SU670510A1 - Pneumatic intake - Google Patents

Description

The invention relates to the field of pneumatic conveying of bulk materials and can be used for unloading and overloading, for example, materials such as cement, phosphates, mineral fertilizers, etc. in various industries. A pneumatic intake device is known, which is a spherical intake cap mounted on the end of a flexible suction pipe, inside which a guide device 1 is installed. Air inlet tubes are connected to the intake cap, through which compressed air is supplied to the intake cap, which saturates air is transported through a flexible suction pipe under the action of a vacuum created by a vacuum pump. Known installation requires additional equipment, such as a compressor; In addition, the compressed air consumption increases dramatically with increasing diameter of the intake cap, which adversely affects the performance of the installation. It is also known that the intake device of the sweeper-cleaning machine contains a suction tube and a casing enclosing its inlet end, inside which the impeller is installed, guides the housing and torus 2. However, in the process of working with abrasive material, the open impeller intensively deteriorates due to its rapid rotation particles of material. In addition, the presence of mechanical impurities in the bulk material leads to wedging of the impeller or clogging of the guide air. The aim of the invention is to improve the efficiency, durability and reliability of the device. The goal is achieved by the fact that the torus is mounted at the inlet end of the suction pipe, and the casing has hollow walls and through windows made in its upper part. FIG. 1 shows the described pneumatic intake device, a vertical section; in fig. 2 - the same in terms of. The pneumatic device includes a drive 1 with a gearbox 2, an impeller 3, a casing 4 with hollow walls and oval air intake windows 5, a guide device 6 and a torus 7, which is a continuation of the suction pipe 8, at the end of which it is mounted. The impeller drive with gearbox is mounted on the hollow shaft 9, through which the suction is passed

a pipe communicating with the settling chamber (not shown in the drawing).

The device works as follows.

Air through the windows 5, located in the upper part of the casing 4, enters the blades of the impeller 5. The impeller, receiving rotation from the actuator 1 through the gearbox 2, converts the drive energy into kinetic energy of the air flow, which reaches the surface of the processed material without great speed , picks up its particles and transports them towards the vertical axis of the device. In order to give the airflow the necessary direction in the area of material capture at the exit of the impeller 3, an apparatus 6 is installed in the air flow path.

The torus 7, located between the impeller 3, the guide vane 6 and the pipe 8, forms a flow in the zone of the guide vane and the suction pipe, thereby significantly increasing the axial pressure in the pneumatic section.

In the event of the ejection of particles of material from the sub 4, they are sucked back by the impeller 3 through the hollow walls of the casing 4.

Claims (2)

1. Accepted for Japan No. 48-24197, cl. B 65 G 53/04, 1973. 2.I. V. Rezler. Investigation of the workflow of the aerodynamic brushless harvesting machine picker. Dis. on the competition uch. degree of candidate technical sciences. LISI, 1973, p. 31. K 6a / yyfiHou ycmoHOSxe