NO141259B - BENEFITS OF A MATERIAL MIXTURE - Google Patents

Description

The present invention is based on a distributor, provided with an inlet for a granular or powdered material and arranged to discharge into the upper part of a silo, as well as intended for uniform distribution of a material mixture, such as e.g. a premix, in the silo.

A pre-distributor consists of a device that can be placed on a pre-silo, and whose task, when a pre-mix is filled in the silo, is to distribute the pre-mix in the silo so that the pre-mix will be homogeneous in the silo.

One of the most difficult parts to resolve in the treatment process from pre-preparation until feeding the animals is to maintain a good homogeneity in the pre-mix, and thus prevent a separation of the various components in the mixture, which especially tends to happen with filling the silo. The tendency to separation is primarily influenced by the species and the filling method. The lining can e.g. be a crushed or ground mixture of threshed grain, soya cakes, rapeseed, etc.

Until now, so-called central filling has been used. This takes place through a central, vertically placed pipe, and the lining forms a cone underneath with an upward-pointing tip in the middle of the silo. This method results in the feed collapsing against the silo walls, during which physical separation of the different components of the premix occurs. Experiments carried out, among others, by the Institute of Agricultural Technology in Ultuna, Uppsala, show that the current method of filling silos produces large separation effects on the forage. If, therefore, different pre-components have a connection with specific weight or are located in different size fractions, the composition of the feed is systematically affected by this separation, which directly does not produce the desired result when the feed is removed from the silo.

The purpose of the present invention is to remove these disadvantages. The distributor according to the invention is of the kind where the distributor consists of a housing with an inlet for the mixture and a number of fixed outlets which mainly open vertically into the upper part of one and the same silo, and the distributor according to the invention is characterized by a damper arranged in the housing for division of the mixture so that it is simultaneously and evenly distributed on the different outlets.

In a preferred embodiment of the invention

the damper's setting is adjustable, so that this setting can be changed following a change in the composition of the material mixture.

An improved homogeneity of the material mixture in the silo is achieved if a displacement body is inserted in each outlet which appropriately expands downwards. The displacement body has a vertical section in the form of an up and down V, and can be made up of a conical body that sits centrally in the outlet, or of a ridge that extends across the outlet and divides its cross section in the middle.

The invention shall be described in more detail in the following with reference to the attached drawings which show an embodiment chosen as an example of the present advantages. In the drawings: Fig. 1 is a side view of a silo with a partially cut away wall where a front distributor is placed on the silo. Fig! 2 is a section along the line II-II in fig. 1, and Fig. 3 is a section on a larger scale along the line III-III in fig. 1.

In fig. 1 denotes a silo which is carried by a stand 2. Above the silo 1, a pre-distributor 3 is placed into which a line 4 opens, through which a pre-mix is blown into the pre-distributor. This latter consists of a damper housing 5 in which there is a damper 6, which is pivotable at its lower end about a horizontal axis, and is thereby adjustable. The damper 6 divides the housing 5 into two receiving chambers A and B. The lower part of the damper housing passes into four distribution boxes 7, which with outlet 8 open into the top of the silo.

Fig. 2 and 3 show a damper 9 fixed in each outlet 8 which consists of two plates which form an angle with each other and in turn form a ridge which extends across the respective outlet and divides it in the middle. A screw 10 which passes through the outlet 8 diametrically can lock the damper 9 in the desired setting position.

Instead of the damper 9, a conical body can be arranged which sits centrally in the outlet 8 with the tip facing upwards. The premix then leaves the outlet 8 in the form of an annular stream.

The device shown in the drawings works in the following way:

A premix is blown by a fan through the line

4 and reaches the damper housing 5. Here, the premix is distributed into two equal parts of the damper 6, which is adjusted accordingly for this purpose. Depending on the nature of the premix and the necessary deflection of the flow direction of the transport air, the setting of the damper will be different. Due to the equal division of the premix produced by the damper, chamber A receives one half and chamber B the other half of the premix. In this way, the distribution boxes 7 will each receive a quarter of the premix. Finally, the premix flows out through the outlets 8 in the form of eight equal portions. With this successive division of the premix, an even distribution of the premix over the cross-sectional area of the silo is achieved which is acceptable for practical use.

The following table shows the weight of a number of samples that were taken when emptying a silo that was filled using a distributor according to the present invention. The examination was carried out over 31 days, and the samples were later examined at the Institute of Agricultural Technology in Ultune, Uppsala.

Claims (1)

Advantages for a mixture of granular or powdered material, for example a pre-mix, which advantage consists of a housing (5) with an inlet (4) for the mixture and a number of fixed outlets (8) which mainly open vertically into the upper part of a and the same silo (1), characterized by a damper (6) arranged in the housing for dividing the mixture so that it is simultaneously and evenly distributed to the different outlets.