RU2262993C1 - Gravity fluid-pressure actuated device for classifying loose mixtures - Google Patents

Abstract

FIELD: separating solids from solids.

SUBSTANCE: device comprises vertical air-separating passage, units for supplying the initial mixture and auxiliary gas flow, and unit for discharging the bottom and top fractions. The vertical air-separating passage has the round cross-section and is made of two sections for permitting variations of its height. The unit for supplying the initial mixture is made of a branch pipe connected to the housing of the device through a pivoting member for permitting variations of the angle of its inclination to the vertical axis from 35° to 55°. The unit for supplying auxiliary gas flow is mounted so that to provide air to flow contrary to the direction of the discharged bottom fraction. The unit for discharging the bottom fraction is made of two section for permitting variation of its length.

EFFECT: enhanced efficiency, simplified structure, and reduced metal consumption.

1 cl, 1 dwg

Description

The invention relates to the field of separation of bulk mixtures by gravity and hydraulic properties and can be used in pneumatic separators for sorting seeds, grains and legumes, in construction, as well as in all industries where separation of bulk mixtures into fractions is required.

The well-known "Method of dust removal from the pneumatic transport stream of bulk material" (US Pat. RU No. 2164176, IPC 7 V 07 B 7/02, 4/00, published March 20, 2001), including changing the direction of flow. According to this method, immediately before the storage tank into which the material enters, a part of the transporting air is sucked out through the open pipe section in the direction transverse to the main stream, providing dust particles to be controlled by controlling the suction intensity and the working length of the open pipe section, and the angle of the suction direction in the vertical plane of the suction is not less than 38-40 ° horizontally, and the vertical component of the suction air velocity in the suction zone is less than the speed of the air conditioning particles of material by 25-30%.

The disadvantages of the analogue are:

- reduced efficiency of dust extraction due to the entrainment of dust particles by conditioned particles;

- limited use of it due to the possibility of suctioning only dust particles, i.e. the impossibility of dividing the mixture into fractions (or suction of larger particles). The closest proposed classifier in technical essence is "Pneumoseparator" (US Pat. RU No. 2192318, IPC B 07 V 4/08, published 10.11.2002), including a vertical pneumatic separation channel with a support grid and a side loading window, sedimentary chamber, fan, input devices of the material to be purified and its fractions output. The vertical pneumatic separating channel is equipped with a dividing wall mounted parallel to the side walls at a distance of 0.6 ... 0.8 from the side loading window and with a gap of 0.25 ... 0.35 of the depth of the vertical pneumatic separating channel relative to the support grid, the length of the dividing wall is 1.5 ... 2.0 depths of the vertical air separation channel.

The disadvantages of the prototype are:

- increased hydraulic resistance due to the presence of a support grid and a dividing wall;

- the complexity of the design and increased metal consumption due to the presence of the hopper of the initial mixture, support grid, dividing walls;

- reduced efficiency of the separation of the mixture into fractions due to the possibility of entrainment of light particles heavy.

The technical problems that the proposed two-line gravitational pneumatic classifier of granular mixtures solves are to increase the efficiency of pneumatic separation by introducing an auxiliary gas stream towards the outlet of the lower fraction, as well as by the possibility of changing the height of the pneumatic separating channel and the length of the device for removing the lower fraction and due to the possibility of changing the angle tilting the device for inputting the initial mixture; expanding the scope of its use due to the possibility of dust removal from the material being cleaned, as well as the separation of mixtures into fractions; simplification of the design and lowering of metal consumption, as well as a decrease in hydraulic resistance due to the elimination of the hopper of the initial mixture, support mesh, dividing walls.

The stated technical problems are solved by the proposed two-flow gravitational pneumatic classifier of bulk mixtures, including a vertical air separation channel of circular cross section, a device for introducing the initial mixture and auxiliary gas flow, a device for removing the lower and upper fractions.

New is that the vertical pneumatic separation channel is made of two parts that allow changing its height, the device for introducing the initial mixture is made in the form of a pipe for entering it by pneumatic transport, the device for introducing the auxiliary gas stream is positioned so that it is introduced towards the outlet of the lower fraction, the device for removing the lower fraction is made of two parts with the possibility of changing its length. In addition, the device for inputting the initial mixture is connected to the classifier body using a hinge device, which allows you to change the angle of inclination relative to the vertical axis from 35 to 55 °.

Analysis of the known similar solutions allows us to conclude that they lack features similar to the distinctive features in the claimed device, i.e. the compliance of the proposed solutions to the criterion of "inventive step".

The drawing shows a dual-flow gravitational pneumatic classifier of bulk mixtures. The classifier contains a vertical air separation channel of circular cross section 1, which consists of two parts: retractable 2 and fixed 3; a device for introducing the initial mixture 4; a device for removing the upper fraction 5; a device for removing the bottom fraction 13, consisting of two parts - a stationary 6 and a retractable 7; a device for introducing an auxiliary gas stream 8; grating 9; swivel device 10; clamps 11, 12.

Two-line gravitational pneumatic classifier of bulk mixtures works as follows.

The initial mixture through the device for supplying the initial mixture 4 is fed by pneumatic transport to a vertical pneumatic separation channel 1, where it is picked up by an auxiliary gas stream directed from the bottom up. The diameter of the pneumatic separation channel (d ₂ ) and the auxiliary gas flow rate (Q) are selected so that the speed of the total gas flow in the pneumatic separation channel 1 is higher than the speed of the particles of the upper fraction and lower than the velocity of the fluidization of the particles of the lower fraction. Particles of the upper fraction are carried up and discharged through the device for removal of the upper fraction 5. Particles of the lower fraction fall down and are discharged through the device for removal of the lower fraction 13. At the same time, an auxiliary gas stream is supplied from bottom to top through the device for introducing the auxiliary gas stream 8 located at an angle of 30 ° to the vertical axis and separated from the device for removing the lower fraction 13 by the grill 9 in order to prevent particles of the lower fraction from entering the device for introducing auxiliary ha the flow stream 8. The diameter of the device for removing the lower fraction (d ₁ ) is selected based on the condition that the speed of the auxiliary gas stream in this device should be higher than the speed of the particles of the upper fraction and lower than the fluidization rate of the particles of the lower fraction. The height of the vertical pneumatic separation channel h ₂ and the length of the upper part of the device for removing the lower fraction h _{1 are} selected based on the following conditions: exclusion of entrainment of particles of the lower fraction in the pneumatic separation channel 1 and particles of the upper fraction in the device for removing the lower fraction 13; establishing a stationary hydrodynamic regime in the cross section of the air separation channel 1 and the device for removing the lower fraction 13. The supply of the initial mixture and auxiliary air flow are carried out using fans, blowers, etc., they can work intermittently, this can lead to an increase or decrease in the cost of the initial mixture (L) and auxiliary gas flow (Q), which in turn can lead to a decrease or increase in entrainment of particles.

To reduce the negative consequences of this, the following possibilities are used: during the process, you can change the angle of inclination of the device for inputting the initial mixture 4 (from 35 to 55 °), which is connected to the classifier housing using a hinge device 10; you can change the height of the vertical pneumatic separation channel 1, which consists of two parts - retractable 2 and fixed 3, the new position of which is fixed with a clamp 11; you can change the length of the device for removal of the lower fraction 13, because it consists of two parts - a fixed 6 and a retractable 7, which are attached with a clamp 12.

The diameter of the device for inputting the initial mixture 4 (d ₃ ) and the flow rate of the initial mixture (L) are known (initial) values when calculating the classifier.

The tilt angles of the device for introducing the auxiliary gas stream 8 (30 °) and the device for introducing the initial mixture 4 (35-55 °) are calculated and are optimal.

The dual-flow gravity pneumatic classifier of bulk mixtures allows to increase the efficiency of pneumatic separation by introducing an auxiliary gas stream towards the outlet of the lower fraction, as well as by the possibility of changing the height of the pneumatic separation channel and the length of the device for removing the lower fraction and changing the angle of inclination of the device for introducing the initial mixture; expand the scope of its application due to the possibility of dust removal from the material being cleaned, as well as the separation of mixtures into fractions; to simplify the design and reduce the metal consumption, as well as reduce hydraulic resistance by eliminating the hopper of the initial mixture, support grid, dividing walls.

Claims (2)

1. Two-line gravitational pneumatic classifier of bulk mixtures, including a vertical circular pneumatic separating channel, a device for introducing the initial mixture and auxiliary gas flow, a device for removing the lower and upper fractions, characterized in that the vertical pneumatic separating channel is made of two parts, allowing you to change its height , a device for introducing the initial mixture is made in the form of a pipe for entering it by pneumatic transport, a device for introducing an auxiliary gas stream is located Thus, in order to introduce it towards the outlet of the lower fraction, the device for removing the lower fraction is made of two parts with the possibility of changing its length. 2. The dual-flow gravity classifier according to claim 1, characterized in that the device for introducing the initial mixture is made connected to the classifier body using a hinge device, which allows you to change the angle of inclination relative to the vertical axis from 35 to 55 °.