DE3923613A1 - Pipe section for combined filling and emptying silo shafts - has individual wall fixing of elements through angle holders - Google Patents

Abstract

The duct section for a combined filling shaft and emptying shaft for silos comprises a simple round or polygonal tube header section for independent single hanging. Assembly is possible continuous from top to bottom on the silo wall without successive sections having to be supported on each other. The angle holders (8) for screwing onto the silo wall can be designed in dependence on the silo loads so that the tension on one anchor screw of an angle does not exceed 10 KN in all directions. ADVANTAGE - The system elements which make up the chute structure are no longer connected together but fixed individually on the wall.

Description

The invention relates to a formed as a pipe section System component for a combined shaft construction tion for installation in silos, containers and the like, which with cell storage of sensitive, trickle capable bulk goods such as Legumes, roasts coffee, malt etc. both the continuous gentle Filling the cell using means built into the shaft Limiting the fall height allows as well as gentle Top withdrawal from the cell and to the pressure-relieved Ab run of the filling material over the same case-limiting Means within the shaft to the outlet of the Cell itself serves.

Known shaft constructions, which have these features have are described in DE 36 31 557 A1 and eliminate many disadvantages in cell storage break sensitive bulk goods.

In practice, however, they still provide a number of references split up, such as

• - expensive scaffolding for installation in existing Storage cells that e.g. Can be 50 m high
• - Inadmissible bean caused by thermal expansion of the fixing anchors of rigid shaft construction with alternating storage of hot and cold  bulk goods,
• - Abrasion problems when during storage the rough cell wall tarnishing when the Outlet openings facing the cell wall,
• - Static problems regarding the buckling and Buckling stress of a shaft, since the own load and the frictional loads of all stand on one another add the shots down and one accordingly increased training and support in the lower area require.

This is where the present invention intervenes shows a design for a formed as a pipe section System element for a filling and removal shaft on, with which each of the aforementioned disadvantages is avoided that can be.

According to the invention, this object is achieved in that the system elements forming the shaft construction are not more connected to each other, but individually and independently gig from each other while leaving expansion joints on the Silo wall to be attached. It is special Feature of the invention that the system element from which the shaft builds up, the assembly of the filled one Cell out without the use of an elaborate scaffolding Lower the cell contents from top to bottom striding can be accomplished without the elements support each other.

Each system element is preferably round or poly gonal design in the same way with 2 simple ones pushed cascade sheets and 2 to the inside of the cell provided pressure-relieved openings that  against the horizontal cell wall pressure from a shield plate and against the vertical cell pressure of one roof-shaped deflector can be limited.

A locking plate is provided below these openings, which is not the case limitation, but exclusively only to avoid unwanted in-feed th cell area during the emptying process.

It also has an overlapping sleeve at the lower end on that is tolerated so that the next lower shot can be inserted while leaving an expansion joint.

With this sleeve the lower end of the shot can horizon valley against the upper end of the inserted shot support if e.g. only 2 suspension brackets provided will.

To avoid deposits in the expansion joint points the top of the element as an oblique phase Run-on slope.

Welded elements are used to fasten the element Bracket, the peculiarity of which is that they in their extension to the formation of their inner Lever arm are dimensioned so that the under Influence of the silo filling loads in all directions exerted tension on the retaining anchor screws becomes less than the maximum permissible tensile load for Anchors in silo walls.

Because the silo loads at given cell dimensions for every meter of filling height for common bulk goods  The load can be determined individually suspended element statically verifiable.

Process-related are usually several cells of a silo with filling and removal chute ten provided so that the same product in succession for each cell for the top down one Assembly used by lowering the level and then returned to its actual use can be. By saving several times assembly scaffold becomes a very economical one Creation of the filling and removal chute by the system elements according to the invention only possible.

Depending on the local conditions, the installation of progressively possible from bottom to top. The through tole The sleeves allow for individual suspension both the expansion joint required for thermal expansion and also the adaptation of the elements to uneven walls and thus a reliable assembly of every element, the rigidly connected design of the shaft is not secured.

Appropriate design of the inventive concept are the subject of the subclaims.

The invention is based on execution shown examples.

Show it:

Fig. 1 shows the system element on a cell wall in longitudinal section, along the line II in Fig. 2, between a partially shown upper and lower connecting element.

Fig. 2 is a horizontal section along the line II-II in Fig. 1,

Fig. 3 shows the horizontal section along the line III-III in FIG. 1.

The system element preferably consists of a simple tube 1 , into which an opening is cut. By welding the shielding plate 3 beforehand, this results in two openings 2 which, when filled, permit the product to exit at an angle into the interior of the cell without touching the wall and to allow the product to enter when emptied.

Above these openings 2 , the roof-shaped deflector plate 4 is attached, which absorbs the vertical cell pressure.

Two cascade slopes 5 are inserted in the pipe 1 , as is the locking plate 6 . At the lower end of the overlapping sleeve 7 is attached, in which the next lower system element is inserted while leaving an expansion joint 12 .

On the system element, the brackets 8 are also welded, which have the holes 10 for direct wall mounting by means of anchor bolts.

The tube 1 has the oblique phase 9 at the upper end.

Each system element is presented in the manner described manufactured, placed in the cell and can be independent and from top to bottom on the cell wall after inserting into the previous element from lowerable product level. The Ge The totality of the individual elements forms the combined Filling and removal chute after the cells inlet and the cell outlet are connected to it.

Reference symbol list

1 pipe
2 inlet and outlet opening
3 shielding plate
4 Roof-shaped baffle
5 cascade slopes
6 locking plate
7 sleeve
8 brackets
9 Oblique phase
10 hole
11 wall
12 expansion joints

Claims (6)

1.System element for a combined filling shaft and removal shaft for top discharge for installation in silo cells for free-flowing break-sensitive bulk goods, which is divided into sections by adjacent means for limiting the drop height and in its wall openings for the inlet and outlet and a shielding wall to relieve pressure from the Deflection area, characterized in that the element consists of a simple round or polygonal pipe section for independent individual suspension. 2. System element according to claim 1, characterized, that the assembly progressively from top to bottom on the silo wall is possible without support other elements on top of each other. 3. System element according to claim 1-2, characterized in that the brackets used for screwing to the silo wall ( 8 ) are designed in dependence on the silo loads so that the train on a Haltean kerschraub an angle does not exceed 10 KN in all directions. 4. System element according to claims 1-3, characterized in that an overlapping sleeve ( 7 ) allows the insertion of the next lower element while leaving an expansion joint before its attachment. 5. System element according to claims 1-4, characterized in that a locking plate ( 6 ) is arranged below the openings ( 2 ). 6. System element according to claims 1-5, characterized in that the upper edge of the shielding plate ( 3 ) with the tube ( 1 ) through a deflector ( 4 ) is the verbun.