DE844124C - Conveyor equipment, especially for unloading ships for loose bulk goods - Google Patents

Description

Conveyor device, in particular for unloading ships for loose bulk goods If a shield. that herring, fish, fish guano, mud, nuts, salt, grain or other loose bulk cargo, can be discharged by known means the associated work requires a disproportionately long time, even if a lot of workers are used 4rd The invention has the purpose of a unloading device to create with which this deletion in a short time and with relatively little Auxiliary workers can be done. The device uses a suction pump, with which is sucked up through an adjustable suction tube.

This device is mainly characterized by the fact that it has a or contains more chambers attached to the suction tube. and the suction pump in such Way that the chamber or chambers are connected manually or possibly automatic action alternately exposed to suction or emptying can be.

In an expedient embodiment, one uses two chambers, which on the suction pipe and the suction pump by a common, independent switching device are connected in such a way that alternately one chamber of a suction effect is suspended for the purpose of filling with good, while the other is interrupted by the suction and is emptied.

This apparatus ensures that the herring mass, etc., without to be mixed with water, sucked in from the hold and straight up into boxes or other packaging in certain quantities according to the size of the named Chambers can be delivered. Other features peculiar to the invention are mentioned in the following.

An embodiment of the invention, e.g. B. for unloading herrings, is illustrated in the schematic drawing.

Fig. 1 shows the unloading device set up on the edge of a quay, on which the ship to be unloaded (not shown) is moored; Fig. 2 shows a part of the extinguisher seen from above; Fig. 3 shows a vertical one on a larger scale Cross section through the valve control belonging to the apparatus along the line III-III in Fig. 4, and Fig. 4 shows a vertical section through the valve control along the line IV-IV in Fig. 3 (a smaller valve is omitted in this figure !; Fig. 5 shows a section through the Ventilsteue tion along the line V-V in Fig. 4th

As shown schematically in Fig. 1, the extinguisher consists of a Container, which is divided by a horizontal and a vertical partition into an upper one Room a and two lower rooms b and c is divided. A motor is housed in room c, which drives a suction pump housed in room b. The space a is in two in Connection with the suction port of the suction pump divided into standing chambers the herring mass is absorbed, and a switching device described in more detail below. The inlet port of the switching device is in communication with one for suction of herring mass, etc. serving suction tube, which divides from a horizontal, and a depending part 12, the lower end of which is inserted into the herring mass, etc. can be brought down. The pipe parts 1l and 12 are together by a flexible Elbow 2 connected so that the pipe part 12 can be swung in all directions can. The pipe parts 1l and 12 are, as indicated in the drawing, from several telescopically interlocking shorter tubes assembled so that both the horizontal as well as the vertical tube part can be shortened or lengthened as required can be.

By this arrangement, the lower opening of the pipe part 12 can can be brought anywhere in the hold.

The device that is used when a ship is unloaded at the edge of a quay 3 is set up, is provided with supports 4 and 5, of which the supports 5 are provided with wheels 6 so that the whole unloading device can be moved easily, if it is tilted a little and the supports 4 off the ground; be lifted. Above of the container mentioned is .a horizontal, appropriately J-shaped bar 7 is attached, which protrudes from the container to approximately the downwardly hanging pipe part 12. One of the horizontal pipe parts 11 is suspended from brackets 8 on this beam 7. The beam 7 is in its longitudinal direction in guides in the upper ends of the supports 4 and 5 mounted displaceably and can be displaced by rotating a gear 9 which meshes with teeth on the top of the horizontal flanges of the Bar 7 stands. The shift is done by turning one on the shaft of the Gear attached hand crank 10 and causes an extension or shortening of the horizontal pipe part 1l, so that the pipe part 12 at a suitable distance from the container can be adjusted, depending on the width of the ship to be unloaded. The pipe part 12 can be in all directions by means of one at the lower end of the pipe part attached handle ii can be swung. Furthermore, this pipe part 12 can after Desired by means of a rope attached to the lower end of all tubular elements 12 12 can be lengthened and shortened, which is mounted on top of a beam 7 Roll 13 runs and then continues along the beam to a second one mounted on the beam Pulley or drum I4 to which the rope 12 is attached. By turning one on The crank handle 15 attached to the shaft of the drum 14 can be used to attach the rope to the drum 14 wind up or unwind from it. In Fig. 2, the part of the unloading apparatus When viewed fully above, the details described are not shown.

The unloading device must be set up in such a way that the Suction pipe 12, 11 sucked herring mass does not pass through the suction pump itself. Furthermore, the herring mass etc. is to be used directly in transport boxes or the like in certain Quantities can be supplied without the induced draft being interrupted at any time. To this To achieve this, a special prearrangement is used, which is used in the upper space of the in Fig. 1 is attached to the container. This device, shown in Fig. 3 to 5 is shown on a larger scale, consists of a housing 16, the two adjacent Contains chambers 17 and 18, which are separated from one another by a tight partition 19 are. This septum has an opening in which a solid cylinder 20 is attached is, the ends of which close tightly with the foremost and rearmost wall of the housing are connected (Fig. 4) and whose axis lies in the plane of the septum Ig, so that the halves of the Cylinder 20 protrude into one of the chambers 17 and 18 (Fig. 3). In the front wall the housing 16, directly in front of the cylinder 20, has a circular opening, to which the outlet end of the foremost horizontal pipe part Ii is attached.

In the solid cylinder 20 is tightly closing a cylindrical, rotatable valve slide 21, which, depending on its angular position, sucked Herring mass etc. distributed to the two chambers 17 or 18 in the desired manner. The valve body 21 is open in the end facing the tube Ii, but is a piece in front of its other end is closed by a disc 22 which is inside of the valve slide 21 is attached.

The disc 22 is provided with a journal 23 which is through a Opening in the rear wall of the housing 16 protrudes. The outer end of the stub axle is according to the embodiment shown with a hole 24 for inserting a mandrel provided, through which the journal 23 and the disc 22 and thus also the Valve slide 21 can be rotated into different angular positions. These Rotation can also take place automatically, as described below.

The suction pump is, as indicated at P in FIG. 4, through a pipe 25 connected to the suction chamber 26 around the journal 23 outside the rear wall of the housing 16 is located. This suction chamber stands through openings 27 in the aforesaid rear wall in connection with a cavity provided in the valve slide 2 1 28, which is located between the disk 22 and the rear wall of the housing 16. The cavity 28 can be in communication with one or the other of the chambers 17 and 18 through holes 29 and 30 in cylinder 20 and 3 1 to 33 in the valve slide, respectively 21 are set so that one alternates depending on the angular position of the valve slide in one or the other chamber I can reach negative pressure. These holes are all mounted in that part of the cylinder 20 and the valve body 21, the located between the disc 22 and the rear wall of the valve housing. As shown in Fig. 3, the cylinder 20 is provided with two holes 29 and 30, which are attached symmetrically on both sides of the partition wall 19 at the top of the cylinder wall are so that they are connected to one of the chambers 17 and 18, respectively.

The valve body 2 1 is provided with two diametrically opposed holes 31 and 32 and with a number of corresponding I icher 33 along one half of the circumference of the valve body. In the position shown, the valve body coincides the hole 3 1 of the valve body with the hole 29 of the cylinder 20 so that in the chamber 17, but not in the chamber 18 ILT underpressure occurs. Will the valve spool turned clockwise to the right (Fig. 3), which corresponds to a turn to the left in Fig. 5 corresponds to an angle a little more than 180 ° until the hole 32 of the valve slide coincides with the hole 30 in the cylinder 20, arises in the chamber 18, but not in the chamber 17 negative pressure. The holes 33 serve that the hole 30 during the rotary movement is not completed. Also the hole 29 is not closed, before the hole 32 ~ has passed the hole 29, so that during a short part both chambers 17 and 18 are exposed to the negative pressure of the rotary movement.

That part of the cylinder 20 that is between the disk 22 and the front wall of the housing 16 is, as shown in Figure 5, on each Side provided with a large opening 34 or 35, through which openings the sucked Herring mass etc. flows to enter one or the other of the chambers 17 and 18.

Furthermore, the valve slide 2 1 is on one side with one of the Openings 34, 35 corresponding opening 36 is provided. When the valve spool is in such an angular position is set that the opening 36 with the one or other of the openings 34, 35 is, as can be seen, a free passage for the herring mass etc. to the relevant chamber 17 or 18 respectively.

In the position shown in FIG. 5, the opening 36 coincides the opening 34. In this position, the interior 28 of the valve slide is in communication with the chamber 17. So that the herring mass etc. does not have the opportunity to be at the bottom of the Valve slide 21 remain, the openings 34, 35 are arranged in such a way that that its lower edge is a greater distance from the horizontal, through the axis of the valve slide as the upper edge of the opening. This is the reason that the holes 31, 32 and 33 in the valve spool are so arranged are that the valve slide is a little more than 1 8ob from one to the other End position must be rotated.

In Fig. 5, the legs of this angle are in dash-dotted lines indicated.

Each of the chambers 17, 18 is provided with a sloping bottom 37, and the front wall of each chamber is pivotable about a hinge 38 at the bottom Emptying hatch 39 is provided, which is closed by a lock, not shown can be. When a chamber is filled with herring mass, etc., it will go through Oscillation of the hatch 39 into the position shown in FIG. 4 with dash-dotted lines emptied, and the contents then slide along the sloping floor into one below the emptying opening attached box od. Like. From.

In each of the chambers 17, 18 is on the upper side of the cylinder 20 near the partition 19 a perforated plate 40 is swingably attached to the normally held in its lower position because of its weight, such as shown on the left in Fig. 3, the free edge of the plate then against a projection 41 rests against the housing 16.

In the top wall of each chamber are two exhaust valves 42 and 43 and 44 and 45, respectively, 'which are normally kept closed by spring action will. The valves 42 and 44 are provided with a valve rod 46 and 47, respectively is guided and through a projection 48 or 49 provided in the wall of the chamber protrudes. The valve 42 in the chamber 17 is through a pipe 50 in communication with the Valve 44 in chamber 18, and valve 45 in chamber 18 is through a pipe 51 in connection with the valve 43 in the chamber 17. In FIG Valves as well as perforated plates 40 are shown in arbitrary positions. the The mode of action of these arrangements and of the entire apparatus is the following: It is assumed that the valve body 21 in that shown in Figs Angular position stands; the chamber 17 will then be under negative pressure while the other chamber 18 is free for emptying. The herring mass etc. is then put through the suction pipe 1 are sucked up, namely into the valve slide 21, and then through the mutually overlapping openings 36 and 34 into the chamber 17. The herring wet etc. will then gradually rise in the chamber, and when it is about full is, the mass presses against the perforated plate 40 and swings it upwards, whereby the plate abuts the valve rod 46 so that the valve 42 opens will.

As a result, the negative pressure in the chamber 17 also extends to the Tube 50 so that the valve 44 in the chamber 18, which at that moment is empty and is closed, is opened. There is now a temporary negative pressure in both chambers prevail, so that suction of the mass into the chamber 18 is prepared. The remaining Valves 43 and 45 are closed because the right plate 40 is in the lowest Position. Now the valve slide 21 is turned to the right (Fig. 3), until the opening 32 coincides with the opening 30. In this new position of the valve slide the opening 29 is closed, while in the chamber 18 by the congruent Openings 30 and 32 negative pressure is created so that suction begins.

In the chamber 17 there is now a certain amount of the extinguishing material. It can be emptied by opening the hatch 39 in the manner described above. There the plate 40 is no longer influenced by the mass during emptying, sinks they off, whereby the valve 42 and thereby also the valve 44 closes. To Emptying the hatch closed again, and as soon as the chamber 18 with mass is filled, the plate 40 of this chamber rises, whereby the valves 45 and 43 open. The valve slide is now swiveled back into the position shown, whereby again negative pressure arises in the chamber 17, so that this is filled and at the same time the chamber 18 can be emptied, etc.

The discharge device described can be used for sucking dry or relatively dry mass can be used because of the design of the switching device what is achieved is that the part of the apparatus which is under negative pressure is always so tight is that sufficient negative pressure is achieved. A very significant advantage of the Apparatus is that the absorbed mass is in certain quantities without interruption the induced draft is promoted.

The arrangement shown in the drawings is based on the assumption that that the rotation of the valve slide 21 is done by hand. However, there is nothing in the Ways that the rotation takes place automatically by the plates 40 when they are through the pressure of the mass can be swung up by means of suitable control devices, the valve slide 21 SO influence that it is rotated in one direction or the other.

If only one chamber is used, it alternates with the negative pressure exposed to be filled once and separated from it to be emptied.

PATENTANSI'RI; CHE: 1. Conveyor device, especially for deleting Ships for loose bulk goods, which have a suction pump for sucking up the goods having an adjustable suction tube, characterized in that the device has at least contains a chamber which is connected to the suction pipe and the suction pump in this way is that the chamber or chambers are alternately exposed to either the negative pressure or can be emptied.

Claims (1)

2. Conveyor according to claim 1, characterized in that two Chambers (1 7, 18) to the suction pipe and the suction pump through a common, independent Switching device are connected in such a way that alternately the one chamber the l is exposed to negative pressure and filled with material, while the other chamber is from Vacuum can be drained separately. 3. Conveyor according to claims 1 and 2, characterized in that that the chambers (17, 18) are firmly separated from one another by a partition (19) are attached and that the switching device consists of a fixed cylinder (20), which is attached so tightly in the partition (19) that the cylinder axis is parallel to the septum and that two diametrically opposed parts the cylinder wall each in one of the chambers (17, 18) protrude lline, one end of the cylinder (20) is connected to the suction pipe (II), while its other End is connected to the suction pump, in addition, two in the cylinder wall relatively large, in connection with one of the chambers (17, i8) standing Openings (34, 35) are arranged for the passage of the goods and two or more smaller holes (29, 30) which are axially offset in relation to the openings (34, 35), which connect each of the chambers to the suction pump, which openings (34, 35) or Holes (29, 30) by means of a rotatable, cylindrical shape mounted in the cylinder Valve slide (21) can be opened and closed. 4. Conveyor device according to claims 1 to 3, characterized in that that the wall of the valve slide (2 1) with a relatively large opening (36) is provided, which alternate to cover with one or the other of the Openings (34, 35) of the cylinder (20) can be brought, and with a row from the opening (36> axially offset holes (31, 32, 33), which with the holes (29, 30) in the cylinder (20) can be made to coincide so that the chambers through Rotation of the valve slide alternately from one end position to the other can be placed under negative pressure, the holes (31, 32, 33) like that are arranged that during the rotation movement even both chambers under negative pressure stand. 5. Conveyor according to claim 4, characterized in that the valve slide cavity between the opening (36) and the holes (31, 32, 33) through a transverse partition plate (22) is divided, on which a shaft journal (23) is attached to rotate the Valve slide (21). 6. Conveyor device according to claims 1 to j, characterized in that that the opening (36) of the valve slide and the openings (34, 35) of the cylinder are provided so that the valve slide (21) more than 1800 of the one must be turned into the other end position so that his. Opening (36) with one of the openings (34, 35) of the cylinder covers. 7. Conveyor device according to claims I and 2, characterized in that that in the upper part of each chamber a pivotable, perforated plate (40) or the like. is mounted so that, when the chamber is filled with the conveyed material, from this is pushed up and so affects a valve system that for a short time both Chambers (17, 18) are placed under negative pressure until the valve system in such a Position is brought that both the Sang pipe (1t) as well as the suction pump of the filled chamber are separated. 8. Conveyor according to claim 7, characterized in that the plates (40) in connection with a device for automatic rotation of the valve slide (21) stand at the moment the chamber is filled. 9. Conveyor according to claim 1, wherein the suction pipe consists of a horizontal Part and a with this flexibly connected, depending part consists, which both consist of telescopically slidable pipe pieces, thereby characterized in that the horizontal part (II) in one od by a hand crank. Like. Slidable cantilever arm (7) is suspended, while the pipe sections of the hanging Part are connected to each other by a rope (12), which via rollers to a Hand crank device (14, 15) through which the vertical part (12) the suction pipe can be shortened or lengthened.