DE1951980U - VENTILATED SILO FLOOR OD. DGL. - Google Patents

Description

The present innovation concerns ventilated areas for Storage of grain or other material and especially silos for the storage of grain or other substance that has such have ventilated surfaces.

According to the present innovation, a ventilated area for storing grain or other material is provided air is to be sent through. This surface has one or more steps at a distance from each other, wherein the sill portion of the step or each step has a plurality of openings for forming air channels.

The present innovation also provides a ventilated area for storing grain or other material through the Air should be sent. This surface is inclined to allow the fabric to flow down the surface and faces in

Patent attorneys Dipl.-Ing. Martin Licht, Dipl.-Wirtsch.-Ing. Axel Hansmann, Dipl.-Phys. Sebastian Herrmann 8 MDNCHEN 2, THERESI ENSTRASSE 33 ■ Telephone: 2921 02 · Telegram address: Lipatli / Munich

Bank details: Deutsche Bank AG, Munich branch, Viktualienmarkt dep., Account no. 70/30638 Bayer. Vereinsbank Munich, branch. Oskar-von-Miiler-Ring, account no. 882495 Postal check account: Munich No. 163397

OppenauerOffice: PATENTANWALT D-R. REINHOLD SCHMIDT

Downward direction on steps arranged at intervals from one another, whose threshold parts each have several perforations to form air channels.

Furthermore, according to the innovation, a ventilated area for storing grain or other material is provided through which Air is to be sent back. This surface is in the form of an inverted trough, the sides of which have one or more in Longitudinal inwardly directed steps are formed, the optical wave part of each step having perforations is provided to form air channels.

These and other features of the present innovation emerge from the following description of a ventilated area and their use in drying grain emerges as illustrated in the accompanying drawings in which

Fig. 1 is a sectional view through a ventilated surface according to the present innovation,

Fig. 2 is a plan view of a grain silo whose Soil is formed by ventilated areas according to Fig. 1,

Fig. 3 is a sectional view along the line III-III in Fig. 2 is and

4 is a perspective view of a ventilation trough for use on the floor of a grain elevator.

The ventilated surface shown in Fig. I is made of a number of sheets of galvanized steel or from a formed another suitable substance. Such a sheet, which is designated by the reference number 5, is shown together in FIG with parts of two further sheets of this type with the reference numerals 6 and 7. Every sheet is essentially flat and is bent at its two opposite edges by an angle of at least and preferably more than 90 °, to oppositely directed flange surfaces 8 to so that they form an angle of 90 ° or less with the flat part of the sheet metal. In a typical example the length of each sheet is 3658 mm, and its width (between the opposite flange surfaces) is 25 ^ mm, each flange surface having a depth of 25.4 mm. the Sheets are arranged next to one another, with flange surfaces lying next to one another overlapping one another, thereby creating a step-like To form construction, both of the visual wave part of each stage go through the overlapping flange surfaces is formed. The total area is opposite at an angle of 37, for example inclined to the horizontal.

Each flange surface 8 contains several rows of perforations. Two such: Rows of through holes 9 are shown in each flange face in FIG. The trays are suitable Means, for example visual hoods, attached to one another, the perforations in each flange face on the corresponding Holes in the adjacent flange face are aligned to form air passages through the sill portion of the face.

Fig. 2 shows a grain silo 11 with a corrugated bottom 12, which is formed by sector-shaped bottom surfaces 12a, 12b that are arranged alternately around the silo, with adjacent sectors opposite the horizontal are oppositely inclined. On the floor of the leaning towards each other, lying next to each other between each pair Sector surfaces formed trough is a motor-driven screw conveyor 13 is arranged, which in the horizontal direction runs between the wall of the silo and the center of the floor. During the operation of the plant, the grain that flows on the poured roof formed by each pair of adjacent and upwardly converging floor surfaces descends over the tiered aerated floor and becomes a collection point through the rotating screw conveyor promoted in the middle of the soil. Air under pressure is supplied to the underside of the floor so that it passes through the sleeper parts that flows through the steps formed in the ground and, in addition to drying or cooling the grain, its downward movement supports.

In a modified silo shape, in which the grain is stored stationary, surfaces in the form of an inverted trough, such as. B. the inverted trough 14 shown in Fig. H can be attached to the bottom of the silo. The interior of the trough is connected to a source of compressed air so that the air flows out of the trough to the outside through the perforated steps 15 into the grain at the bottom of the silo.

Even if the plansch area formation according to Pig. Particularly in a silo base is preferably I, to impart sufficient stiffness to the ventilated areas, according to Fig. 2, it may be that such a stiffness in a ventilated area in form of an inverted trough in accordance with. H Figure is not required. In this case, the inverted trough can be formed from a single sheet of metal by providing parallel spaced rows of perforations in the sheet and bending the sheet to form both the trough shape and the stepped shape shown in FIG.

To achieve versatile air control, the space inside the inverted trough can be replaced by one or more horizontal Partitions 16 can be divided to form two or more chambers. Flaps (not shown) at the connection between the The trough and the air source are used to optionally regulate the air flow into the chambers. The edges of the partition walls 16 are on the Attached to sleeper portions of the steps and formed with openings aligned with those of the steps.

Although in Fig. 4 the sides of the inverted trough are shown as such are as if they run upwards towards one another, the general direction of these sides could also be parallel to one another run, the height of the inverted trough would be arbitrary.

Claims (6)

Utility model application ; Ventilated floor area Protection claims 1, Ventilated area as a support surface for grain or other material to be treated by the passage of air, with one step or with several at a distance from each other arranged steps, characterized in that the threshold part (8) of the step or each step contains perforations, through which an air duct is formed through the threshold part. 2. Ventilated area according to claim 1, characterized in that that the surface is inclined downward to allow the material to be drawn down across the surface and step or flowing down the stairs. 3. Ventilated surface according to claim 1 or 2, characterized in that that it is designed as an inverted trough (14.), the opposite sides of which have at least one step running in the longitudinal direction of the trough, the sill part of the Patent attorneys Dipl.-Ing. Martin Licht, Dipl.-Wirtsch.-Ing. Axel Hansmann, Dipl.-Phys. Sebastian Herrmann 8 MÖNCHEN 2, THERES IENSTRASSE 33 · Telephone: 2921 02 · Telegram address: Lipatli / Munich Oppenauer office: PATENT ADVERTISER DR. REINHOLD SCHMIDT - 2 - Step in the downward direction of the step is directed inwards. 4. Ventilated area according to one of claims 1-3, characterized in that it is formed from two or more metal sheets (5, 6, 7) connected to one another, that the adjacent edges of adjacent sheets are formed with perforated planar surfaces (8) which form the step are fastened one above the other, and that the perforations (9) of the one flange face on the perforations (9) are aligned in the overlapping flange surface. 5. Ventilated surface according to claim 4, characterized in that each flange surface (8) has been formed by that an edge part of the sheet has been bent over by an angle of at least. 6. Ventilated surface according to one of claims 1-5, characterized in that it is part of the corrugated bottom of a silo.