DE1230720B - Suction nozzle for sucking in bulk goods - Google Patents

Description

Suction nozzle for sucking in bulk material The invention relates to a suction nozzle for sucking in bulk material that is passed through a nozzle that extends into the vicinity of the nozzle mouth Partition wall is divided into a conveyed material and a conveying air duct, wherein the conveyor pipe of the suction air conveyor system connects to the conveyed goods channel and the Conveying air duct via an upwardly directed, protruding from the bulk material Tube communicates with the atmosphere.

For conveying bulk material by means of pneumatic conveying systems is it is known to use so-called suction heads or suction mouthpieces, by one Channel the outside air introduced into the suction head or into the mouthpiece and at one Deflecting edge is diverted into a countercurrent, so that the one located on this edge Material to be conveyed by the air flow at the deflection and the acceleration that takes place here is taken away and taken away.

Furthermore, it has also already been proposed in the intake pipe Provide access openings for secondary air in order to reduce the amount of conveying air that enters the lower suction mouthpiece flows in to be able to vary. This makes it possible pneumatic conveying systems for different and differently made conveyed goods adjust and optionally set the amount of material to be conveyed. Another well-known Embodiment shows outlets which are attached in the delivery line in a closable manner and through which a connection with the outside air can be established. However, these outlets are not intended for regulating the delivery rate, because they are closed during the delivery process and therefore do not serve as Secondary openings for the secondary air influencing the conveying capacity. You just will opened if the delivery line becomes blocked. This allows the over The column standing at the outlets fall back through them into the pit. Afterward the outlets are closed again. Then the suction pipe must first be lifted, in order to reduce the column of material in the suction pipe until it is conveyed away can be. These lengthy operations result in significant downtime of working hours and promoted goods with it.

Other known suction mouthpieces are designed, for example, that the mouthpiece through a guide plate or a wall into a conveying air duct and a conveyed material channel is divided, the partition wall in the region of the mouthpiece closes so that the mouthpiece brought to the angle of slope of the bulk material the bulk material can accommodate, the. Promotion through the diversion and acceleration of the conveying air flow is reached at the front edge of the partition wall.

Such suction mouthpieces must always be brought up to the bulk material in this way and are directed so that the mouth is always in the bulk material. It is but also known an embodiment in which a shovel-shaped hollow body with an upper incidence opening is provided into which the bulk material trickles. in the Partition walls or partitions provided for hollow bodies

Baffles direct the sucked in from the outside via a nozzle Air flow around so that the bulk material is removed from the embankment. For the pneumatic Conveying away larger quantities of bulk material in larger rooms or the like is conducting the suction mouthpieces disadvantageous and requires constant operation, being careful care must be taken that the end of the mouthpiece is constantly covered by bulk material while the air intake opening must be outside of the bulk material.

The object of the invention is to produce larger quantities of bulk material any rooms without special maintenance and operation pneumatically by means of suction nozzles convey away and in addition to achieve that even after an interruption in conveyance no jams occur and possibly clogging in the suction nozzle easily can be fixed. The funding should therefore after the initial commissioning reinsert automatically each time.

According to this object, the invention is that at the suction nozzle mentioned at the beginning, the partition wall at the transition point of the pipe is provided with an opening in the conveying air duct, which is opened through an from the outside adjustable flap is closed or opened, that is, in the open position forms an air bypass.

The suction nozzle with the adjoining delivery pipe can be placed on the floor a storage room are arranged, whereupon this storage room is filled with bulk material is, where it is only necessary to ensure that the conveying air channel of the mouthpiece remains connected to the outside air at all times. It will then turn on one appropriate blower the bulk material for example from the center of the supply conveyed away evenly. Operating or moving the There is no suction nozzle, although it is of course possible, depending on the shape and size of the storage space several such suction nozzles with connected delivery pipes to be arranged in order to use the entire bulk supply of a room with the exception of small remnants to be able to convey away. This embodiment according to the invention is particularly advantageous for larger coal stores, their coal for transport or for other purposes Purposes, e.g. B. for the boiler charging, is to be removed. As the partition of the conveying air channel and the conveying material channel is provided with an opening, can In any case, blockages in the suction nozzle can be avoided and the system can Immediately after a business interruption, because the adjustable flap can constantly be adjusted so that the opening through which practically a parallel Conveying air flow is reached, something always remains open, so that in addition to the entrainment of the bulk material at the front edge of the partition wall through the conveying air flow a parallel Conveying air secondary flow is present. Due to the strength of this parallel secondary flow of conveying air the amount of material to be conveyed can be precisely regulated, so that only as much is recorded as in the conveyed goods channel and the subsequent line can be transported. The conveyor system can use this secondary flow of conveying air can be put back into operation without further ado after a standstill, because any Bulk material that has penetrated the mouthpiece is initially released by the secondary flow of conveying air removed until normal removal begins again at the mouth of the suction mouthpiece. The air stream shoots into the good and loosens it up so much that it is easy - can be carried along by the air flow penetrating into the conveyed material channel.

The drawing represents an embodiment of the invention The suction mouthpiece is shown schematically in a vertical longitudinal section and is described below explained in detail.

The suction nozzle 1 is attached to the end of a pneumatic suction conveyor pipe 2 and is in a bulk material conveyor channel 3 and a conveyor air channel 4 divided by a partition 5 serving as a guide plate. The division into The air duct and conveyed material duct can also be made in a different manner purely from a structural point of view be e.g. B. by using two parallel tubes. The conveying air duct 4 is through an upwardly directed tube 6, which is constantly from the bulk material supply 7 protrudes, connected to the outside air. The air flow sucked in by a suction fan flows through the channel 4 and is at the front edge 5 a of the partition plate 5 in the opposite direction deflected in the bulk material conveyor channel 3, so that by the acceleration on the Deflection of the bulk material, which is on the front of the suction nozzle by appropriate Design the same forms an angle of repose, carried along and over the conveyor pipe 2 is fed pneumatically to the desired location.

In order to achieve that the suction mouthpiece, which is completely covered by the bulk material supply 1 works without any maintenance or operation is the partition or the baffle 5 provided with an opening 8 at a certain distance from the front edge 5 a, which is practically in the area of the air supply pipe 6 lies and by a lock can be locked or fully or partially opened. This lock exists from a flap 9 which is pivotally mounted at 10 such that the free edge the flap 9 opposes the conveying direction. The guide plate 5 is in the area of Flap 9 bent upwards, so that the flap 9 to a certain degree can be opened without them promoting the bulk material through the conveyor channel 3 interferes, so always lies in a flow shadow.

Of course, the structural design of the flap and baffle plate 5 look different from what is shown in the drawing. For example, the Flap be provided with a crank or the like. The flap is in one end position the blocking element for the passage 8 and blocks in the other end position, as shown in dashed lines shown is the entire promotion. The flap 9 is adjustable from the outside, and this happens via a through the air supply pipe 6 to the outside Linkage 11.

The flap 9 is now set in practice so that the passage 8 is partially open during operation of the system, such as. B. is shown so that in addition to the normal around the guide plates of the leading edge 5 a conveying air flow a parallel flow of conveying air passes through the passage into the conveying channel, so that through this parallel conveying air flow, the air flow around the surrounding edge -5 a of the baffle 5 flows, reduced and therefore not added as much good so that the amount of material and the conveying air on the conveying channel are always in the correct ratio stand. This bypass flow can of course also cause any blockages in the Suction mouthpiece 1 can be fixed without further ado. The complete shut-off of the conveyor channel through the flap 9 can, for. B. may be required when several suction mouthpieces are arranged according to the invention in a bulk store and the bulk material at one of these suction mouthpieces has already been completely removed and thus the bulk material conveyance stops.

In order to avoid influencing the other suction mouthpieces, the shut-off takes place.

Claims (5)

Claims: 1. Suction nozzle for sucking in bulk material through a dividing wall reaching up to the vicinity of the nozzle mouth into a conveyed material and is divided into a conveying air duct, the conveying pipe attached to the conveying material duct the suction air conveyor system and the conveying air duct via an upward, pipe protruding from the bulk material is in communication with the atmosphere, thereby marked that the partition (5) at the transition point of the pipe (6) in the conveying air duct (4) is provided with an opening (8) which is passed through from the outside adjustable flap (9) is closed or opened, that is, in the open position forms an air bypass. 2. Suction nozzle according to claim 1, characterized in that the adjustable Flap (9) in one end position the opening (8) and in the other end position blocks the conveyed material channel (2,3) against air admission. 3. Suction nozzle according to claim 2 or 3, characterized in that the facing the free edge of the adjustable flap (9) of the flow direction. 4. Suction nozzle according to one of claims 1 to 3, characterized in that that the partition (5) designed as a guide plate in the area of the opening (8) or the adjustable flap (9) is bent upwards and that above the opening the conveying air duct with the upwardly directed, from the bulk material in known Way outstanding air supply pipe (6) is connected. 5. Suction nozzle according to one of claims 1 to 4, characterized in that that the adjustable flap (9) by means of a through the air supply pipe (6) extending The actuating rod (11) is adjustable from the outside. Considered publications: German Patent Specifications No. 1 167 263, 944 718, 820 270, 267403.