RU78794U1 - PNEUMOSEPARATOR - Google Patents

Abstract

A pneumatic separator, including a vertical suction channel and a receiving device, inside which a sieve, precipitation chambers, nozzles for supplying raw material, discharge of finished products and air flow with airborne particles are installed, characterized in that a rotary outlet is mounted in the connection area of the receiving device a valve consisting of vertical plates, the upper edges of which are connected to the corresponding hinges.

Description

The utility model is designed to remove airborne particles of the fruit shell from the fractions of perewei, husks and kernels of sunflower seeds at the stages of their control and can be used in enterprises producing halva, goats and vegetable oils.

A suction device is known, which consists of an aspiration chamber, a sedimentation chamber with nozzles for supplying air and starting material and removing the purified product, and also a device for regulating the air flow (see Patent for the invention “Aspiration device” No. 2057468 of 04/10/96 Bul. No. 10).

The main disadvantage of the known suction device is that in the suction chamber, the feed is supplied through the feed hopper, which is connected to its side vertical wall. Therefore, the incoming particle stream into the suction device has a trajectory defined by the angle of inclination of the lower plane of the loading hopper. As a result, the particles fly through the inner space of the aspiration chamber and hit its opposite wall, sharply lose their speed and fall down along the wall. In this regard, most of the airborne particles - the fruit shell of sunflower seeds (husks) during processing of perevei (90-95% of free husks and 5-10% of the kernel) are brought down with particles of the kernel, which affects the quality of the content of free husk of the nuclear fraction. In addition, part of the small particles of the core is carried away by an air stream with a husk.

The closest known device is an 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, a vertical suction channel with dividing wall and precipitation chambers, nozzles for supplying raw material, removal of finished products and air flow with airborne particles. The presence of a sieve surface allows preliminary separation of the crossings into two fractions before and after the suction channel - the run-off and the walk-through. The latter enters the non-wind-driven sedimentation chamber, which reduces the entrainment of small particles of the core with husk by the air flow. The main drawbacks of the design is that in the suction channel, the particles coming through the receiving device acquire a high speed, and an increased

suction of the air stream along with the incoming particle stream. In general, this leads to a significant deterioration in the separation of airborne particles in the suction channel.

The technical result is to reduce the speed of incoming particles in a vertical suction channel to improve separation of their air flow.

The technical result is achieved by the fact that in the pneumatic separator, including a vertical suction channel and a receiving device, inside which a sieve, precipitation chambers, nozzles for supplying raw material, removal of finished products and air flow with airborne particles are installed, in the zone of the connection of the receiving device with a vertical aspiration channel mounted exhaust rotary valve, consisting of vertical plates, the upper edges of which are connected to the corresponding hinges.

The combination of these features makes it possible to reduce the velocity of incoming particles into the vertical aspiration channel, which, due to inertia forces, do not have time to reach the opposite inner wall of the aspiration channel and therefore do not collide with it. As a result, the most effective removal of airborne particles - husks, is ensured by vertical air flow. In addition, air leakage is reduced, which improves the conditions for separation of airborne particles in the air stream.

The pneumatic separator 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 pipe 4 for supplying the source material, and the lower part is connected to the vertical suction channel 1. In the joint between the vertical suction channel 1 and the receiving device 2 has an exhaust rotary valve 5 and hinges 6. An exhaust rotary valve 5 is mounted from vertical plates, the upper edges of which are connected to the corresponding hinges 6. The lower part of the vertical suction channel 1 consists of a precipitation 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 a similar fraction enters through a sieve 3. The precipitation chambers 7 and 8 are separated by a partition 9. Vertical the suction channel 1 is equipped in the upper part with a pipe 10 for venting the air flow with airborne particles.

Pneumoseparator 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 without treatment by air flow. The starting fraction moves with acceleration in sit 3.

In the connection zone between 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. As a result, the particle flow rate slows down and the particles enter the vertical suction channel 1 at a speed of no more than 0.3-0.5 m /from. Therefore, the incoming particle stream into the vertical suction channel 1, is most effectively processed by the air stream, since particles with such a flow rate do not have time to fly to the opposite inner wall of the vertical suction channel 1 and do not collide with it. At the same time, the exhaust rotary valve 5 reduces the air leakage from the receiving device 2 into the vertical suction channel 1.

Claims (1)

A pneumatic separator, including a vertical suction channel and a receiving device, inside which a sieve, precipitation chambers, nozzles for supplying raw material, discharge of finished products and air flow with airborne particles are installed, characterized in that a rotary outlet is mounted in the connection area of the receiving device with the vertical aspiration channel a valve consisting of vertical plates, the upper edges of which are connected to the corresponding hinges.