DE3728280A1 - Conveying-flow deflector - Google Patents

Abstract

The deflection of a conveying flow in pipelines, in particular of granular solid materials by pneumatic conveying methods, takes place by manual reconnection, by blocking the line systems by means of individual units or by conveying-line switches having internal adjustable line parts. In these methods, during changing-over, the conveying must be shut down and the route section must be freed from conveyed material. The novel conveying-flow deflector is to be able to change over during the conveying operation by means of a drive and even in the case of the highest possible conveying pressures, while having the smallest possible installation dimensions. By way of a pivot point (4) in the vertex of a deflection housing (1), a tangentially arranged change-over valve (2) is swivelled, by means of any desired drive, in front of an internal conveying-pipe exit piece (3) and thus closes the preselected pipeline system with simultaneous opening of the other. The conveying-flow deflector is suitable, in particular, for use with all known pneumatic conveying methods; however, in particular because of its compact method of construction and its adaptability, in terms of material, to all conveyed materials, it can also be used in the pipeline systems in hydroeconomy and in the chemical, gas and power station industries.

Description

The invention relates to a method for deflecting in piping systems transportable goods, especially of granular solids, which with the various pneumatic Funding procedures are transported. With a drive unit is via a pivot point at the apex of the deflection housing, if necessary during the conveying process and with Support of additional medium, at the same time One of the conveyors opens with the same one Diverter flap closed.

A device for deflecting such conveyed goods comprises a deflection housing with 2 rectangular or square outlets and a manually or automatically driven, tangential hinged diverter flap for opening or closing 2 internal conveyor pipe outlet pieces.

In the pneumatic conveying process are from a conveying unit often several receivers one after the other via pipes to be loaded with material to be conveyed. Depending on the type of funding process or the material to be conveyed are three different deflection methods known in delivery lines:

• 1. The manual clutch by mechanical separation and again Connecting the different cable routes using a dome hose. This is only when the funding stops and at least partially empty delivery line possible and this leads to considerable loss of performance and energy.
• 2. The use of 2 individual units, eg. E.g .: ball valves, flaps, Pinch valves or slides, behind a pipe branch. The redirection is done by closing the one and opening the other unit. A toggle is also here, mostly for reasons of wear and clogging, only during the delivery standstill and when the conveyor line is empty possible. To the loss of power and energy the price increases by 2 separate drives with their Controls and end position monitoring.
• 3. The use of delivery line switches with internal ones  rotatable or foldable line parts. Sealing and wear problems at the inner coupling points of these units can only be used in the low pressure range, up to 4 bar, to. The disadvantages of a standstill and the emptying of lines when switching as well as the spacious designs with high weights continue to limit the possible uses.

The inventor set himself the goal of one method and one Device in the manner of the delivery line switches avoiding the to develop known shortcomings and disadvantages. In particular it should now be possible with small installation measures and low weight of the device during the conveying process, with the least wear and the highest discharge pressures, to switch from one to the other funding route.

The method according to the invention leads to the achievement of this task, in which, in a deflection housing, a diverter flap releases a conveyor path by a swiveling movement and the second closes at the same time. Because of the particularly cheap Position of the fulcrum of this changeover flap, tangential to the flap body and outside the flow, here is a simple one and low-wear sealing option to the outside is guaranteed. The free space between those with rectangular or square cross section designed housing arms and External surfaces of the conveyor pipe outlet pieces serve as a displacement space for conveyed goods when switching and on the other as a filling space for goods to be conveyed as a wear cushion for conveying.

The possibility of pivoting has proven to be particularly advantageous the changeover flap during the conveying process. Without This can interrupt the flow of the material being conveyed be transferred to the other receiving container, and thus can quickly, without loss of performance and energy, so far unknown wishes regarding filling level and filling quantity being satisfied.

Another advantage is that the delivery pressure the seal between the diverter flap and the conveyor pipe outlet piece supported and thereby excludes incorrect funding. The pipeline cleaning that is often necessary when changing the conveyed product  is possible by introducing flushing medium, preferably air or other gases. These Additional feeding is also used to loosen the displacement space when switching the diverter flap as well Support of the funding process can be used.

In the inventive device of the type mentioned it turned out to be cheap, depending on the nature of the material being conveyed the flap on both sides with an adapted Sealing material (natural rubber, PTFE, Viton, PU, etc.) too coat or the contours of the conveyor pipe outlet pieces adjust and harden on both sides. According to the changeover flap the sealing surfaces of the conveyor pipe outlets are designed; either in a knife-like shape opposite the flap coating or with a groove with an inserted sealing ring opposite the hardened flap. For reasons of wear, the Groove on an outside, outside the flow lying sloping attached. According to the invention is in both Cases provided the hardening of the conveyor pipe outlets. A change when changing the conveyed goods is by the loose Integration of the conveyor pipe outlets in the outlet flange systems facilitated.

According to a further feature of the invention is in the outlet flanges of the deflection housing at least one channel system each Introduction of additional media to fulfill the above procedural claims intended. To prevent product intrusion The additional medium is added to this channel system via filter cartridges or a sealing lip system is introduced into the deflection space. Adapted to the funding process and / or the course of the delivery line the deflection housing with a straight passage and side outlet or with straight entrance and V-shaped Exits carried out. At least one lockable inspection and maintenance opening on the broad side of the deflection housing allows the changeover flap to be replaced without the entire diverter removed from the piping system must become.

Further advantages, features and details of the invention result preferred from the description below Exemplary embodiments and with reference to the drawing, the schematic Cross section of either or or options  represents the device according to the invention.

The device (flow deflector) has a housing ( 1 ) with a continuous ( 16, 19 ) and an axis ( 18 ) branching off at an angle (a ) or with two ( 18, 19 ) from the input axis ( 17 ) at the angles ( b) branching axes. At the apex of the branching housing arms is the fulcrum ( 4 ) for a diverter flap ( 2 ) which can be pivoted under the angle (r ) and which has either a coated ( 14 ) or hardened ( 15 ) sealing surface. The diverter flap ( 2 ) closes or opens a hardened delivery pipe outlet piece ( 3 ) with a sealing cutting edge ( 9 ) or groove design ( 10 ) and sealing ring insert ( 11 ). The feed pipe outlet piece ( 3 ) is held interchangeably in the outlet flange system ( 5 ) with an integrated additional air duct ( 8 ). The air (or gases), which flows into the additional air duct ( 8 ) via solenoid valves etc., is introduced into the deflection chamber via filter cartridges ( 6 ) or a sealing lip system ( 7 ) and is used here either to clean it, as a changeover aid or as a conveying aid. For inspection and maintenance, replacing the changeover flap ( 2 ) or sealing ring ( 11 ), an opening with a sealing cover ( 12 ) is provided on the broad side of the housing ( 1 ). The change-over flap ( 2 ) can be actuated from the outside via its axis of rotation ( 13 ) by means of a hand lever, manual transmission, pneumatic, hydraulic or electric drives.

Claims (14)

1. A method for deflecting goods conveyable in pipelines, in particular for granular solids with pneumatic conveying methods, by closing the first and simultaneously opening the second conveying path with a drive means (flow deflector), characterized in that by any drive, manually, pneumatically , hydraulically or electrically, via the pivot point located at the apex of a deflection housing of rectangular or square design on the outlet side, a changeover flap closes or opens the inner conveyor pipe outlet pieces. 2. The method according to claim 1, characterized in that that besides the changeover driving force the delivery pressure the sealing of the closed delivery line supported. 3. The method according to claim 1 and 2, characterized in that switching from one to the other funding path without interrupting the funding process is possible. 4. The method according to claim 1 to 3, characterized in that to clean the interior, to support the changeover and / or the conveying process in each case a liquid or gaseous one from the housing outlet side Medium is entered. 5. Device for deflecting goods that can be conveyed in pipelines, in particular for solids with pneumatic conveying methods, by closing the first and simultaneously opening the second conveying path with a drive means (conveying flow deflector), characterized in that the outlets of the deflecting housing ( 1 ) have a rectangular shape or have a square cross-section. 6. The device according to claim 5, characterized in that the deflection housing ( 1 ) has an inspection or maintenance opening ( 12 ) at least on a broad side. 7. Apparatus according to claim 5 and 6, characterized in that the pivot point ( 4 ) for the switching flap ( 2 ) is arranged at the apex of the deflection housing ( 1 ). 8. The device according to claim 5 to 7, characterized in that in the housing outlet flanges ( 5 ) at least one channel ( 8 ) is provided, whereby cleaning, rinsing and / or promotional media via a sealing lip system ( 7 ) or filter candles ( 6 ) can be introduced evenly into the deflection space. 9. The device according to at least one of claims 5 to 8, characterized in that the conveyor pipe outlet pieces ( 3 ) are hardened and are interchangeably integrated in the outlet flange systems ( 5 ). 10. The device according to claim 9, characterized in that the inlet ends of the conveyor pipe outlet pieces ( 3 ) are either cut-shaped ( 9 ) and / or with a groove ( 10 ) for inserting a sealing ring ( 11 ). 11. The device according to at least one of claims 5 to 10, characterized in that the walls of the deflection housing ( 1 ) at a distance (i) to the conveyor pipe outlet pieces ( 3 ), for the purpose of backfilling with material to be conveyed. 12. The device according to at least one of claims 5 to 11, characterized in that the axis of rotation ( 13 ) of the switching flap ( 2 ) extends tangentially to the valve body. 13. The apparatus of claim 10 and 12, characterized in that the switching flap ( 2 ) either coated on both sides with a sealing material ( 14 ) or worked out and hardened as a shaped piece ( 15 ). 14. The device according to at least one of claims 5 to 13, characterized in that the pivoting movement (r) of the switching flap ( 2 ) is automatically controllable.