RU88020U1 - AEROSEPARATOR FOR SEPARATION OF HUSBAND - Google Patents

Abstract

An air separator for husk separation, consisting of a receiving device with a sieve and an exhaust rotary valve, a vertical aspiration channel, inside of which there is a separation partition and sedimentation chambers, nozzles for supplying raw material, removal of fractions and air flow with a husk, characterized in that above the separation partition a vertical adjustable plate is mounted on its hinge along its length.

Description

The utility model is designed to remove husk particles from the perewei fraction and the kernel fraction of sunflower seeds at the stages of their control by air flow and can be used at enterprises for the production of halva, goats and vegetable oils.

A known air separator for controlling a transfer, husk or sound fraction (see patent for utility model of the Russian Federation No. 13488 for 2000, bull. No. 11), consisting of a receiving device, inside which a sieve is installed, a vertical aspiration channel with a separation partition and precipitation chambers nozzles for supplying raw material, removal of finished products and air flow with airborne particles. The main disadvantages are that an additional air stream enters the suction channel through the receiving device, which reduces the air velocity in the vertical suction channel. In general, this leads to a significant deterioration in the separation of airborne particles in the suction channel.

The closest known device is a pneumatic separator (see patent for utility model of the Russian Federation No. 78794 for 2008, bull. No. 34), consisting of a vertical suction channel and a receiving device in which a sieve is installed. The upper part of the receiving device is equipped with a pipe for supplying the source material, and the lower part is connected to an aspiration vertical channel. In the joint between the vertical suction channel and the receiving device, an exhaust rotary valve mounted on hinges mounted from vertical plates is installed, which significantly reduces air leakage from the receiving chamber. In the lower part of the vertical suction channel there is a dividing wall, which forms precipitation chambers, respectively, for collecting small and large particles of sunflower seed kernels. The main disadvantage is that the main working air stream enters through the precipitation chamber, into which large particles of the sunflower kernel are poured. Therefore, in the case of even a slight fluctuation in the load of the stream of discharged particles from the sedimentation chamber, a “plug” is formed in it from the particles of the core and husk, which prevents the necessary working amount of air from entering the vertical suction channel. As a result, in the suction channel, the speed of the working air stream is lower than the speed of the husk particles, which leads to a significant decrease in the separation efficiency of airborne particles in the air separator. Ultimately, the incoming material clogs the entire lower part of the precipitation chamber of the air separator, which leads to an emergency stop of the equipment.

The technical result is the elimination of the formation of “plugs” from the particles of the nuclear fraction in the precipitation chamber of the vertical suction channel, provided by an independent supply of a working air stream into it.

The technical result is achieved by the fact that the air separator for separating the husk, consisting of a receiving device with a sieve and an exhaust rotary valve, a vertical suction channel, inside of which there is a separation wall and sedimentation chambers, nozzles for supplying the starting material, removal of fractions and air flow with the husk, above A vertical adjustable plate is mounted on a hinge along the length of the partition.

The combination of these features provides an independent and adjustable air supply to the incoming stream of particles in a vertical suction channel. The result is a predetermined value of the speed of the working air flow, which leads to the effective removal of airborne particles. In this case, the formation of a “plug” from particles of the nuclear fraction in the precipitation chamber is excluded.

The air separator for husk separation consists of a vertical suction channel 1 and a receiving device 2, in which a sieve 3 is installed. The upper part of the receiving device 2 is equipped with a nozzle 4 for supplying the source material, and the lower part is connected to the vertical suction channel 1. In the joint between the vertical aspiration channel 1 and a receiving device 2, an exhaust rotary valve 5 and hinges are installed 6. The exhaust rotary valve 5 is mounted from vertical plates, the upper edges of which are connected to hinges 6. The lower part of the vertical suction channel 1 consists of a sedimentation chamber 7 for removal of small particles of the core, as a passage fraction through a sieve 3, and a precipitation chamber 8, into which large particles of the sunflower seed fraction come in - a similar fraction through a sieve 3. Precipitation chambers 7 and 8 are separated by a partition 9. A vertical adjustable plate 11 is mounted on the hinge 10 over the upper edge of the dividing partition 9 along its length (when the hinge 10 rotates around its axis, the position of the plate s 11). The vertical suction channel 1 is equipped in the upper part with a pipe 12 for venting the air flow with airborne particles.

Air separator for separating husks works as follows. The source material, for example, perevei - a mixture of kernels and husks of sunflower seeds through the pipe 4 enters the receiving device 2. Next, the perevei enters the sieve 3 and moves down it. Small particles of the core are sifted through the openings in the sieve 3 and enter the precipitation chamber 7. The sediment fraction moves with acceleration along the sit 3. In the zone of the connection of the receiving device 2 and the vertical suction channel 1, the particles of the similar fraction collide with the vertical plates of the exhaust rotary valve 5. B As a result, the particle flow velocity slows down and the particles enter the vertical suction channel 1 at a speed of not more than 0.3-0.5 m / s. In the vertical suction channel 1, the husk particles are separated by the working air stream, which are discharged through the pipe 12. The working air stream enters the suction channel 1 through the precipitation chambers 7 and 8. From the sedimentation chamber 7, part of the main working air flow is introduced through the gap between the adjustable plate 11 mounted on the hinge 10 and the upper edge of the vertical partition wall 9. As a result, an independent and adjustable air flow is created, providing a given working speed ozdushnogo flow in the vertical aspiration channel 1. Therefore, in the last achieved the most efficient separation of husk particles aerounosimyh airflow.

Claims (1)

An air separator for husk separation, consisting of a receiving device with a sieve and an exhaust rotary valve, a vertical suction channel, inside of which there is a separation partition and precipitation chambers, nozzles for supplying feed material, removal of fractions and air flow with a husk, characterized in that above the separation partition a vertical adjustable plate is mounted on its hinge along its length.