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The Speading Pattern of Ambilateral, Cogged Belted Plot Fertilizer Distributors
39-41Views:81The mechanization of fertilizer distribution in the case of different types of fertilizers often poses problems. As a result, I have designed and constructed a brand new type of plot fertilizer distributor. This machine of moderate price can be controlled easily; it provides accurate distribution and versatility. The main part of this machine is an ambilateral cogged belt. I briefly present the operation and the advantages of cogged belts.
I investigated the spreading patterns at the front and the end part of the experimental plot. I demonstrate a method never seen so far in the investigation of spreading patterns. My method also shows marginal divergences and flat wedge effects in spreading patterns. -
The Development of a Plot Fertilizer and Distributor, Analyses of How it Works
35-38Views:84stribution of the different types of fertilizers is essential. In my study, I recommend a solution for the mechanization of fertilizer distribution on probe parcels. I have designed and constructed a new plot fertilizer distributor. This machine of moderate price can be controlled easily; it provides accurate distribution and versatility. In my paper I give an outline of its basic principles of operation.
The spreading pattern of the complete plot fertilizer distributor was investigated on the top of a test-desk. I constructed a test-desk, which has 16 collecting trays in transversal direction and 1o collecting trays in longitudinal direction. I developed a new method for data interpretation. A map of distribution was designed to process the data of the measured 16o trays. In the distributor, a map precisely traced the pattern of granule distribution and the amount of fertilizer as well. After this, I defined the transversal and longitudinal coefficient of variations for spreading. On the basis of my investigations I can conclude that the plot fertilizer distributor has excellent, even spreading (longitudinal and transversal) patterns. -
Examination of the angle position on the cone dispenser
204-207Views:104The most important distributing construction of small plot seed-drills and fertiliser dispensers is the cone dispenser. The cone dispenser can operate based on simple gravity or with an Oyjord-type cone-cell or Hege-type cone-belt structure. The unevenness of spreading of each type is significantly influenced by the aberration of the vertical angle position of the cone dispenser. An approximate method was improved modelling of the fault of the cone dispenser. In my article, I will provide information about the essence of the model and its derivations.
On the model, I cover the cone piston with a theoretical net and at random scale between each scale interval I count the forces acting on the grain and the movement of the grain. If I set the scale of the net close enough, with good proximity, I get the whole orbit. The unevenness of dispensing can be calculated from the position of the grains getting to the bottom of the cone in case of different geometric data. My measurements imply that an approximate method is able to model both the tendency and the value of the deviation caused by the fault of the angle position. Both the theoretical model and the measurement prove that 2-3° deviation results in significant change in the unevenness of dispensing. -
Approximate Model for Examination of Cone Dispenser Eccentricity
47-49Views:114The most important distributing construction of small plot seed-drills, fertiliser dispensers is the cone dispenser. The cone dispenser can operate based on simple gravity or with Oyjord-type cone-cell or Hege-type cone-belt structure. The unevenness of spreading of each type is significantly influenced by the feeding roll above the cone and the misalignment of the cone dispenser. On designing, preparing and setting I realised that this job could be done much faster and more precisely if there would be model for testing the misalignment of the cone dispenser. In my article I will provide information about the essence of the mathematical model and its derivations. For the calculations I prepared a chart program in Microsoft Excel.
In order to test the computed model I made experimental examinations. I put together a test bench for the measurements. I revealed that the mathematical model describes the unevenness of spreading caused by misalignment. In addition, I discovered that even a misalignment of 0.25-0.5 mm can be pointed out by measurements and is in proportion to the variety factor determined theoretically.