RU2077384C1 - Device for individual scouring of grains - Google Patents

Abstract

FIELD: devices for grain scouring. SUBSTANCE: device has aspiration system, loading-unloading system and scouring appliance which consists of lower portion made in form of revolving emery disk and upper portion made in form of modules located radially and rigidly secured in appliance; they have housing with one or several passages where plates with flexible working members are arranged for control of scouring slit. EFFECT: enhanced efficiency. 3 dwg

Description

 The present invention relates to the milling industry.

 It is known that to obtain high-grade flour in flour milling, grain is subjected, for example, to dry peeling before grinding. At the same time, peeling devices are widely used. When used for the process of “dry” peeling of pastes with rigid working bodies, a significant amount of under-processed or crushed grains is always observed, since a peeling gap for passing grains is formed by two hard surfaces (AS USSR N 1747148, class B 02 V 3 / 00).

 It is necessary that the width of the peeling slit, equal to the distance between the surfaces of the emery discs, is adjusted to the individual grain sizes. For this, peeling shelves with elastic working bodies are used (A.S. USSR N 1650246, class 02 V 1/08). But even these devices do not allow to process all grains without crushing, because all the grains in the process of peeling are in an unorganized, chaotic flow, and the possibility of regulating the process of peeling is limited by the rigidity of the elastic working body.

Closest to the proposed invention is a device for individual peeling of grains, taken as a prototype (Prince Ilchenko, V. I. "Mill, groats and elevator machines." M. Zagotizdat, 1938, p. 264). This device has elastic working bodies installed in the peeling channels, which allows you to process grains in an organized flow and to regulate the peeling process, regardless of the stiffness of the elastic element. The device consists of a device for peeling, aspiration systems and loading and unloading. The peeling device consists of a rotating emery disc, steel plates, planks and rows of frames forming grouped into three peeling channels, located somewhat obliquely at different angles to the radius of the circumference of the entrance to the peeling channels. Moreover, the angle of inclination of the axis of the first along the rotation of the emery disk of the husking channel is 15 ^o . Planks with frames worn on them, inside which rubber tubes pass, are supported on one side by a ring that can move progressively up and down using a single centralized mechanism for regulating the peeling gap. The other ends of the strips rest on the stationary shell of the device. The rubber tubes located inside the frames set their position depending on the thickness of the passing grain and create a corresponding pressure on it. The grain moves from the center of the device to the periphery along the peeling channels formed by the emery disc, steel plates and frames.

 The disadvantage of this device is that its device for peeling is equipped with a single centralized mechanism for regulating the peeling gap. In this case, the peeling slot is installed at the same time and equally in all peeling channels, which does not allow to differentiate the regulation of the process of peeling of grain by peeling channels. And since all three peeling channels grouped in the peeling device are installed at different angles to the radius of the circumference of the entrance to the peeling channels, then the speed of passage of the grain will be different and different from optimal, at which the most effective peeling of the grain occurs, which sharply reduces the efficiency and quality of the individual peeling process grain. The disadvantage is the complexity and detail of a single centralized mechanism for regulating the peeling gap. The presence of a spindle, handle, ring, chain, sprockets, sprocket in it reduces the reliability and operational characteristics of the device as a whole. In addition, the peeling device for repairing or replacing any worn part requires complete disassembly of this device.

 The basis of the invention is the task of increasing the processing efficiency and grain quality.

 The problem is solved by eliminating these shortcomings, namely, by differentiating the adjustment of the process of peeling grain and cereals, simplifying the design of the device for peeling, increasing the maintainability of the device due to the fact that the device for individual peeling of grains, including aspiration and loading-unloading systems and a device for peeling , consisting of a lower part in the form of a rotating emery disc and an upper part containing strips with flexible working elements located from them, according to and According to the invention, the upper part of the peeling device is made in the form of separate radially arranged modules rigidly fixed in the device, each module consisting of a housing with one or more channels in which the stripe slit with flexible working elements are arranged to regulate the peeling slot.

 The essence of the proposed device is illustrated by drawings, where in FIG. 1 is a general view of the device, in FIG. 2, section AA, in FIG. 3 module.

 The device for individual peeling of grains has a device for peeling placed inside the device 1 and containing a rotating emery disk 2 and several individual modules 3, rigidly mounted in the device 1. Each module 3 consists of a housing 4, in which there are peeling channels 5, with installed them with strips 6, pivotally connected by means of pins 7 with adjusting screws 8, which can be moved and fixed with the help of legs 9 and nuts 10. A number of frames 11 are put on the strips 6, inside of which rubber tube 12. Moreover, the frame 11 elastically interact with the rubber tubes 12 with the possibility of moving up and down relative to the strips 6 and thereby relative to the surface of the emery disc 2.

 The device operates as follows. In each peeling channel 5, with the help of adjusting screws 8, shafts 9 and nuts 10, the necessary size of the peeling gap is established between the frames 11 and the emery disc 2 both at the input B and at the output B.

 Untreated grain is fed into the peeling slot along arrow B and moves under the influence of centrifugal force along the peeling channels 5 formed by the walls of the cases 4 of modules 3, rows of frames 11 and a rotating emery disk 2. At the same time, in each peeling channel 5, the rubber tube 12 presses the frames 11 and sets their position depending on the size and individual characteristics of the passing grain, thereby creating the corresponding individual pressure on each grain and allowing the grain of any size to be constantly in contact Xia disc 2 with emery.

 The grain, moving along the peeling channel 5 towards the exit B under the influence of the frames 11 and the emery disk 2, turns to the emery disk with its different sides and undergoes uniform peeling of the shells.

 The inventive device allows you to adjust the peeling gap individually and differentially for each peeling channel separately. This is necessary due to the fact that all peeling channels are at different angles to the radius of the emery disk 2 at input B, and at the same time, the grains passing through the peeling channels have correspondingly different speeds, different from optimal, at which the most effective peeling of grains occurs.

 The proposed device also eliminates the need for a complex centralized mechanism for regulating the peeling gap, and this greatly simplifies the design of the device as a whole.

 In the inventive device, the device for peeling is a set of several separate modules, pre-assembled and adjusted. This significantly increases the maintainability of the device and facilitates its maintenance during operation. If one of the modules fails, it is easy to dismantle it from the device and install a new module.

Claims (1)

1 Device for individual peeling of grains, including aspiration and loading-unloading systems and a device for peeling, consisting of a lower part in the form of a rotating emery disc and an upper part containing strips with flexible working elements located on them, characterized in that the upper part of the device for peeling is made in the form of separate radially located modules rigidly fixed in the device, with each module consisting of a housing with one or more channels in which are located the ability to control the peeling slit of the strap with flexible working elements.

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