The article has a classification of fodder shredders
developed on the basis of the analysis of the existing
technical means for the preparation of fodders. The
constructive technological scheme of the grinder for
coarse fodder in a pressed form is proposed. The
results of experimental studies in solving the
optimization problem-finding the optimal combination
of constructive-technological factors of equipment are
analyzed, in which a predetermined number of all
types of feed will be produced with a higher quality.
As optimization criteria, the following were chosen:
energy intensity, material grinding time, weighted
average particle length
The considerable share in prime cost of products of agricultural production is made, now, by power expenses. It promotes that the considerable attention is given power - both resource-saving to the equipment and technologies. Thus, the modern science is faced by a global task – creation of cars and tools of new generation, high-economic, highly productive, less power-intensive and metal-consuming. One of the most power-intensive processes of production of agricultural production is processing of the soil. In this article on the basis of numerous researches use of rotary motion of the soil-cultivating working body allowing to improve a design of tillage machines, to reduce metal consumption, power consumption, to increase quality of work is offered. In this article, we offer the device for preseeding processing of the soil on a frame of which the working bodies in the form of flat disks with sharpening working in the horizontal plane, but with the accounting of an angle of deepening of working body are in chessboard order established. Rotary motion which promotes fuller cutting of rhizomes of weed plants and to improvement of quality of preseeding processing of the soil is forcibly transferred to working bodies. Justification of the offered device, constructive and technological schemes of the tool, conclusions and offers are given in the article
The article reveals the main empirical factors that increase the efficiency of technological systems of grain harvesting. The article shows interrelation and subordination of empirical factors in the practice of operational reliability of grain harvesters, which underlies scientific research. We have defined the basic (key empirical factors) that allowed developing a conceptual model (paradigm) of the research. The article provides a technique establishing the rules of application of the method of expert assessments to identify organizational and technical factors that have the most significant impact on improving the reliability of grain harvesters
The article presents the results of the research of the
influence of preliminary treatment of garden beet roots
with electromagnetic fields of extremely low frequency
on the loss of dry and biologically active substances,
such as vitamin C and P-active substances, in the
process of long term storage. Garden beet roots of
Bordo 237 variety were the objects of research. The
objects of research were stored for 7 months at a
temperature of 0…+1° С and relative humidity of 90
%. Sampling was carried out every month during the
entire storage period. The treatment with
electromagnetic fields of extremely low frequency was
carried out using an experimental setup of our own
assembly. As a result of the conducted research it is
established, that the treatment of garden beet roots of
Bordo 237 variety with electromagnetic fields of
extremely low frequency before dispatching into
storage allows to decrease the losses of dry substances
by 4,1 % by the end of the 7 months storage period, and
also to decrease the losses of vitamin C by 14,8 % and
P-active substances by 15,1 %. The data obtained can
be used to develop new or improve existing
technologies of garden beet roots storing
We have made calculations using the values of dung delivered after the analysis of laboratory research of the soil and irrigation water delivered with organic fertilizers. Based on the data on values of hydraulic resistance coefficients of mixer elements, mixing chamber and diffuser, we found diameters of pressure pipelines, reduced head of NGPR mixer, velocity of flow discharge from mixing nozzles and the mixing chamber. According to the design data of the pump head values, those of the mixer head, the head on inlet into the mixer and head in a reservoir of constant pressure a possibility was received to specify values of factors under studies on location of irrigation system and to test the design data with the help of the experimental value received. A low head system with hydraulic and geometric parameters of mixing is recommended for small farms
The urgency of the task in creating a reliable plant protection system is the improvement and development of new technologies for spraying crops on the basis of fundamentally new agricultural requirements at a higher quality level, increasing productivity, reducing energy costs and greening protective measures. Pneumatic slotted sprayers have great design capabilities allowing obtaining operating parameters necessary for the specific task of the sprayer. In this regard, we have proposed a technological scheme of the sprayer in the garden-vineyard version. To do this, the sprayers are placed in pneumatic ducts of the fans mounted on the sprayers. It is possible to reduce energy and resource costs, to achieve high quality indicators of the process and to increase the level of environmental friendliness by developing technical means for ultra-low-volume spraying. The principal novelty in solving the problem of ultra-low volume spraying is the use of KubSAU design pneumatic sprayers on the sprayer, and the scheme of the technological process, allowing the reduction of the working fluid and pesticides doses rate, resulting in reduced operating costs to support operations: preparation of working fluids and filling the sprayers. To process two rows simultaneously, it is possible to use sprayers equipped with two centrifugal fans with the installation of pneumatic slit sprayers with fixation in the ducts that they overlap, forcing the air from the fan to pass through the atomizer body, mixing with drops of working fluid. In this case, the speed of the air-droplet jets increases and more efficient use of the air jet from the fan occur. Along with the use of sprayers, equipped with KubSAU design pneumatic sprayers, to combat pests and diseases, we propose to use a sprayer to combat weeds in the trunk area of perennial plantations. Thus we have a family of ultra-low volume sprayers with pneumatic slotted sprayers of the Kuban State Agrarian University design
We present results on proving parameters of the device for maintaining uniform flow of liquid in hydraulic row sowing machine for seedling plants. Main difference between row sowing in greenhouse and in field is 10 to 20 times less width between rows. Existing sowing machines (because of little width between rows) can only perform scattered sowing. A method and a scheme of the device for maintaining uniform flow of polydispersed system (working liquid – seeds of seedling plants) are theoretically proved. Parameters of the device for maintaining uniform flow of polydispersed system (working liquid – seeds of seedling plants) are experimentally proved. We have also defined the effect of pipe’s position in the tank on flow of polydispersed system out of it and the effect of polydispersed system parameters (working liquid – seeds of seedling plants) on peculiarities of hydraulic sowing technological process. Testing the experimental row sowing machine for seedling plants determined that this machine adequately performs sowing process and increases productivity 8.3 times compared to manual sowing
Slope land (ravines, gullies, mountain areas) for many countries of the world are important areas of economic activity, and for some they are the only living space. In the mountainous areas there are cereals and feed, fruit, citrus, nut, berry and essential oil crops, grapes, tea and many others. On slope lands, soil preparation by terracing is widely used. The article considers modern technologies and machines for the construction of terraces in order to create protective and fruit plantations on them and to involve new areas in agricultural turnover. There are two main ways to create terraces: hinged and rifled. Most often, when terracing on tractor-passable slopes, various plows and graders (floor terraces) are used, and on tractor-passable slopes there are universal bulldozers and terrasers (rifled terraces). The shuttle plow PCHS-4-35 and revolving plows are especially convenient for the device of floor terraces, with the help of which it is possible to significantly increase labor productivity by reducing the time for idle runs. For rifled terraces, we use a large complex of machines, the most productive of which are: terraser-Ripper TR-2A; terraced equipment TK-4; terraser T-4M, etc. The use of the proposed complex of machines in the construction of raised and rifled terraces will help to increase productivity and involve new lands in agricultural turnover, which will ultimately increase food security of the Russian Federation
Due to the disconnectedness of production processes, prevention of soil degradation and plant diseases, as well as the difficult establishment of functional dependencies between the parameters of the working bodies and the physicomechanical properties of the soil, the richness of foreign technology, there is the problem of creating innovative structural and technological solutions for basic soil tillage including for the purpose of import substitution. To solve it, KubGAU has developed: “Multifunctional plow” (patent of the Russian Federation No. 2618342); “Plow with rotary bar” (utility model RF patent No. 184196); “Multifunctional plow with a rotary bruce” (positive decision on the patent application of the Russian Federation). Formal models, schemes and descriptions are given
For further increase in production of fruit products, there are long-term plans of development of agriculture of the Russian Federation provide laying of new gardens of intensive and superintensive types. In this regard, development of slope lands and their use under gardens is a current social and economic problem. In the Kabardino-Balkarian Republic there are over 10 thousand hectares of intensive and superintensive gardens now. Therefore, large corporations, as well as medium and small business are engaged in production of fruit. One of problems which producers of fruits face it is the shortage of the equipment on care of row-spacings and spaces around fruit plantings. The mechanized technologies of flat gardening are a little effective in the conditions of slopes where the main limiting factor is the soil fertility. At the same time, the issue of increase in fertility of the soil in space around fruit plantings, improvement of the water and food modes of fruit plantings on slope lands is particularly acute. Thus, improvement of technology and development of a new design of the unit, providing performance of several interconnected technological operations for processing of row-spacings and space around fruit plantings, preservation and increase in fertility of soils on slope lands is relevant in the conditions of mountain and foothill gardening Central the North Caucasus. As a result of the carried-out analysis of technological processing of row-spacings and space around fruit plantings and results of theoretical researches (as criterion of optimization) the quality of dyeing of the soil is accepted. Speed of movement of the unit, angular speed of rotation of a mill and the angle of installation of knives have the greatest impact on criterion of optimization. As a result of carrying out a multiple-factor experiment, we have established the optimum values of the specified factors providing the maximum quality of dyeing of the soil