RU2182046C2 - Cylindrical pocket-type grain cleaner-wild oat grader (modifications) - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: the pocket-type grain cleaner has a cellular cylinder, chute, loading and unloading installations. The cylinder cell has the shape and dimensions of wild oat grains. Cell length l equals the maximum length of wild oat. The maximum width and depth of the cell are at distance a=0.4l from the rear wall and equal 1/5l and 1/8l respectively, they decrease in the direction to the rear and front walls to 1/10l and 1/16l respectively. The rear wall forms an angle of 90 deg. with the cylinder surface. The front and side walls form an angle of 110 deg. with it. The pocket-type grain cleaner is provided with a device in the form of an inclined plane forming angle α with the horizontal in the cylinder cross-section, perpendicularly installed on the plane are guide plates forming slope β with the horizontal in the longitudinal section of the cylinder proceeding from the following condition: φ, where α = β≥φ.-grain slope on the installation surface. The cellular cylinder is provided with a chute for long impurities, whose rear wall consists of cellular fixed part and upper concave movable adjustable part installed with its edge in the upper point of the cylinder circumference, or by 10 to 15 deg. to the right of it. The cylinder cell is wedge-shaped on the surface oriented towards the cylinder rotation. The cell length equals the maximum length of wild oat. The cell front wall, having length 1/5l, forms an angle of 20 deg. with the cylinder surface, and the rear wall- an angle of 60 deg., whose width and depth make up 1/2l. The cell rear wall is provided with a through hole. EFFECT: enhanced efficiency of the device and simplified construction of the cells. 2 cl, 4 dwg

Description

 Trier refers to grain cleaning machines that are widely used at post-harvest grain processing facilities and at enterprises of the bakery system for cleaning grain from long impurities (oatmeal).

 Known industrial oatmeal cylindrical trier, consisting of a honeycomb cylinder with standard cells, a tray for short grains and devices for loading and unloading grain (see Sokolov A.Ya. Technological equipment for grain storage and processing enterprises. - M .: Kolos, 1984 , p. 440-448). The cylinders of such a trier are used in the trier block ZAV-10.90.000A. (see Kulagin M.S., Soloviev V.M., Zheltov V.S. Mechanization of post-harvest processing and storage of grain and seeds. -M .: Kolos, 1979, p. 54-62).

 The disadvantage of the production of oatmeal trie is that the technological process of separation and purification of the material in it is associated with the removal of grains of the main short fraction contained in the initial mixture, usually 97%, by cylinder cells into the tray. At the same time, long impurities (oatmeal), the content of which in the initial mixture is 3%, are not taken out to the tray, but each time returned to the layer of the processed material, occupying the cells and rotating in a layer, they move and go off at the end of the cylinder. In the process of such separation, the processed material is enriched with grains of long impurities (wild oats) from 3% to 100%, which leads to a decrease in the cell utilization coefficient along the cylinder surface to zero and a significant decrease in the performance of the triera.

 A cylindrical trier with half-open oblong-shaped cells is known, which provides the technological process of separation and purification of the material in the trier with the removal of long grains by cells from the layer of the processed material into the tray, and the grains of the main short fraction are sieved under the layer through the hole in the bottom of the cell into the receiving device (see ed. St. 665954 (USSR). MKI. 07/13/12. Cylindrical trier. Urkhanov N.A., Abiduev A.A., Ozonov G.R. - Published in B.I., 1979, 21 )

However, such a trier operates under high-speed mode, when the working cylinder rotation speed n _slave is 2-3 times higher than the critical n _cr , i.e. n _pa > 2n _cr , and the loss of long grains (wild oats) from the cell in the upper part of the cylinder into the tray occurs with the help of the air flow from the pneumatic system of the triera. Therefore, such a trier has a relatively complex and fundamentally different design in comparison with the production one and cannot provide a change in the technological process of grain cleaning in the trier and increase its productivity under the existing operating mode.

 Known cell triera, which is created with the aim of improving the quality of separation of seeds by substantiating the design of the bottom, rear and front walls from the condition of removing grains of long impurities from the cell, rotating brush in a high-speed trie with a flexible working body. Therefore, the cell parameters are considered with respect to the maximum value of the coefficient of friction of the grains of grains of long impurities, ensure their removal from the cell and leave short grains in it for precipitation in the next section (see ed. St. 601058, USSR, MKI, V 07 B13 / 12, cell trireme, Tuaev M.V., Kuzmin M.V., Sosnovsky E.A. et al. Publ. B.I., 1979, 13).

 However, the cell does not provide the technological process of grain cleaning in trireme, in which long grains fall and are taken out by the cells in the tray, and the grains of the main short fraction could fall into the layer of the processed material and descend from the cellular surface at the end of the cylinder, i.e. in which the work is carried out by cells for the removal of grains of a long fraction contained in the starting material 33.3 times less than the short one.

 The closest in technical essence and the achieved result to the proposed invention is the existing production cylindrical oatmeal trier, including a honeycomb cylinder, a tray for short-grain grains, loading and unloading devices (see Sokolov A.Ya. Technological equipment of grain storage and processing enterprises .-- M .: Kolos, 1984, pp. 104-106).

 The disadvantage of the production of oatmeal cylindrical trie is its low productivity and high energy intensity due to the imperfection of the technological process of grain cleaning in trie. The existing cell designs that form the mesh surface of the triera, provide cleaning grain from oats by filling grains with a short fraction (wheat) and their removal from the layer to the tray, i.e. almost the entire number of grains of the processed material, because the content of the short fraction in the initial mixture is usually about 97%. At the same time, a long bring (oatmeal), the content of which in the initial mixture is about 3%, falls out, periodically occupying the cells, into the layer of the processed material. As a result, it is enriched with long impurities to 100% and the coefficient of utilization of the cellular surface along the length of the cylinder to zero decreases, which significantly reduces the performance of the trie.

 Thus, the technical task of the present invention is the development of devices - cylindrical triers, oats, which would allow you to change and create an energy-saving process for cleaning wheat grains from long impurities (oats).

 The technical result of the invention is to increase the productivity of the device and simplify the design of the cells.

The specified technical result according to the first embodiment is achieved by the fact that in the cylindrical trio-oats picker, consisting of a honeycomb cylinder, a tray, loading and unloading devices, according to the invention, the cylinder cells have the shape and dimensions of the grains of oats, the length l of which is equal to the maximum length of the oats, and the maximum width and the cell depth are at a distance of a = 0.4 • l from its back wall, and are equal to l / 5 • l and 1/8 • l, respectively, decreasing in the direction to the rear and front walls of the cell to 1/10 • l and 1/16 l, wherein the rear wall of the cell forms with the surface of the cylinder an angle of 90 ^o, and the front and side walls form with it an angle of 110 ^o, furthermore Trier provided with a device in the form of an inclined plane forming an angle α with the horizontal cross-sectional cylinder, in which guide plates are formed perpendicularly, forming an angle of inclination β with a horizontal in the longitudinal section of the cylinder from the condition α = β≥φ - the angle of inclination of the grain on the surface of the device, and the mesh cylinder is equipped with a tray for long impurities, the rear wall of which stands from the lower fixed and upper concave movable adjustable part installed with its edge to the upper point of the circumference of the cylinder or 10-15 ^o to the right of it.

According to the second variant, the indicated technical result is achieved in that in the cylindrical trio-oats picker, consisting of a honeycomb cylinder, a tray, loading and unloading devices, according to the invention, the cylinder cell has a wedge-shaped on the surface of the cylinder oriented in the direction of its movement, the length l of which is equal to the maximum the length of the oatmeal, the front wall of the cell, having a width of 1/5 • l, forms an angle of 20 ^o with the surface of the cylinder, and the rear wall - 60 ^o , the width and depth of the rear wall is 1/12 • l, and he and provided with a through hole, in addition, the trier is equipped with a device in the form of an inclined plane forming an angle α with a horizontal in the cross section of the cylinder, on which guide plates are formed perpendicularly, forming an angle of inclination β with a horizontal in the longitudinal section of the cylinder from the condition α = β≥φ while the honeycomb cylinder is equipped with a tray for long impurities, the rear wall of which consists of a lower fixed and upper concave movable adjustable part, set by its edge to the upper point of the circle of cyl Indra or 10-15 ^o to the right of it.

 Distinctive features of the proposed device options are new forms of cylinder cells and the relationship of their sizes, as well as the presence of new structural elements - devices in the form of an inclined plane with guide plates and a tray for long impurities.

The equality of the cylinder cell length to the maximum length of the oatmeal kernel is justified by the condition that all hard-to-separate oatmeal kernels, separated from the grain in trireme, have a length shorter by 0.5-1.5 mm from the maximum length l of 16 mm. They sink and freely (without jamming) lie in the proposed cells, because the cell parameters are made taking into account the shape and size of the oatmeal grain, the conditions of their stable absorption and location in the cell and their subsequent loss from them into the tray. In this case, an increase in the performance of the triera in the first embodiment occurs at the maximum width, the cells in _c = 1/5 • l, located at a distance of a = 0.4 • l from the back wall, decreasing in the direction to the front and rear walls to 1/10 • l, and the maximum depth h _c = 1/8 • l in this middle part, decreasing to the front and rear walls to 1/16 • l. The indicated cell parameters in the first version of the trimer, in accordance with the dimensions of the grains of oatmeal, create an elongated shape of a shallow cell, which ensures the removal of grains of oatmeal by cells from the layer of the processed material into the tray and maximum productivity of the cellular surface at the following values of the angles formed by the back wall to the cylinder surface - 90 ^o front and side walls to this surface - 110 ^o . Changes in the indicated cell parameters in the direction of decreasing or increasing lead, respectively, to a decrease in the performance of the oat screener or to a decrease in the efficiency of cleaning wheat grain from oats.

The rationale for the oriented wedge-shaped cell shape in the second embodiment of the device is made so that the oatmeal grains in the process of dropping with their sharp ends are guided by the side walls along the front wall having a width of 1/5 • l and forming an angle of 20 ^o with the surface of the cylinder to the rear wall with dimensions of width and depth 1/12 • l and an angle of 60 ^o with the surface of the cylinder. This wall is provided with a through hole formed during stamping of the cell.

The dimensions of the cell according to the second embodiment are justified from the following conditions ensuring the maximum efficiency of its operation: the width 1/5 • l of the front wall provides the necessary front to capture the layer of the processed material, the angle of 20 ^o to the surface provides the direction and location of the grain of oatmeal in the cell, the angle is 60 ^o and the dimensions of the back wall provide the condition for the oatmeal weevil to sink with its sharp tip into the through holes on it and the oatmeal will be removed from the layer to the tray: at 60 ^{o, the} oatmeal weevil at the time of descent is oriented by the long the hole, and its size 1/12 • l limits the size of the through hole and ensures that only the grains of wild oats are sinking with their sharp tips. Such a design and cell parameters in the second embodiment of the device provide the greatest productivity of the cellular surface and the efficiency of cleaning grain from oatmeal. When reducing these sizes, the condition of capturing (scooping) oatmeal grains from the layer of the processed material is violated, the efficiency of grain cleaning is reduced.

The rationale for the design of the back wall of the tray, consisting of the lower fixed and upper concave movable, is made on the basis of the study of the trajectory of the grain after separation from the cell and its utilization rate. The upper part of the tray, concave in a curve close to the grain path, allows you to set the edge of the rear wall to the upper point of the circumference of the oat-sampling cylinder at the existing speed (43 rpm) or to the right side of this point by 10-15 ^o and allows you to increase the cylinder speed to 50 rpm, providing an increase in the performance of the triera by reducing the loss of grains in the gap between the edge of the tray and the mesh surface with a kinematic regime of the cylinder P _p <P _cr .

 The angles α and β of the inclined plane and the guide plates of the trie devices provide an increase in the zone of the layer of the processed material or the filling of the cells and the speed of longitudinal movement of grains of the main short fraction, are justified from the conditions of movement of the material α≥φ on the surface of the device and contribute to an increase in the performance of the trie by expanding the location zone layer and increase the speed of longitudinal movement of the main material along the cylinder to the exit.

Together, the design features and new parameters of the cells for oatmeal, a tray for receiving long impurities, devices in the form of an inclined plane for moving and unloading grains of the main short fraction provide a change in the technological process of separating grain in a cylindrical trier-oats picker and thereby increase its productivity by 4 and more times with the existing mode of operation, i.e. when P _p <P _cr .

The proposed cylindrical trie-oats picker in comparison with the known technical solutions has the following design distinctive features:
- new forms of constructive work item
- cells, the shapes and sizes of which are set in accordance with the shape and dimensions of the grain of the oatmeal and ensure its stable subsidence and location in the cell, removal from the layer of the processed material and precipitation from it into the tray for long impurities;
- the relationship of the cell sizes, ensuring the removal of oatmeal grains from the layer of the processed material into the tray and the maximum productivity of the mesh surface of the triera;
- the presence of a device in the form of an inclined plane with guide plates mounted on it, providing an increase in the speed of longitudinal movement of grains of the main short fraction and the cell filling zone;
- the presence of the design of the tray for long impurities.

 Thus, the new combination of the listed structural elements, which are interconnected with each other, leads to the strengthening of the technical properties of the design of the cylindrical trio of the oat picker, which is reflected in the change and creation of an energy-saving technological process for cleaning grain in the trie and increasing its productivity by 4 or more times under the existing regime work according to the results of our study.

 Comparison of the proposed devices with other well-known technical solutions from the prior art for patent and scientific documentation revealed that the authors have not identified solutions that include a combination of features similar or equivalent to those claimed. This allows us to conclude that the proposal meets the criteria of "novelty" and "inventive step".

The essence of the proposed structures of the triers is illustrated by drawings, where Fig. 1 schematically shows a cross-section of a mesh cylinder for two variants of the trie, in Fig. 2 - a device in the form of an inclined plane (view A); in FIG. 3 - a cell for the first version of the triera: a) a longitudinal section of the cell, b) a transverse section, c) a top view; figure 4 - cell for the second variant of the triera: a) a longitudinal section of the cell, b) a transverse section, c) a top view;
The proposed cylindrical trio-ovine picker includes a cylinder 1 (see figure 1), the cellular surface of which is formed from cells 2, designed to fill the grain with long impurities (oatmeal) (position C) and their removal into the tray 3 (position D). The rear wall of the tray consists of a lower fixed and upper concave movable adjustable part 3 ', set with its edge to the upper point of the circumference of the cylinder or 10-15 ^o to the right of it.

 The cylinder 1 of the trier is also equipped with a device 4 in the form of an inclined plane forming an angle α with a horizontal in the cross section of the cylinder (see figure 1). On a flat base of the device 4, the guide plates 5 are fixed perpendicularly, forming an angle of inclination β with a horizontal in the longitudinal section of the cylinder from the condition α = β≥φ. A comb sieve 6 is fixed to the base of the device 4, designed to expand the grain layer in the first (lower right) quarter of the circumference of the cylinder 1 and provide an orienting effect on the oatmeal grains when sinking into cells 2 (Fig. 2).

According to the first embodiment of the device, cell 2 of cylinder 1 has the shape and dimensions of oatmeal kernels, the length l of which is equal to the maximum length of the oatmeal, and the maximum width and depth of cell 2 are at a distance of a = 0.4 • l from its back wall and are equal to 1 / 5 • l and 1/8 • l (see figa, b), decreasing towards the rear and front walls of cell 2, respectively, to 1/10 • l and 1/16 • l, the rear wall of cell 2 forms with the surface cylinder 1 angle of 90 ^o , and the front and side walls form an angle of 110 ^o with it (see figa, b). Cell 2 has a narrow oblong shape, oriented in the direction of movement of the surface.

According to a second embodiment of the device, cell 2 has a wedge-shaped shape on the surface of the cylinder, oriented in the direction of its rotation, the length of the cell l of which is equal to the maximum length of the oatmeal (see fig.4.c). The front wall of the cell 2 has a width of 1/5 • l and forms an angle of 20 ^o with the surface of the cylinder. Its width narrows toward the rear wall to a size of 1/12 • l, the depth of which is 1/12 • l. The rear wall of the cell 2 forms an angle of 60 ^° with the surface of the cylinder 1 and is provided with a through hole (Fig. 4), formed by a gap in the material during stamping and intended for the sharp tips to enter and capture the oatmeal. The hole does not allow grains to sink, because the size and curvature of the rounding of its ends do not create conditions for their entry or retreat into such a hole. The parameters of the rear wall and openings of cell 2 are made according to the size of the sharp tips of the oatmeal grains and provide the condition for their capture by the cells. On the cylinder 1 are fixed two retaining rings 7, based on 4 support rollers 8 with a rubberized ribbed surface. The rollers 8 and the drive 9 are mounted on the frame 10 of the triera. The drive 9 is connected to a flat belt 11.

 In addition, the trier is equipped with loading and unloading devices (not shown).

 The proposed device operates as follows.

 The source grain material to be cleaned of long impurities (oatmeal) is loaded into a mesh cylinder 1 through a loading device, which is rotated by means of a flat belt 11 through a drive 9.

 According to the first embodiment of the device, long impurities (oatmeal) stably fall into cells 2 and are taken out to tray 3 (see Fig. 1, positions C and D), and short grains of the main fraction (wheat) cannot stably enter into shallow oblong cells 2 (see figure 1, position B) due to their shape and insufficient depth. As a result, a short grain falls from the cellular surface of the cylinder 1 below the edge of the front wall of the tray 3 onto the device 4 in the form of an inclined plane. Guide plates 5 accelerate the longitudinal movement of grains along cylinder 1 to the exit. Short grains from the device 4 fall on the comb sieve 6, which contributes to the expansion of the layer in the lower right quarter of the circumference of the cylinder 1. Then the grain is unloaded through the unloading device.

 According to a second embodiment of the device, the sharp tips of long impurities (wild oats) are captured (set in) through the hole of cell 2. The hole does not allow the grain to sink into the main fraction due to the size and curvature of the rounding of its ends. When the cylinder 1 vibrates, long impurities fall out of the cells into the tray 3. The oats from the cell 2 fall out under the influence of gravitational forces, and with a certain increase in the cylinder rotation speed it can be provided by a known device - a rotating brush. Grain short fraction falls from the cellular surface of the cylinder to the device 4 and is unloaded, as described in the first embodiment of the device.

 Thus, the cells 2 proposed in conjunction with the inclined device 4 and the design of the tray 3 provide an energy-saving technological process in the existing trimers, in which long impurities (oatmeal), the content of which in the initial mixture is usually about 3%, are carried out by the cells in the tray, and Short grains of the main fraction, usually contained in the initial mixture of about 97%, fall on the inclined device 4 and accelerate in the longitudinal direction and exit at the end from cylinder 1.

 Such a technological process of grain cleaning in a cylindrical trie reduces the cell workload by removing grains of long impurities (oatmeal) from the layer to the tray by almost 30 times compared to the existing one, when the cells carry the main short fraction (wheat) into the tray. Due to such a change in the technological process and the design of the cells, the use of devices for receiving and moving impurities and grain, the productivity of the trie increases by 4 or more times under the existing operating mode. The development and creation of new oblong cells creates an opportunity to solve the problem of increasing the productivity of cleaning seeds from oats in a cylindrical trie.

 The present invention provides not only a rational technological process for cleaning wheat grains from long impurities (oats), but also simplifies the design of the cell, reducing its depth, and promotes the use of a more affordable method of "stamping" and manufacturing cells in a significantly cheaper sheet material in the conditions of local engineering plants. This is important in the current situation, when the economy of the Republic of Buryatia and other regions experience an acute shortage of cellular cylinders made of expensive sheet material 08 KP for cold stamping at the plant named after Frunze, Kharkov, and then from the cellular sheets are made of indented cylinders at the Voronezhzernomash plant. Significant transportation costs for the delivery of cylinders and triers to the place of use in the farms of Eastern Siberia make the triers very expensive machines. Therefore, the creation of a technology for cleaning grain from impurities on the basis of simplifying the design of working bodies and methods for their manufacture under local conditions is of great economic importance and will have a great economic effect. This allows us to conclude that the claimed invention meets the criterion of "industrial applicability".

Claims (2)

1. A cylindrical trier-oats picker, consisting of a honeycomb cylinder, a tray, loading and unloading devices, characterized in that the cylinder cell has the shape and dimensions of the grains of oats, the length l of which is equal to the maximum length of the oats, and the maximum width and depth of the cell are at a distance = 0.4l from its rear wall and are equal to 1 / 5l and 1 / 8l, respectively, decrease towards the rear and front walls, respectively, to 1 / 10l and 1 / 16l, while the rear wall forms an angle of 90 ^o with the cylinder surface, and front and side walls form with it an angle of 110 ^o, furthermore provided with a device Trier as an inclined plane forming an angle α with the horizontal cross-sectional cylinder, on which are set perpendicular to the guide plates forming the angle β with the horizontal in the longitudinal cross section of the cylinder from the condition α = β≥ φ, where φ is the angle of inclination of the grain along the surface of the device, and the honeycomb cylinder is equipped with a tray for long impurities, the rear wall of which consists of a lower fixed and upper concave movable adjustable part mounted at its edge th to the upper point of the circumference of the cylinder or 10-15 ^o to the right of it. 2. A cylindrical trio-oats picker, consisting of a honeycomb cylinder, tray, loading and unloading devices, characterized in that the cylinder cell has a wedge-shaped surface on the surface oriented in the direction of its rotation, the length l of which is equal to the maximum length of the oats, the front cell having 1 / 5l width, forms an angle of 20 ^o with the cylinder surface, and a rear angle of 60 ^o , the width and depth of which is 1 / 12l, with the rear wall of the cell having a through hole, in addition, the trier is equipped with a device in the form of an inclined plane, specifying an angle α with a horizontal in the cross section of the cylinder, on which guide plates are formed perpendicularly, forming an angle of inclination β with a horizontal in the longitudinal section of the cylinder from the condition α = β≥φ, where φ is the angle of inclination of the grain along the surface of the device, while the honeycomb cylinder is equipped with a tray for long impurities, the rear wall of which consists of a lower fixed and upper concave movable adjustable part installed with its edge to the upper point of the circumference of the cylinder or 10-15 ^o to the right of it.

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