SU745921A1 - Press for squeezing out vegetable oil from oil-containing material - Google Patents

Description

(54) PRESS FOR SPIN OF VEGETABLE OIL FROM OIL-CONTAINING MATERIAL

The invention relates to the oil industry.

A press is known for pressing vegetable oil from an oil-containing material, containing a power cylinder and a screw shaft, on which the feed coil is reinforced, which is inserted; turns of j. jen and located between the last nozzles, as well as receiving and unloading chambers tl,

In this device, the development of three-sided prisms along a helical line against pressure coils causes an additional reverse flow, as a result of which the pressure on the coils increases, the maximum pressure increases and the axial forces decrease the performance of the device.

The aim of the invention is to increase productivity by reducing the resistance to movement of the pulp flow.

The goal is achieved by the fact that the nozzles have two bases, each of which is made in the form of an equilateral triangle with arcuately beveled vertices, the arcuate sides of the bases towards the unloading chamber are enlarging, and the straight lines are reduced.

S The base of each yasgka, located on the side of the discharge chamber, is offset from the base, located on the side of the receiving chamber, by an angle of 3-45 ° along

10 in the direction of the helix of the pressure coils, wherein the ratio of the lengths of the arcuate and straight sides is 1: 28-Is 10.

FIG. 1 shows a press, a longitudinal section; in fig. 2 is a cross-section A-A in FIG. in fig. 3 is a cross-section of BB in FIG. 1, in FIG. 4 - cam nozzle in axonometric view.

20 The press contains a priming chamber 1, a grain cylinder 2, inside of which there is a screw shaft 3 with feed J turn 4, bushings 5, coils of pressure, cam nozzle 7,

25 basendeys, each of which is made in in; ide of an equilateral triangle 8 with arcuately beveled vertices and having arcuate / 9 and straight lines 10

30 sides, offset one relative to the other at an angle and forming the screw surfaces of the three small boom edges 11 and three large side faces 12, which with the mirror cylinder 2 form three channels 13 and a discharge chamber 14.

The press works as follows.

The oil-containing material is continuously fed into the receiving chamber 1, where it is captured by the feed coil 4, supplied to the pressure coils 6 and part of the oil is pressed in the cylinder cylinder 2. Then the partially degreased material enters the cam nozzle 7 with bases in the form of an equilateral triangle 8 displaced one with another at an angle where one material flow is divided into three flows in three channels 13 formed by the inner surface of a grain cylinder 2 and large lateral faces 12, as a result th decreases overall maximum pressure in the press and pressure on the individual coils, which causes the acceleration of the material advancing to the next round of pressure and the cam tip. When ytom intensive mixing and squeezing of oil from the compression material occurs, and the resulting cake exits the press through the loading chamber 14 with a homogeneous structure, which significantly improves its quality before extraction.

Such an embodiment of the press with the installation of cam nozzles with smooth curvilinear side edges directed along the helix of the pressure coils provides minimal resistance to the material particles moving along them while there is no additional countercurrent of material arising from the shape

cam nozzle, and contributes to increased productivity of the press to reduce material debris, reduce wear and tear of workers and reduce energy costs,

When the material passes from the channel of the pressure turns to the channels of the cam nozzle, due to the separation of one flow into three, some breakdown of the secondary structures of the material takes place at the place of separation of the flows. Since the free volume of the nozzle channels is significantly greater than the free volume of the pressure coil, the total pressure and the axial forces in the nozzle and the pressure coils preceding it are significantly reduced, which also contributes to an increase in productivity and reduces the density of the meal, decreases. load on the shaft and thrust bearings .-

The use of the proposed press, for example, when pressing the pulp of sunflower seeds, will increase the press productivity by 50%, reduce the material debris to 3%, reduce the load to 8%, reduce the wear of working parts by 40%, and also improve the structure of the cake before extraction.

Claims (1)

1. USSR author's certificate 488846, class, C 11 B 1/06, 1.974. R fuz.2 /  i-j F "/ g. / BB- Z 8 745921