RU2057468C1 - Aspiration apparatus - Google Patents

Abstract

FIELD: cleaning of bulk mixtures. SUBSTANCE: aspiration apparatus has aspiration chamber with air-permeable bottom, light fraction accumulating chamber communicated with aspiration chamber, raw material charging hopper and ready product discharge channel. Inlet and outlet portions of hopper and discharge channel are embedded into chamber lower part at diametrically opposite sides. Apparatus is further provided with device for supplying air through chamber bottom divided by folding line into two parts inclined relative to chamber wall. A portion adjacent to ready product discharge channel is made air-impermeable and partially defines channel inner surface. Length of this portion is less than total length of air-permeable portions of chamber bottom. Aspiration chamber bottom may be made rotary. Ready product discharge channel may be provided with air flow regulating mechanism . Air supply slit-type opening may be made in the vicinity of chamber bottom and chamber wall joint portion. EFFECT: increased efficiency in separating product from contaminants and enhanced reliability in operation. 4 cl, 4 dwg

Description

 The invention relates to equipment for cleaning loose mixtures and can be used to clean pine nuts from impurities, as well as pine nuts kernels and their cuts from the shell.

 Known suction device of the separator ZS-50, containing purge channels, feeding hopper, sediment chamber, receiving hoppers, fan, receiving sieve [1] With this device it is difficult to separate the shell from the kernel and the shell from the cut, therefore in the finished product (core and cut nuts) a large percentage of shells. In addition, walnuts with a moisture content of not more than 7-8% are suitable for aspiration. Therefore, before processing nuts, usually coming in with a moisture content of 13-15%, they must be dried.

The closest technical solution to the claimed is a device adopted as a prototype and containing an aspiration chamber with a breathable bottom, communicating through a purge channel with a chamber for collecting light fractions (sediment chamber), a hopper for loading raw materials, the output section of which is mounted in the lower part of the wall of the aspiration chamber , a channel for the outlet of the finished product, the input section of which is also mounted in the lower part of the wall of the suction chamber: diametrically opposite to the output section of the hopper for Loading the and means for supplying breathable air through the bottom of the chamber [2]
The disadvantage of this device is the low productivity and low efficiency of separation of impurities of various fractions from different fractions of the finished product.

 In the invention, increasing the productivity and efficiency of separating impurities from the finished product is achieved by expanding the ability to control air flows in the suction chamber. To this end, the bottom of the chamber is bent into sections located obliquely to the walls of the chamber, while the portion of the section of the bottom of the chamber directly adjacent to the channel for discharging the finished product is airtight and partially forms the inner surface of the said channel, the length of the airtight part being less than the total length of the breathable parts of the bottom, and at the junction of the bottom of the chamber to its wall in the area of the outlet opening of the loading hopper, mainly under said m hole, an adjustable slot hole is provided. In addition, the bottom of the suction chamber is rotatable relative to the horizontal axis mounted in the lower part of the suction chamber parallel to its longitudinal plane, and the outlet channel of the finished product is equipped with an air flow control mechanism.

 Figure 1 presents the proposed device; figure 2 diagram of the lower part of the suction chamber; figure 3 is a view along arrow A in figure 2; figure 4 the bottom of the suction chamber.

 The proposed device contains an aspiration chamber 1, a sedimentation chamber 2 with a pipe 3 for venting, which is equipped with a device 4 for regulating the air flow. In addition, the device is equipped with an opening 5 of the finished product channel, an axis 6 of the bottom of the suction chamber 1, the finished product channel 7, as well as an air flow control mechanism 8 through the channel 7 and a breathable bottom 9 of the aspiration chamber 1. The device has an adjustable slot 10 for air flow and an adjustable opening 11 of the feed hopper 12, and an airtight part 13 is provided in the bottom 9.

 The suction device operates as follows.

 The raw materials from the loading hopper 12 through the hole 11 under the influence of gravity and air flow through the hole 10 are fed to the breathable part of the bottom 9. In the air flow through the bottom 9, the raw material is a fluidized bed, which is under pressure from the raw materials coming from the hopper 12 and air the flow through the hole 10 with a uniformly defined thickness layer moves along the entire width of the bottom 9 towards the opposite wall of the chamber 1, to the hole 5. Under the influence of air flows through the bottom 9, holes 5 and 10 of the impurity, which include, for example, shells of nuts of various sizes, empty nuts, dust, etc. from the fluidized bed are taken out through the chamber 1 into the sedimentary chamber 2. The finished product, for example, the kernels of nuts and their cross-section, having reached the bend of the bottom 9, under the action of gravity moves downhill to the area of the airtight part 13, where it is captured by an air stream formed by controlled flows through channel 7, bottom 9, and is discharged through hole 5 and channel 7 into the finished product hopper.

 The performance and quality of the aspiration of the claimed device depends on the speed of air flow through the chamber 1, the aerodynamic properties of the raw material, consisting of the finished product, for example, kernels of nuts, their chopping, and impurities (shell, empty nuts, dust) on the thickness of the layer of raw materials, the speed of its movement along the bottom 9. The speed of the air flow through the chamber 1 is regulated by the device 4 of the pipe 3. The quality of aspiration of a given raw material (different humidity, different sizes of fractions) is determined by the slopes of the sections of the bottom 9, the thickness of the layer of raw materials and speed its movement along the bottom 9. The slopes of the sections of the bottom 9 are regulated by turning the latter around the axis 6. The thickness of the layer of raw materials and its speed of movement along the bottom 9 with a steady air flow through the chamber 1 are set by adjusting the holes 11, 10 and 5. The size of the hole 10 changes during rotation the bottom 9 around the axis 6. The air flow through the hole 5 and channel 7 is regulated by the device 8. The airtight part 13 of the bottom 9 provides the formation of air flow in this area, which disrupts the flow of the finished product into the channel 7.

 The presence in the device of advanced capabilities for regulating air and raw material flows ensures the effective separation of various fractions of impurities (shell, shirt, empty nuts, dust) from various fractions of the finished product (core, cross-section) of various moisture and size with minimal loss of the finished product (cross-section is not carried away into the sedimentation chamber).

Claims (4)

 1. ASPIRATION DEVICE, including an aspiration chamber with a bottom configured to let air through, communicated through a purge channel with a chamber for collecting light fractions, a hopper for loading raw materials, the outlet section of which is mounted in the lower part of the wall of the aspiration chamber, a channel for exhausting the finished product, the inlet portion of which is also mounted in the lower part of the wall of the suction chamber diametrically opposite to the outlet of the hopper, and means for supplying air through the bottom of the chamber, characterized in that the bottom of the chamber is divided by a bend line into two sections located obliquely to the walls of the chamber, and the portion of the portion immediately adjacent to the channel for withdrawing the finished product is airtight and partially forms the inner surface of the said channel, while the length of the airtight portion of the section is less than the total length of the breathable parts bottoms.  2. The device according to claim 1, characterized in that the bottom of the suction chamber is made to rotate relative to a horizontal axis mounted in the lower part of the said chamber parallel to its longitudinal axis.  3. The device according to claims 1 and 2, characterized in that the outlet channel of the finished product is equipped with a mechanism for regulating the air flow.  4. The device according to PP.1 to 3, characterized in that in the junction of the bottom of the suction chamber to its wall under the outlet of the hopper for loading raw materials, a slotted hole for air supply is formed.

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