DE576811C - Outlet closure for storage container at the filling point for container conveyor systems - Google Patents

Description

Outlet closure for storage containers at the filling point in container conveyor systems It is known to use the closure together with a special one in the case of storage containers to be filled The discharge chute closes directly or indirectly through the conveying vessel to be loaded actuate so that the chute opens with its free end over the conveying vessel. This often has the disadvantage that the load enters the conveying vessel with a greater gradient arrives and this is loaded little evenly.

In the case of railway loading systems or the like, it is now already known that Loading device during loading slowly over the car to be loaded or the like. to move, so that there is an even load.

The invention aims to provide the last-mentioned basic charging method Also to be used in vessel conveyor systems and an advantageous training for this the charging system. The invention consists in that in known Way to the locking slide hinged chute with a special one to hers automatic inclination change serving movement device is connected. The chute therefore follows a certain law of speed during loading moved upwards so that the free end of the chute is always close to the load is located and finally turns off its inflow. The result is that the load gets into the vessel up to the highest possible height with the slightest fall. _ It was already proposed, a curved chute movable above the flow of bulk material hang up so that the lower end protrudes into the container. Is such a thing The vessel can be raised and lowered, so it practically requires a storage of the chute on the The vessel itself, and with this in mind, the filling point requires a special one Education. The material always reaches the container at the same speed.

Finally, vascular conveyor systems are still known, in which at the Rotary valve for the loading bunker a chute is articulated, which during the Loading process is moved for itself. However, this movement will not come until the end of the loading process through the sinking conveying vessel and not through a special one arbitrarily controlled movement device achieved. But above all, this serves Device only. as a coal flow regulator, but not. for even distribution of the load in the conveying vessel. .

In the arrangement according to the invention, it is particularly important on, when using an elastic pressure means to move the shutter slide and the chute to prevent the respectively prescribed. Positions as a result the fluctuating load caused by the overflowing cargo are not complied with. According to an expedient embodiment of the invention, this disadvantage is thereby eliminated avoided that in the pressure medium supply lines to the movement cylinders in itself known way check valves are installed. '' The drawing illustrates the closure in one example shown in vertical section Filling location.

The chute 18 is connected to the bunker 12 in connection with the opening 15, on which the slide B is mounted at 2o, with which the chute or snout C at 65 has an articulated connection. The rod 30, which is guided by a piston in the cylinder D and engages the slide B through the joint 33 at 33a, is used to move the slide B. The rod 30a is connected to the snout C by means of the joint piece 33b at 33 °. The rod 30a is guided in the cylinder E with a piston. Both cylinders D and E are connected to the pressure medium inflow line 39. Furthermore, the cylinder D has an exhaust pipe 38 and the cylinder E has an exhaust pipe 38a. To actuate the cylinder D, a four-way valve 36 is provided with a valve lift 137 which is actuated by an electromagnet 44. The connections from the pipe 39 to the cylinder D contain branches 66 and 67, of which 66 is used for the inlet and 67 for the outlet of the pressure medium. In the branch pipes 66 check valves 68 and control valves 69 and in the branch pipes 67 similar check valves 7o and control valves 71 are switched on, but in reverse order, since the check valves are set so that they prevent the flow in one direction through the branch pipes. The purpose of the valves 69 and 71 is to regulate the speed of actuation of the shutter B by shutting off either the flow of pressurized medium in the inlet or the outlet.

In the pipe connections H and K to the cylinder E there are also branches 66, 67 with check and control valves as for cylinder D. The junction of the pressure medium supply line 39 contains a four-way valve 36a with a lever 37a, which is operated by the solenoid 44a.

The lines L 'and L2 start from an electrical power source (not shown). The conveying vessel ii is provided with a lug 54a which is used to actuate the arm 53a of the switch 53b mounted at 53c and thereby closes an electrical circuit for the electromagnet 44. As a result, the four-way valve 136 is controlled by a lever 37 , so that the locking slide B is moved into the position shown with full lines. For this purpose, the valve 36 connected to the pressure medium line 39 allows the pressure medium to enter the cylinder D on the left; while for the right side of the cylinder the outlet 38 is opened.

A switch M is actuated by the cross head 31 of the piston rod 3o been. This switch includes a contact 74. Another momentary switch N is attached in such a way that it is actuated by a projection 31b on the piston rod 30a can be. This switch comprises an arm 75, which at 76 opposite a contact member 77 is stored.

A switch 0 is attached so that it is also through the crosshead 31 of the piston rod 3o can be actuated when the slide B is in the closed position is located. This switch comprises an arm 78, which at 79 opposite a contact 8o for the signal line 123 and 124 has its storage.

A contact switch P operated by the solenoid 81 has two arms 82 and 83 communicating at 84 and 85 and under certain Conditions are suitable for contacts 86 and 87 to close. A relay with a timing element Q is provided with an armature 88 on which a contact piece 89 is seated, which the contacts go and gi can connect.

The operation of the setup is as follows.

In the drawing, the vessel ii has the switch by means of the catch 54a 53a closed, creating a circuit from line L1 via connection ioo, Line ioi, contact 53 °, arms 53a, contact 53b, line io2, connection 103 and Line 104 is made to switch N, which is closed by contact 77 is and via line io5, electromagnet 44, line io6 and terminal 107 with the main line has L2 connection. Here, the electromagnet 44 and through this via the arm 37, the four-way valve 36 is controlled so that it is out of the line 39 allows hydraulic fluid to flow to the cylinder D and opens the slide b. Simultaneously the exhaust 38 is opened on the right of cylinder D.

When the piston rod 3o of the cylinder D moves into the full The position shown in the lines, a second circuit is closed by the switch M, that of the main line L ', connection ioo, line io8, connection iog, line iio, compound 73; Arm 72, contact 74, line iii, connection 112, solenoid 81, line 113, connection 114 leads back to main line L2. This circuit energizes the electromagnet 81 and therefore closes the switch P, the following third Circuit establishes: main line L ', connection ioo, line ioi, momentary circuit breaker 53a, line iq2, connection io3, line 115, contact 87, arm 83 of the switch P, connection 85, line 116, connection 1i2, solenoid 81, line 113, connection 114, back to line L2. This circuit keeps switch P closed Position when the described current flow is interrupted.

The fourth circuit established when contact P is closed is the following: main line L1, connection ioo, line io8, connection pulled, line 117, connection 118, line iig to contact 86 of switch P, arm 82, connection 84 through the relay with timing element Q, connection 114 to line L2. This circuit excites the time element Q, which bridges the gap between the contacts go and gi and thus closes the fifth circuit. Line L1, connection ioo, line io8, connection iog, line 117, connection 118, line i2o, contact go, anchor head 89 of time element Q, contact gi, line 121 to solenoid 44a, line 122 to line L2. This energizes the solenoid 44a which controls the operation of the cylinder E for the valve spout C.

With the above circuits in mind, the closing of the first circuit through the contact 53b, which energizes the electromagnet 44, causes the shutter slide B. When this slide reaches the fully open position, the switch M is closed, whereby the switch P operates and a circuit is established by the time element Q, which after a predetermined time closes the fifth circuit through the contacts go and gi and energizes the electromagnet 44a, whereby the pressure medium is admitted to the left end of the cylinder E and the snout C to the substantially horizontal position shown with dashed lines is raised. When the chute C has reached this position, the switch N is opened by the stop 311 of the piston rod 30a and the circuit to the solenoid 44 is interrupted. The armature connected to the lever 37 of the cock 36 then falls, as a result of which the pressure medium is directed to the right-hand side of the cylinder D and the left-hand side of the cylinder is connected to the exhaust 38. The piston rod 3o moves to the left and brings the locking slide B into the position shown with dashed lines. When the piston rod 30 is moved from the position illustrated by full to dashed lines, switch M opens and switch 0 closes, which actuates a signal via lines 123 and 124 by which the machinist indicates that the vessel has been filled is made aware. When the vessel ii is pulled up, the switch 53a opens and thereby interrupts the circuit to the line 115. In the meantime, the time element Q has been activated and the connection between the contacts go and gi is interrupted, so that all circuits are opened again.

When the electromagnet 44a by the interruption of the time element Q regulated circuit has become de-energized, its anchor drops, which means of the lever 37d through the four-way valve 36a pressure fluid to the left side of the Cylinder E is directed and its right side with the exhaust pipe 38a connection receives, whereupon the chute C from its lowest position in relation to the located in the closed position slide B is moved.

With the option described, the chute C opposite the slide 18 to give a greater inclination so that it is substantially parallel to the expedient inclined front wall of the vessel 1i runs, the cargo arrives at Start of loading without free fall into the vessel. Also when lifting chute C further away If the front edge is always close to the filled product, consequently one highest possible vessel filling is achieved. It is also essential that with the slow one Raising the chute C the flow of the load gradually slows down and finally is turned off completely, regardless of the slide B.

The bunker outlet opening 15 can still be equipped with a special slide valve be provided.

Claims (2)

PA TLN TANSPRÜCiIL .: i. Outlet cap for storage container at the filling point in the case of vessel conveyor systems, the one to be triggered by means of the lowered conveyor vessel Rotary valve with discharge chute, characterized in that the to Locking slide (B) hinged discharge chute (C) with a special one to hers automatic inclination change serving movement device is connected. 2. Outlet closure according to claim i with a pressure medium control for the rotary valve and the discharge chute, characterized in that in the pressure medium feed lines to the movement cylinders (D, E) check valves are switched on.