RU2060825C1 - Machine for grain shelling - Google Patents

Abstract

FIELD: grain-processing industry. SUBSTANCE: machine for grain shelling has housing, rotor with blades disposed inside it, charging fixture, aspiration channel and fixture for limiting grain displacement in housing including at least two reflectors made movable for ensuring uniform decrease of exhaust section of housing as well as full opening of the latter. The housing is made many-sided. EFFECT: facilitated manufacture. 2 dwg

Description

 The invention relates to grain processing technology and can be used to separate mineral surface contaminants and shells of grain.

 Known peeling machine containing a cylindrical body, a rotor with pests, a loading device, an aspiration chamber and a device for limiting the movement of grain in the housing, made in the form of a fixed annular reflector mounted at the outlet of the housing.

 During the operation of the known machine, grain is fed through a loading device into a cylindrical body and discarded by pests to its inner surface. Due to the reflector, which delays the free exit of grain from the housing, when the rotor rotates, an annular layer of grain is formed in which the grains move relative to each other while compressing the grain by centrifugal forces. As a result of the friction of grain against grain, intensive peeling occurs. When exiting the housing, peeling products are separated by an air stream in an aspiration chamber.

 The disadvantage of this machine is the inability to control the degree of peeling directly during operation. In addition, when processing pre-moistened grain in front of the reflector, sticking of peeling products occurs, where microorganisms develop that pollute peeling products and reduce their quality.

 Closest to the proposed is a peeling machine, consisting of a cylindrical body, a rotor with pests, devices for restricting the movement of grain in the body, made in the form of a reflector with cutouts and equipped with a shutter to regulate the degree of peeling.

 The machine works as follows: the grain entering the machine is distributed during the rotation of the rotor along the inner surface of the housing with a uniform annular layer, the thickness of which is regulated by the position of the shutter. Under the influence of centrifugal and shear forces, peeling of the grain occurs, and peeling products are removed from the machine body through cutouts in the reflector.

 The disadvantage of this machine is the unevenness of peeling of the grain, associated with the difficulty of mixing the annular layer due to its uniform compaction as a result of the action of force factors arising from the rotation of the rotor. In addition, the peeling products from the body enter the suction channel through a cutout in the reflector controlled by the damper in a narrow stream directed to one of the walls of the suction channel, which reduces the efficiency of separation of the peeling products by the air stream. To prevent sticking of peeling products at the junction of the housing and the reflector, the cutout in the latter must be made circular, which leads to a significant increase in its area and, consequently, a decrease in the thickness of the annular layer of grain and a deterioration in the quality of peeling.

 The objective of the invention is the creation of a machine for peeling grain, in which the reflectors are movable to ensure uniform reduction of the outlet cross section of the housing, as well as the complete opening of the latter, while the housing is multifaceted, which improves the quality of the peeling products.

 The aim of the invention is to improve the quality of peeling products.

 The goal is achieved in that in the proposed machine for peeling grain, comprising a housing, a rotor with blades located inside it, a loading device, an aspiration channel and a device for restricting the movement of grain in the housing, including at least two reflectors, the latter are movable to ensure uniform reducing the exhaust section of the housing, as well as the complete opening of the latter, while the housing is multifaceted.

 Improving the quality of peeling products is achieved by increasing the uniformity of peeling by mixing the annular layer of grain, eliminating the sticking of peeling products in front of the reflectors, as well as by operatively controlling the degree of peeling and the formation of a uniformly distributed grain flow at the outlet from the housing, which makes it possible to increase the efficiency of separation of peeling products in aspiration channel.

 Only the combination of essential features available in the proposed machine, allows to achieve the goal due to the fact that the reflectors are movable to ensure uniform reduction of the exhaust section of the housing, as well as the complete opening of the latter, while the housing is multifaceted.

 Figure 1 shows a machine for peeling grain; figure 2 a device for limiting the movement of grain in the housing.

 The machine for peeling grain (Fig. 1) contains a multi-faceted housing 1, a rotor consisting of a shaft 2, blades 3, auger 4 and a pulley 5. On one side of the housing there is a loading neck 6, and on the other a device 7 is installed to limit the movement of grain in the housing and the suction channel 8. The device 7 for limiting the movement of grain in the housing (Fig. 2) is a sectoral diaphragm shutter, consisting in this example of movable reflectors 9 mounted on the axes 10 and moving synchronously using the lever system gov (not shown).

 The principle of operation of the machine for peeling grain is as follows. The grain enters the loading neck 6 and is conveyed by the screw 4 into the machine body 1, where it is carried away by the blades 3 and discarded to the inner surface of the multi-faceted body 1. The movable reflectors 9, partially overlapping the internal section of the housing 1 at the outlet, contribute to the formation of a movable ring layer of grain in the body, in which the layer-by-layer motion of grains relative to each other occurs while they are compressed by centrifugal forces. Peeling of the grain is carried out due to the intense friction of the grain against the grain. By changing the position of the movable reflectors 9, it is possible to regulate the filling of the machine body, thereby changing the centrifugal forces and the processing time of the grain, and therefore the peeling intensity. Peeling products coming from the body into the suction channel 8 are blown by an ascending air stream that blows away light particles (shells, dust), and the grain falls down and is removed from the machine.

 The rotation of the movable reflectors 9 around the axes 10 is carried out synchronously, while ensuring a uniform (symmetrical) decrease in the outlet section of the housing (Fig. 2) at the outlet, and in addition to smoothly regulating the degree of peeling, it is possible to obtain a uniform annular (in cross section) flow at the inlet to the suction channel grain and thereby improve the separation of peeling products by air.

 During the operation of the machine, the adhesion of peeling products at the junction of the housing 1 and the movable reflectors 9 is prevented by fully opening the device 7, in which the peeling products located in the stagnant zone in front of the reflectors 9 are displaced into the suction channel 8. The versatility of the housing 1 allows achieving uniform peeling grain, since, by copying the multifaceted inner surface of the casing, the annular layer of grain, carried away by the rotor, periodically changes its thickness, as a consequence of this, the values the inertia forces, the degree of compaction of the layer, the friction between the grains, and the speed of the grains relative to each other. A continuous periodic change in all these parameters leads to satisfactory mixing of the annular layer of grain, which contributes to uniform peeling of the grain.

 The proposed machine for peeling grain can be used for peeling wheat, rye, barley in flour mills, cereals and feed mills.

Claims (1)

 A machine for peeling grain, comprising a housing, a rotor with blades located therein, a loading device, an aspiration channel and a device for restricting grain movement in the housing, comprising at least two reflectors, characterized in that the reflectors are movable to ensure uniform reduction of the outlet section case, as well as the complete opening of the latter, while the case is multifaceted.

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