RU2216258C1 - Device for hulling of cedar nuts - Google Patents

Abstract

FIELD: devices for hulling of cedar nuts. SUBSTANCE: device has body, loading device and rotor with radial channels. Device is also provided with conical abrasive disk and disk with central hole, ejector with mixing chamber located along tangent to internal element of cylinder made with holes. Located on conical surface of the second disk are spiral channels for location of nuts in a row and directed to side of disk rotation. EFFECT: increased yield of cedar nut kernels. 2 cl, 3 dwg

Description

 The invention relates to forestry, to devices for processing nuts, in particular for breaking the shell and preserving the kernels.

 There is a description of devices for grinding and sorting solid materials, which are designed to crush solid materials to the desired size, in particular a disintegrator, in which the working bodies are two discs rotating in opposite directions, with fingers placed around circles. Steel fingers of disks enter each other. The incoming material makes a zigzag motion, repeatedly subjected to crushing when interacting with the fingers [V.M. Lekas, A.V. Lekas. "Processes and apparatuses of the chemical industry." Textbook. M .: Higher school, 1977].

 The disadvantage of these devices is the destruction of the original structure by various types of deformations.

 A device for crushing seeds [A.S. SU 1662479 A1, MKI A 23 N 5/002], selected as a prototype, comprising a housing, a loading device, a rotor with radial channels with a height decreasing from the center to the periphery, and with a drive.

A disadvantage of the known device is significant masses rotating with a large angular velocity (25-50 s ^-1 ).

 The invention solves the problem of breaking the shell while preserving the kernels of nuts and increasing the yield of kernels of pine nuts.

 The technical effect is to reduce the thickness of the shell of nuts and its destruction due to abrasion and subsequent repeated interaction of nuts with the inner surface of the cylinder when the nuts move along a spiral path. The speed of movement of the mass of nuts is ensured by communicating to it the kinetic energy of the ejector.

 The specified technical result in the implementation of the invention is achieved by the fact that in the device for breaking the shells of pine nuts, comprising a housing, a loading device, a rotor with radial channels, according to the invention it comprises a conical abrasive disk and a disk with a central hole, an ejector with a mixing chamber located tangentially to the inner generatrix of the cylinder, made with holes, and on the conical surface of the second disk there are spiral-shaped channels for placing nuts in one p d, aimed in the direction of rotation of the disc.

 The device is equipped with adjustment and depreciation devices. The movement of nuts is carried out between the convex conical abrasive disk rotating in opposite directions and the disk with a central hole, on the concave conical surface of which there are spiral channels for placing nuts in one row, the depth of which is 0.6-0.8 of the average nut width, and the spiral channels directed towards the rotation of the disk, then through the ejector with a mixing chamber located tangentially to the inner generatrix of the cylinder with holes in the collection tank.

To ensure the integrity of the pine nuts kernels, the installation is equipped with adjustment and shock-absorbing devices that regulate the gap between the disks,
To increase the productivity of the device, air is supplied under pressure into the narrowing channel of the ejector.

 The movement of nuts along spiral channels is carried out by the driving force created as a result of the interaction of nuts with an abrasive disk and a disk with spiral channels rotating in opposite directions, which constitutes weight forces when the nuts move on a slope with an inclination angle equal to half the taper angle of the disks, under the action of inertia forces and the kinetic energy acquired by nuts as a result of the pressure differential created by the ejector. The nuts are fed into the spiral channels due to the support of the mass of nuts in the loading device, the tangential entry of the nuts into the spiral channels as a result of the nuts being pushed due to the rotation of the discs in opposite directions.

 Figure 1 shows a device for breaking the shell of nuts, longitudinal section; figure 2 is a section aa; figure 3 is a section bB.

 The device for breaking nuts contains a loading hopper 1, a housing 2, in which there is a rotating conical abrasive disk 3 driven by an electric motor 4 and a conical guide disk 5 driven by an electric motor 4 and a central hole 6 communicating with the suction chamber 7 of the ejector 8. In the ejector 8 along the tapering channel 9, air is supplied from the compressor 10. The mixing chamber 11 of the ejector 8 is located in the cylinder 12 with holes and is directed tangentially to the inner generatrix of the cylinder 12, closed by a cover 13, in the lower part of the cat cerned located collection container 14. Disk 5 has a spiral channels with a depth of 0.6-0.8 average width of the nut extending from the periphery to the center (bore 6) in which the nuts are arranged in one row. Disks 3 and 5 have angular velocities different from each other, and rotate in different directions, while the disk 5 rotates in the direction that ensures that the nuts enter the spiral channels tangentially. The axial clearance between the disks is adjusted using the adjusting device 15 and the shock-absorbing device 16.

 The device operates as follows.

 Pine nuts from the hopper 1 enter the cavity between the body 2 and the disks 3 and 5. The disks 3 and 5, rotating in different directions, provide the nuts in the spiral channels in one row, and their advance due to the friction forces between the abrasive disk 5, nuts and channels of the disk 3, as well as due to the component of the weight force caused by the taper of the disk 5 and the suction effect of the ejector 8. Moving along the channel, the nutshell interacts with the abrasive disk 5, resulting in a decrease in the thickness of the shell or its local destruction. Getting through the central hole 6 into the suction chamber 7 of the ejector 8, the nuts acquire kinetic energy and when the nuts interact with the stationary cylinder 12, the shell is destroyed. This contributes to the spiral motion of the mass of nuts due to their exit from the mixing chamber 11, located tangentially to the inner generatrix of the cylinder 12. When the nuts move inside the cylinder 12, abrasive and small particles are removed through the holes in it. In the lower part of the cylinder 12, the mass of nuts loses the speed of rotational motion due to friction against the walls of the cylinder 12 and a drop in air pressure. The destroyed shell and kernels are collected in a container 14.

 The technical and economic advantages of the claimed device are to increase the quality of the destruction of nuts and increase the productivity of the installation.

Claims (2)

 1. A device for breaking the shells of pine nuts, comprising a housing, a loading device, a rotor with radial channels, characterized in that it contains a conical abrasive disk and a disk with a central hole, an ejector with a mixing chamber located tangentially to the inner generatrix of the cylinder, made with holes, and on the conical surface of the second disk there are spiral-shaped channels for placing nuts in one row, directed in the direction of rotation of the disk.  2. The device according to p. 1, characterized in that it is equipped with adjustment and depreciation devices.

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