet. The walls of the magnet to which the turret members are then attached must in that case be strong enough to withstand the forces occurring during the rub-in of rubble.

In the embodiments shown, four turret members are arranged in a row on one side of the frame. It is also possible that more or fewer turret members are provided, for example 1 turret member, or 2, 3, 5, 6, 7, 8, 9, or 10 turret members. Toiling members may also be provided on more than one side of the frame.

In the embodiments shown, the agitators are pivotable between an active state and an inactive state. Alternatively, the toiling members are movable in a different manner between the active state and the non-active state, for example by means of a sliding movement. It is also possible that with a magnet device according to the invention the turret members are not movable at all and can only be in the operative condition.

Although the principles of the invention have been set forth above with respect to specific embodiments, it is to be understood that this description is merely given by way of example and not as a limitation on the scope of protection which is determined by the appended claims.

Claims (15)

A magnet device for clearing debris containing reinforcing iron, comprising: - a magnet; and - at least one reel member positioned at the magnet. A magnet device as claimed in claim 1, wherein - in a working condition, the winding means extends beyond the magnet on the working side of the magnet device. A magnet device as claimed in claim 2, wherein - the agitator is selectively movable between the operative state and a non-operative state, wherein the agitator does not extend beyond the magnet in the non-operative state on the working side of the magnet direction. A magnetic device according to any one of the preceding claims, comprising - a frame adapted to be attached to a working arm of a tool; wherein - the magnet and the turret are each separately attached to the frame. A magnetic device according to claim 4, wherein - the frame is provided with coupling members adapted to connect a working arm of a tool to the top of the frame; - the frame is provided with coupling members with which the magnet is connected to the underside of the frame; and - the turret member is attached to a side of the frame. A magnetic device according to claim 3 and claim 4 or 5, wherein - the agitator is attached to the frame by means of a hinge and can be pivoted between the operative state and the inactive state by means of the hinge. 7. Magnet device as claimed in claim 6, comprising: - a locking member for locking the agitator in the active state and in the non-active state. A magnet device according to any one of the preceding claims, wherein - the winding means comprises an elongated body. 9. Magnetic device as claimed in claim 8, wherein - the coil member is provided with an exchangeable wear tooth at a free end thereof. 10. Magnetic device according to one of the preceding claims, comprising - an actuator adapted to cause the tossing element to vibrate. A magnetic device according to at least claim 3, comprising - an actuator adapted to move the reel member between the active state and the non-active state. A magnet device according to any one of the preceding claims, comprising - a plurality of disturbed members positioned in a row spaced apart. A magnet device according to any one of the preceding claims, wherein the magnet is an electromagnet. A tool for rubble clearing work comprising a working arm with a magnet device according to any one of claims 1 to 13 at its free end. A method for clearing rubble containing reinforcing iron, comprising the steps of - tumbling loose the rubble with at least one turret, and - removing reinforcing iron from the loosened debris with a magnet positioned at the turret.