DE814273C - Method and device for removing foreign bodies from grist sluices of pneumatic conveyor systems - Google Patents

Description

Method and device for removing foreign bodies from grist sluices of pneumatic conveyor systems The invention is concerned with the task of pneumatic Conveyor systems to avoid or to prevent operational disruptions and other damage Eliminate that arise when foreign bodies in the rotating lock wheels reach.

This object is achieved according to the invention by a new method solved, in which the foreign body itself serves as an impulse to open the sluice wheel to switch the opposite direction of rotation. This measure achieves first that the trapped foreign body loosens again and another position in the lock wheel. In most cases, such a one-time reversal of the direction of rotation is sufficient, to get the foreign body in the conveyor cell between the two cell walls to let that he offers no more resistance and with the grist in the cell can be discharged downwards, from where it then becomes the final Excretion on a sifter or the like. Arrived. This usually applies to nails, Small pieces of wood, sack cords and the like should, however, in exceptional cases, the foreign body continue to remain in his awkward position, so he hits by repeated Switching with the neighboring cell wall of the lock wheel against the opposite one Housing side and inevitably comes into a different position. Even if he is now does not yet fail, which is extremely rare, it becomes automatic through further ones Switching over and over again in the Lock wheel cell back and forth thrown until he is finally under the constant knocking effect of the appropriately strong built cell walls have been sufficiently crushed or bent in the case of pieces of wire is that he finds a place in the cell and no longer opposes the passage. It has been shown that there are hardly any bodies in the pneumatic Conveyor system of a mill as a foreign object that does not come in handy on this Way can be passed through with the grist in whole or in pieces. Do you want Nevertheless, you can still do something else with each switch-on of the switching device set a signal system in motion. This makes the miller aware that he either successfully looked for a foreign body in the grist behind the sluice can or that he personally look after the lock if the signal lasts for a long time should.

The switching movement can be in different ways due to the blocking foreign body Way to be initiated. First of all, you can do what is particularly easy and beneficial is to arrange a switch on the lock drive shaft that operates on delays the speed of rotation responds. A simple and cheap centrifugal switch is sufficient for this, the z. B. actuates a reversing contactor, which drives the electric drive motor of the lock alternately controls clockwise and counterclockwise rotation. Another possibility is offered by the Arrangement of an electrical overcurrent relay, which then always switches the motor, when the bulky foreign body causes it to consume more electricity. Even are couplings or torsion bars in the drive between the motor and the lock wheel conceivable that switch at excessively high torques. You can also be a part the housing wall against which the foreign body must lie, or the cell walls train the lock wheel itself as a movable switching element.

About the bumps that occur when the centrifugal wheel is constantly switched on the drive motor are exercised to intercept elastically, it is also useful, in the drive an elastic transmission element, preferably one so-called Silentbloc.

The invention is described below with reference to several in the Exemplary embodiments shown in the drawing are described, with further being characteristic Features will result. It shows Fig. I a cross section through a lock Line I-I in Fig. 2, Fig. 2 including a longitudinal section through the same lock Drive, Fig. 3 is an electrical circuit diagram, Fig. 4 is a cross section through a another embodiment of a lock.

I is the housing and 2 is the cell or sluice wheel of a grist sluice, as it is known per se in pneumatic conveying systems in mills. The grist falls from above in the direction of arrow 3 into the individual cells of the rotating lock wheel 2, the cell walls 19 of which lie tightly on the cylindrical inner surface of the housing I. slide. Regardless of whether the sluice wheel is in the direction of arrow 4 or 5 turns, the grist falls down from the cells below out to then preferably conveyed further via a classifier, not shown to become.

The shaft 6 of the lock wheel 2 is shown in FIG Embodiment via a cardan shaft 7 and a so-called Silentbloc 8 through an electric motor M driven.

The Silentbloc consists of an inner I0 on a shaft part attached metallic sleeve I I, an outer likewise metallic sleeve 12 and a sleeve 13 made of soft rubber vulcanized in between. This soft rubber sleeve I3 elastically absorbs shocks that occur when the lock is in operation and thus holds it excessive shock loads from the engine M away.

In FIG. 3, R S T are the three phases of a three-phase network and 0 the neutral conductor, 30 a main switch, M a motor, 3I, 32 two coils of a reversing contactor and 33 a centrifugal switch, which is shown in FIG. 2 on the free stub shaft of the Motor M can be arranged. The centrifugal switch 33 is the one shown Embodiment built and switched in such a way that a standing under its influence Switching element 36 at standstill and speed increases its position with respect to the maintains both contacts 34, 35, while if the speed drops from one contact, with which it is currently in contact, changes over to the other.

If you switch to the position of the switching element 36 shown Main switch 30 is on, phase T is via coil 32 and switch 37, 36 connected to the neutral conductor. This creates the switch shown on the right 38 of the reversing contactor is closed and the motor M runs in a certain direction of rotation. The switch-on movement of the switch 38 also causes the switch to be switched off 39.

Assume now that a foreign body I8, e.g. B. a wood chip arrives so in a cell of the lock wheel 2 that it is not immediately through the rotating Lock wheel 2 is sheared off. Then this wood chip I8 is seized by the in the direction 4 circumferential cell wall I9 firmly knocked against the housing edge 20, whereby the lock shaft 6 can be braked to a complete standstill. This standstill is followed by a gradual delay due to the elastic Silentbloc Stopping the engine M, the weights of the centrifugal switch 33 inward coincide and switch the switching element 36 to the contact 35. This will the contact 34 released and the coil 32 de-energized, whereby the switch 38 the motor M turns off and the switch 39 turns on. Phase T is now through Connections at 35, 36 and 39 via the other coil 3I of the reversing contactor with the Neutral connected with the effect that the switch 40 is engaged and the switch 37 is switched off.

The current now comes from the three phases RST over the switch 40 to the motor M. Here jctlocli leads the right phase T to the right above the motor III shown line 41 and the left phase R to the left lower line 42, while with the switch 38 engaged, phases T and R are reversed with 42 lzw. 41 are connected. Phase 5 is in any case with the management 43 leave. The exchange of the two phases R, T naturally has the effect of this Three-phase motor M reverses its direction of rotation.

I) ie reversal of the direction of rotation of the motor M, which is expediently carried out by a Delay device is slowed down, of course, reverses the direction of travel of the lock rades 2 um. With the slow start in the other direction, the jammed Foreign body is free again and mostly falls into a different position, depending on the The shape of the foreign body is more or less likely to be such, that it comes to rest completely inside the cell. Does this apply with what according to the experiences made, as a rule, with a reasonably sufficient cell size can be expected, the lock wheel can basically be in the opposite direction Continue in the direction until a new foreign body enters one that is blocking further progress and a new shift-causing situation comes. Should, however, be the one-time l switchover not enough to shake the foreign body into the inside of the cell, it switches the centrifugal switch 33 back to the contact 34, which starts again the lock in the original direction of rotation. In the same way can be another switch to contact 35 and another oscillation between insert these two contacts 34. 35 with constant reversal of the direction of rotation, the continues automatically until the two to the right and left of the foreign body located strong cell walls have exerted such a knocking effect that Pieces of wood are chopped up and pieces of wire hammered together into lumps. If If you wish, you can of course also switch between an optical or Let the acoustic signal trigger.

The outer longitudinal edges of the cell walls are arranged relative to the Edges 20 of the housing, on which the foreign bodies wont to pinch, expedient at a slight angle so that they can easily remove thin foreign bodies like the bars of scissors and can cut up quickly. There are also sharp edges there for the same reason expedient.

Fig. 4 shows an embodiment of a lock housing 21 in which the side wall parts 22 at the inlet point above the lock wheel 2 are designed as movable plates. The plates 22 consist of levers 23 one piece. The l-lebel 23 are mounted on lateral pivot pins 24 of the housing 21 and are pulled into the position shown by means of springs 25. Come with this one Execution of a foreign body 26 between plate 22 and cell wall I9, the Dodge plate 22 against the action of the spring 25 until the foreign body 26 with the effect described above has reached the sharp edge 2g of the housing. at In this embodiment, the plate 22 or a linkage 29 connected to it is without further usable as a switching element to with great force and saving a electrical relay to switch the motor inevitably.

In principle, it is also possible to place the bucket wheel on the To arrange the hub of the sluice wheel in such a way that, when an increased resistance occurs, so z. B. when trapping a foreign body, a small movement against one otherwise allow the spring force to secure the rest position.

Such movements can also be used to make a To operate switching device that the motor M to the other direction of rotation switches.

Claims (11)

PATENT CLAIMS: I. Method for removing foreign objects from Grist sluices of pneumatic conveyor systems in mills and the like, characterized in that that the foreign body (I8, 26) trapped by the rotating lock wheel acts as a pulse generator used to switch the sluice wheel (2) to the opposite direction of rotation will. 2. The method according to claim I, characterized in that the by the foreign body caused the decrease in speed of the sluice wheel shaft (6) preferably A switching device for reversing the direction of rotation via a centrifugal switch (33) controls. 3. Procedure according to. Claim I, characterized in that the through the foreign body caused a sudden increase in torque via an electric Overcurrent relay reverses the electric drive motor (M) of the sluice wheel shaft. 4. Apparatus for performing the method according to claim I to 3, characterized in that between the Schleusenradwelle (6) and its preferably electric drive motor (M) one that is elastically flexible in both directions of rotation Transmission element (8) is installed. 5. Apparatus according to claim I to 4, characterized in that the elastic transmission member (8) made of two metal parts (II, I2) with one on known rubber spring (I3) vulcanized in between, the metal parts connected to the driving or driven part and the rubber spring are preferably designed as hollow cylinders arranged concentrically one inside the other (Silentbloc). 6. Apparatus according to claim I to 5, characterized in that the changeover device essentially consists of a reversing contactor (3I, 32) for right-hand and left-hand rotation of the electric drive motor. 7. Apparatus according to claim I to 6, characterized in that in the circuit the switching device or the relay on electrically operated display device, e.g. B. a horn or a signal lamp is placed. 8. Apparatus for performing the method according to claim I, characterized characterized in that one of the lock parts (22) between which the foreign body (26) is clamped, designed as a switching element for reversing the direction of rotation is. 9. Apparatus according to claim 8, characterized in that the switching element (22) is inserted movably in the housing containing the lock wheel in such a way that that there are switching movements under the pressure of the foreign body carried along by the sluice wheel can perform against an elastic restoring force (25). 10. Apparatus according to claim 8 and 9, characterized in that the switching element with the switching device for the opposite speed inevitably is connected via a mechanical or fluid linkage. 11. The device according to claim 8, characterized in that the Cell walls of the sluice wheel movable to a limited extent on the centrifugal wheel shaft arranged and generated by their relative movement under the counterpressure of the foreign body serve as a switching cylinder opposite the centrifugal wheel shaft itself. I2. Device, in particular according to Claims I to II, characterized in that that the outer sharp edges (28) of the cell walls (I9) and the edges of the housing to create a scissors-like cut at an acute angle to each other to run.