DE2240416A1 - DEVICE FOR CHANGING THE DIRECTION OF CONVEYORS IN PIPE CONVEYOR SYSTEMS - Google Patents

Description

Device for changing the direction of guided in pipe conveyor systems Conveyor vessels The invention relates to a device for deriving the direction of conveying vessels conveyed in a pipe conveyor system under the action of liquid.

In pipe conveyor systems, the transport route is both the respective direction each determined by that of the delivery pipes. Changes in direction can be arcuate curved pipes are effected. The radius of curvature of such arcuate tubes however, must not fall below the specified minimum values, which are determined by the maximum permissible play of the conveying vessels in the conveying pipe as well as the length and diameter of the conveying vessels are determined. Especially in the case of long, spacious conveying vessels, the smallest permissible radii of curvature still undesirably high, and in particular larger ones Angular changes in the direction of transport require a large radius and thus curved tubes that require a considerable amount of space.

The 'invention is based on the task of creating a device by means of their significant changes in direction, e.g.

those caused by a right angle, with the smallest space requirement can be so that the incoming pipe is practically at right angles to the outgoing may bump.

This requirement is met by increasing the width of the delivery pipes adapted pipe section which exceeds the length of the conveying vessels is provided in a surrounding, hollow cylindrical housing around a The transverse axis cutting it in half its length is provided so that it can be pivoted in a power-operated manner, and its end faces in their shape that of the shortly Distances opposite shell of the housing are adapted; the housing is centered directed pipe socket for connecting the delivery lines and, each opposite, Connections for liquid supply and drainage. When became essential found between the incoming conveyor pipe and the one for the outgoing conveyor pipe A compensating line must be provided on the opposite connection. The compensation line can have a controllable valve with a throttle section be provided or be equipped with a pressure relief valve.

The connection arranged opposite the feed nozzle is advantageous connected to the interior of the housing. In many cases, the housing wall is sufficient at least in the area opposite the feed connection at a distance from the to run facing the end wall of the pipe section.

The specified position of conveying vessels within the pipe section is secured if this is preferably secured at both ends with this position, in the path of the bucket engaging, disengageable projections is equipped. The entry-side projection can be lifted out on one side and pivoted back automatically Locking lever be formed ats. A particularly simple structure results when the The exit-side projection is designed as a stop gripper fixed to the housing.

An automatic actuation of the controllable valve can be achieved if in the way of the conveying vessel, preferably in the pipe section, an actuating device is provided for the controllable valve. The housing was recognized as advantageous to assign a lock, which the liquid circuit of the outgoing pipeline separates from that of the feeding, so that in a subsequent uphill section occurring high pressures can be kept away from the device and its Pressure load remains low.

It has proven useful to assign sealing elements to the pipe socket able to lay against the end faces of the pipe section. In place of a pipe section can be a body of revolution, preferably a cylinder-shaped one Body, step, which preferably has the same pitch with cylindrical bores Is provided.

In detail, the features of the invention are based on the description of an exemplary embodiment in conjunction with one of the drawings illustrating this explained. The figures show: FIG. 1 schematically a section through a device for deflecting conveying vessels with a downstream lock and FIG. 2 is enlarged the mounting of the pipe section of FIG. 1 is shown in partial section.

In Fig. 1, a cylindrical housing 1 is shown in section, that on its circumference at a distance of 900 with pipe sockets 2 and 3 for an incoming one Delivery line 4 and an outgoing delivery line 5 is equipped. Opposite to the pipe socket 2 and 3, d. H. around 1800 against this along the circumference of the case 1, connections 6 and 7 are provided. The connection 6 is via a pipeline, which is equipped with a controllable valve 9, with the incoming delivery line 4 connected. The connection 7 is via a pipeline lo with the interior of the housing 1 connected.

As FIG. 2 also shows, there is -in the interior of the housing 1, in the housing covers 11 and 12 mounted by means of a journal 13 and a shaft 14, centrally and a pipe section 15 is pivotably held. On the free end of the sealed after A drive lever 16 is provided on the externally guided shaft 14, which acts as a pivot drive a hydraulic cylinder 17 engages, As Fig. 1 shows, the pipe section is with a Pawl 18 equipped, which in the working position shown below Influence their own weight falls into the locking position shown. On the casing of the case 1, a stationary stop 19 is provided.

By the incoming delivery line 4 is under the influence of nachschiebender Transport liquid is pushed forward in the direction of arrow 20 through a conveying vessel 21. Its end face presses the pawl 18 back so that these are passed can. The advance of the conveying vessel 21 is limited by the stop 19, and behind the pumping vessel falls under the influence of its own weight, possibly additionally that of a spring, the pawl 18 back into its basic or locking position, eo that the conveying vessel is in its position between the pawl 18 and the stop 19 is fixed. On his way when leaving the end area of the arriving Delivery line 4 or when a predetermined point of the pipe section is reached 15, the conveyor vessel has an actuating device (not shown), for example one electrical contact, actuated, which opens the solenoid valve 9.

The liquid displaced when entering the bucket could enter the interior of the housing via the pipeline lo and via the lock 25 and drain line 26. If there is no lock downstream in the housing 1, then it has the effect the displaced liquid transports others that have already left the device having shipping container. If, on the other hand, the lock is occupied, its locking slide is open 23 closed, and the liquid displaced by the entering transport container 21 is discharged when the valve of the line 28 is open via dlese. The attack brings 19 the conveyor vessel 21 comes to a standstill, the pipeline 8 is opened by opening the Solenoid valve 9 made conductive, and possibly with constant pressure, in the present case In the case of a substantially constant flow rate of the conveying means supplied can now pass the pipeline 8 and from below into the interior of the housing to enter. Here, too, it is initially discharged via the pipeline 26 or, with the lock closed, through the pipeline 28.

Appropriately automatically and through the same control process.

actuation of the solenoid valve 9 also triggers a valve actuated, which actuates the hydraulic cylinder 17 and the pipe section in the sense of arrow 22 rotates by 900.

As soon as the rotation begins, the fixed stop 19 remains behind, and the bucket is held against slipping down by the pawl 18. In the end position shown in phantom is one of the end faces of the Pipe section 15 above the connection 6, while the other in front of the pipe socket 3 stands. The liquid supplied via the pipeline 8 now lifts the transport vessel 21 and pushes it forward in pipe 5. With, -as shown, subordinate Lock 25, the lower gate valve 23 is opened and the upper gate valve 24 be closed. Here, too, the conveying vessel passes a pawl 32 and advances; until its end face reaches the switchable stop 33. The pawl 32 falls back into its locked position after passing, so that one enters the lock 25 introduced conveyor vessel 27 between the pawl 32 and the switchable Stop 33 remains fixed. Now the valve of the line 26 is closed and that the line 28 is opened, so that the flow circuit is maintained uninterrupted remains, but the lock is no longer included in it.

This switching process can be carried out by a special, not shown Switching element are effected; it is also possible to have such a triggering switching element to connect with the switchable stop 33, so that it is when it is acted upon is operated.

The gate valves are now expediently by means of a time sequence circuit 23 closed and 24 open. To facilitate the switching process, open before of the gate valve 24 made this bridging line effective, so that a Pressure equalization takes place and the actuation of the locking slide 24 without substantial Pressurization can take place.

Then the valve of the line 29 is opened and then the the line 30 closed, so that the feeding of the vertical Delivery line 31 now takes place via the lock 25 and, after that, the switchable stop 33 was unlocked by an actuator 34, the conveying vessel 27 out of the lock is pushed into the conveying line 31 and transported further in this. Afterward the switching operations can be reversed and the sluice against the delivery line 31 completed and opened against the housing 1; is useful here the gate valve 23 is also depressurized by a bypass line which is opened. The discharge of the liquid of the lower circuit can now take place via the Line 28 can in turn be made through the lock chamber via line 26. The downstream connection of the lock and separation of the circuits results in a number of Benefits; In particular, it proves to be useful to use the high, vertical ones in the case of long ones Lines pending high pressure from the rest of the system of delivery lines, in particular but keep away from the device for deflecting the conveying direction.

After the deflection has taken place, the pipe section 15 is opposite to the direction of the arrow 22 is pivoted back into its starting position. - A flawless promotion the conveying vessels 21 until they reach the illustrated end position and when they are pushed in into the lock 25 or the delivery lines 5 or

31 is achieved when the pipe sockets 2 and 3 or those facing them End faces of the pipe section 15 are equipped with seals, which Reduce or prevent fluid loss when crossing. The pipe section 15 can also be replaced by bores in a cylindrical body. Here it is possible to only work in one direction of rotation if the holes are arranged at equal angular intervals, with the same spacings extending over Can extend 3600 or a multiple of this angle.

The lock shown is not absolutely necessary, it makes it easier but the deflection processes within the device, especially when longer vertical Pipelines open into the housing 1. The device is of course not Limited to funding in one direction, especially since expedient Conveyor vessels are always returned in a second, parallel system. Here If necessary, a stop fixed to the housing can be provided in the area of connection-6, if the rotation takes place so quickly that during the pivoting process of the pipe section S 15 a noticeable lowering of the bucket cannot occur. On the other hand is it is possible to have such stops or pawls either over longer distances to extend within the cylinder jacket or such stops or To connect pawls to the pipe section 15 and by special drive means, For example magnets or hydraulic cylinders, or a control curve within the I & antel to operate the housing. Likewise, when they are reversed, those also become Lines designed to ensure that the flow of liquid is maintained have to carry. In particular, care should be taken according to the invention that valves, which open a new current path, which are operated in advance, which the Close current paths so that they can never be completely closed. In the Using counter systems, it has proven to be useful to use them for Use return line. This means that, for example, a vertical, from top to bottom The liquid to be dispensed can optionally be passed over the parallel delivery line leading downwards Lines 29 or 30 of the lock 25 or the vertical conveying line 31, while on the other hand the liquid flowing out of the lines 26 and 28 corresponds Lines of the second, reverse-acting conveyor system are fed and in this cause the return transport of conveying vessels. In any case, it will be within causes a reversal of direction of the movement of the conveying vessels in the smallest space, and According to further developments, such devices can be used for conveying vessels optionally to be fed to one of several outgoing delivery lines: In this case it is only necessary along the shell of the housing 1 at predetermined intervals to provide several pipe sockets for outgoing lines and the swivel device of the pipe section 15, for example. To control the hydraulic cylinder 17 so that optionally causes one of the possible pivoting paths will. The choice of each Swivel angle and 'thus the choice of each outgoing line can either manually or by control devices, data carriers or the like in any way Order can be specified. It is also possible to use the conveying vessels themselves with identifiers in the form of magnet arrangements, mechanical spikes or the like equip that due to a sensing during feeding the respective Determine the swivel path and thus the outgoing delivery line to be driven on.

Claims (16)

Claims 1. Device for deflecting the direction of in pipe conveyor systems conveying vessels guided and conveyed under the influence of liquids, thereby characterized in that they matched one of the width of the conveyor pipes, in its length the pipe section (15) which crosses the conveying vessels (21, 27) and which in a surrounding, hollow cylindrical housing (1) around it in half Length-cutting transverse axis (bearing journal 13, shaft 14) power-operated (hydraulic cylinder 17) is provided pivotably, and its end faces in their shape that of the in short distances opposite casing of the housing are adapted, and that the Housing with centrally directed pipe sockets (2, 3) for connecting the delivery lines (4, 5) and, in each case opposite, with connections (6, 7) for the liquid supply or discharge is equipped. 2. Apparatus according to claim 1, d a d u r c h g e k e n n z e i c h n e t that between the incoming conveyor pipe (4) and the one for the outgoing one Conveyor pipe (5) provided pipe socket (3) opposite connection (6) a Compensating line (8) is provided. 3. Apparatus according to claim 2, d a d u r c h g e k e n n z e i c h n e t that the compensating line (8) has a controllable valve (9). 4. Apparatus according to claim 2, characterized in that the compensation line (8) has a throttle section. 5. The device according to claim 2, d a du r c h g e k e n n z e i c h n e t that the equalizing line (8> has a pressure relief valve. 6. Device according to claims 1 to 5, d a you r oh g e k e n n z ei c h n e t that the connection (7) arranged opposite the feed nozzle (2) is connected to the interior of the housing (1). 7. Apparatus according to claim 6, d a d u r c h g e k e n n z e i c h n e t that the wall of the housing (1) at least in the supply nozzle (2) opposite areas at a distance from the facing end wall of the pipe section (15) runs and withdraws against them. 8. Device according to claims 1 to 7, characterized in that the pipe section (15) preferably at both ends with the position of conveying vessels (21) securing, engaging in their path, disengageable projections (pawl 18, 32); impact 19, 33) is equipped. 9. Apparatus according to claim 8, characterized in that the inlet side Protrusion as a pawl that can be lifted out on one side and swings back automatically (18, 32) is formed. lo. Device according to claims 8 or 9, characterized in that that the outlet-side projection is designed as a stop (19) fixed to the housing. 11. Device according to claims 8 to lo, characterized in that that disengageable projections are designed as switchable stops (33). 12. Device according to claims 1 to 11, characterized in that that by way of the conveying vessels (21, 27) an actuating device for a controllable Valve (9, valves 26 and 28 to 30) is provided. 13. Device according to claims 1 to 12, characterized in that that the housing (1) is assigned a lock (25) which controls the liquid circuit separates the outgoing pipeline (31) from that of the incoming pipe (4). 14. Device according to claims 1 to 13, d a d u r c h g e k e n n z e i c.h n e t that the pipe socket (2, 3) is against the end faces of the pipe section (15) legendary sealing elements are assigned. 15. Device according to claims 1 to 14, characterized in that that the housing (1) pipe socket (3) for more than one outgoing delivery line (5) assigned. 16. Device according to claims 1 to 15, -d a d u r c h g e k e n n z e i c h n e t that a bore in a cylindrical body is used as a pipe section is effective.