DE1506769A1 - Process and system for deleting bulk goods, in particular hydraulic rubble stones from ships - Google Patents

Description

Method and system for the deletion of bulk piece goods in particular of hydraulic stones from ships The invention relates to a method for mechanical lashing of bulk cargo, especially hydraulic engineering rubble as ships, and a facility to implement the process.

In the case of transport on the inland waterways, the mechanical Deletion of certain bulk goods e.g.

Hydraulic quarries that consist of pieces in accordance with regulations, whose weight is in the weight limits of 15 to 150 kp, and for the weight of Stromsteineweken, embankment walls, parallel works, groynes, etc. are used so far practically not solved: the deletion is generally done by hand, with the help of wheelbarrows.

Of the usual mechanical means, only that is actually Polyp grab can be used for the deletion of hydraulic building stones. Its disadvantage consists in the fact that its power is low, as well as the lower layer of the stone can only be completely cleared from the floor of the cargo hold with the help of human beings, whereby the ship is badly damaged.

Furthermore, it is only applicable where the port has a polyp grab is equipped. In contrast, the hydraulic quarry usually has to be open River stretch promoted, and there either unloaded on the bank, or straight be entertained into the river bed. For this purpose it would be very difficult to have a grapple to apply, because in this case the grab crane would have to be driven through a special waterway be transported to the place of use.

Newer procedures have also been tried. After one of these will the quarry stone was raised in a ship. which actually with a Number of bunkarn is provided.

A conveyor belt runs under the bunkers away from the hull bottom. ; When opening the lower locking bar of the lower, the stone is theoretiqch noticeable the conveyor belt and it carries the stone out to the end of the hull. To promote However, the facility is not suitable for water rubble stones. The S @ a occurs namely only initially through the bunker floor onto the conveyor belt, then it arches firmly, and furthermore the stone can only be erased by hand, what sits more significant Risk of accident. Another big disadvantage of this facility is there that the center of gravity of the loaded ship being the high-rise bunker is so high that the ship's stability is adversely affected.

Another method is to place the ship next to both sides of the along the ship's axis in the conveyor belt with a number of nnch inside tiltable Half-waves formed. The stone lies in the middle directly on the conveyor belt, The steel link protector is made. The extinguishing begins with the start-up of the conveyor belt. The disadvantage of this design is that as a result of the along its entire length at a great height @ from 1.5 to 2 m - loaded conveyor belt a very high starting energy is required. After the conveyor belt the stone out moved away from its immediate vicinity, the stone also bulges hiar ash fixed. This can hardly be eliminated by tilting the half-cells. If it succeeds, eo the stone arches in the longitudinal direction feet, since the each other cell partitions that have come close to narrow the cross-section of the path of the stone and always Form shoulders that are closer to each other, which promote feather arching.

In contrast, the invention is based on the knowledge that the machnaische Only then will the erasure of hydraulic stones or similar bulk pieces of rubble be successful and can be done economically if the stone is periodically unloaded, by a movement that piled them up Stone mass steady loosened up and thereby prevented the firm arching, whereby the stone at the same time axially forwards, i.e. in the direction of the unloading area or against that on the ship located, working in the transverse direction, possibly in different. Directions adjustable boom conveyor belt is promoted.

The essence of the inventive method is that a alternating raising and lowering in parallel stripes, as an enticing movement, and at the same time an axial fore-mewing movement on the floor of the ship's landing area first in the one to the unloading point or to the boom belt used on the ship closest area, and then continuously in areas further away from it can be realized in a widespread manner.

Accordingly, the inventive system in one or several units arranged, increasing in one or more cycle positions and decreasing, at the same time inner upper length moving forward (e.g. with one or more angular positions attached to at least two eccentrics each) parallel carriers euf.

Under several cycle positions is understood if z. B. everyone If the second carrier rises, the carriers located between them will practice a different one Movement off, e.g. they sink. Are also permanently installed supports between themselves moving girders, the system is still operational in the event that if it only has carriers moving in one cycle. However, it is undoubtedly that the performance of one on multiple carriers with multiple cycle points and without fixed Existing system is larger.

Another advantage of the invention is that the in cold cousin frozen bulk goods according to the invention loosened and discharged can be.

The invention is explained in more detail with reference to the accompanying drawings, one embodiment of the consisting of carriers arranged in several groups a system used to extinguish hydraulic structures with three cycle positions represent.

Fig. 1 and 2 show the arrangement of the system on the ship, namely Fig. 1 in longitudinal section, and Fig. 2 in plan view. In Fig. 3 the conveyor series shown in side view, and in Fig. 4 in cross section.

The conveyor units 3n, 3b, 3c and 3d are on the floor of the hold 2 of the hull 1 installed. The conveyor unit 3d is with an incline Area arranged.

The subsequent conveyor unit 3c is together with a cross conveyor belt swivel no. The rotary movement enables the conveyor belt 4 to perellel while driving to the longitudinal axis of the hull over the landing area, or in operation in the transverse direction can be swiveled into one or the pndarc position towards the hull. The conveyor unit 3c carries the stone directly onto the dn-s discharge conveyor belt 4, which him to the desired position, e.g. further promotes to any point of the sulus bed.

The individual conveyor units labeled 3a, 3b, 3c, 3d, 3e consist in the example shown of the mounted on two eccentric shafts 5 Carrier groups. 6a, 6b, and 6e. The eccentric shafts 5 are at their end 8 in the base body stored. The trigger groups 6a, 6b, 6c are mounted on the eccentric shafts 5. the Plugs that carry the bearings are eccentric to the shaft center line, in 1200 from each other. arranged in such a way that a system with three cycle points is formed.

In the above embodiment are. as it has already been mentioned, on the two eccentric shafts 5 with a separate bearing three, zueinnnder parallel carrier groups 6, 6b, 6c nnabrecht. The cohesive bearers of each of the three systems, that is, all, with "a", all with "b", all Carriers marked with "c" are rigidly connected to one another. The two eccentric shafts 5 are driven synchronously. As a result of the rotary movement, they describe the carrier groups holding pin a circular path and consequently move all points of the individual carrier groups also on a Kraisbahn, whereby the carrier groups are parallel move towards each other0 The related Carrier groups alternately carry the stones that lie on them and move them this forwards or backwards in a direction corresponding to the direction of rotation. This The movement cycle lasts according to the design described above during a rotation angle of 120 °.

The plant is operated in the sense of the development. by if that Erasing the stones located in cargo hold 2 is to be started, 80 firstly the unloading belt is approached, because later the conveyor units 3d and 3c switched on. The conveyor unit 3d places the stones lying on it, in motion and conveys them to Auslad @ and 4, where they are as a result of the uninterrupted Do not arch the lifting and lowering movement of the related parallel carrier groups can. The stones lying sideways from the conveyor unit 3d gradually slide as a result of gravity further down and they finally reach the carrier groups 6n, 6b, 6c. If the stone is emptied from the vicinity of the conveyor unit 3d, is the conveyor unit 3c also switched on: this discharges the stone from its surroundings by means of the also moving conveyor units 3d, 3c and the discharge belt 4. If the environment of the conveyor unit 3c is also discharged, the environment follows the Delivery unit 3b, later the delivery unit 3a.

It must be ensured that the carriers of the individual funding units Moved together in the TPkt to avoid the ship's resonance.

-The individual delivery units can be with their own or with operated by an external motor. A ship engine was installed on the test ship of 100 HP and the four conveyor units, the conveyor unit of the unloading belt and dps unloading conveyor itself were fitted with slip ring motors, each with an output of Drive 13 kW. Of Extinguishing the hydraulic quarry from 150 t took place in 45 minutes.

The dimensioning of the carrier is determined by the weight and determined by the size of the quarry stone.

Since the size of the statutory hydraulic quarry in general Should exceed 100 mm, the distance 9 between two moving together Beams are a maximum of 100 mm.

Claims (3)

PATENT CLAIMS 1. Method for deleting bulk pieces of data, in particular of quarry stones from ships, thereby P, e k e n n n z e i c h n e t that a lifting and lowering alternating in parallel strips as a loosening movement, and at the same time an axial forward movement on the floor of the hold first in em to the unloading point or to the boom belt applied to the ship closest area, and then continuously in the 3 areas further away from it can be realized. 2. ANalge for the elucidation of the pes method according to claim 1 not marked by individually operated on the floor of the ship loading room, arranged in one or more units, in one or more cycle positions rising and falling, at the same time moving forward in their upper laymen (e.g. with one or more angular positions, attached to at least two eccentricsa) parallel beams. 3. embodiment of the system according to claim 2, characterized @ e k e n n t e i c h n e t that fixed carriers are arranged between the movable carriers are. L e r s e i t e