SU1767188A1 - Apparatus for delivery of compositions during supporting of mine workings - Google Patents

Abstract

Use: relates to devices for feeding predominantly low rolling stock in the mountain region when fastening openings. Essence: the device is installed on the frame by means of supports and consists of a bunker with a single-screw pump, a stator and a rotor, the supports contribute to the development of oscillations of the bunker with the composition, and the screw pump source of these oscillations, under the influence of which the composition in the bunker changes the characteristics of friction. 2 Il.

Description

The invention relates to devices for feeding predominantly low rolling stock and can be used in the mining industry for fastening mining and some other industries,

The aim of the invention is to improve the performance of the device and the convenience of its maintenance.

Figure 1 is a diagram of the device for feeding low rolling stock; figure 2 is a section along aa of figure 1.

The device contains a single-screw pump, the rotor 1 of which is located in the stator 2 eccentric to its axis. The stator 2 is fixed rigidly on the hopper 3, and the rotor 1 is rotated by means of a drive shaft 4 with an auger, which is also a screw feeder that feeds the pumped composition to the suction cavity of a single-screw pump. The shaft 4 is connected by hinges 5 to the rotor 1 -l drive 6, which is rigidly mounted on the movable frame 7. The hopper 3 is fixed on the frame 7 through the supports 8 and 9, made

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rigid in a plane parallel to the stator axis, and elastic in the direction perpendicular to this plane, which is achieved by the design of the supports. In the construction shown in Figs. 1 and 2, elastic plates, installed parallel to the stator axis between the hopper 3 and the frame 7, are used as supports 8 and 9. At that, the plates 8 and 9 are rigidly fixed to the frame 7 with one end and the second cantilever the end is rigidly connected to the hopper 3. Due to this design, external forces cause the deformation of the supports only in the direction perpendicular to the plane of the plates.

During rotation, the rotor 1 performs a complex planetary motion consisting of rotation around its axis and around the axis of the stator 2. At the same time, the rotor axis describes a cylindrical surface with a base diameter equal to two eccentricities of the screw surface of the pump. Together with the rotor, the hinge 5 of the drive shaft 4 moves with it. As a result of this movement, unbalanced forces are generated, which are transmitted through the stator 2 to the hopper 3.

In a known design, the dynamic forces are perceived by a rigid frame that prevents the development of vibrations.

In the proposed design, the elastic supports 8 and 9 contribute to the development of forced oscillations of the bunker 3 with the pumped composition in it, and the screw pump plays the role of a source of forced oscillations.

The design of the supports 8 and 9 and their symmetrical arrangement relative to the axis of the stator 2 caused that the hopper oscillations are directed perpendicular to the axis of the stator and around this axis. And since the source of oscillations is in close proximity to the lower supports 9, their deformation considerably exceeds the deformation of the supports 8, which leads to rotation of the bunker in the vertical plane and oscillations around the embedding of the supports 8 on the frame 7.

The resulting oscillation shape of the hopper is favorable for the flow of the pumped composition.

Under the influence of fluctuations, the pumped composition changes friction characteristics. It exfoliates from the walls of the hopper, loses a tendency to form a roof over the pump suction cavity and flows towards the auger, which feeds it without impediment to the pump suction cavity.

The rotor 1 of the screw pump is connected to the drive 6 by means of the shaft 4 and the hinges 5, which allows the drive to be fixed to the frame

7 regardless of the hopper 3. As a result, the drive is eliminated from the oscillatory process, which reduces the magnitude of the oscillating mass, reduces the natural frequency of the system and increases the intensity of the oscillations. This increases the reliability of the drive, which will work under more favorable conditions.

The device works as follows.

The feed material is loaded into the hopper 3. The drive is switched on from the control panel, not shown in the drawing, and transmits rotation to the shaft 4 through the hinges 5

and the rotor 1. The material is fed by a screw placed on the shaft 4 and, due to gravitational forces, is supplied to the suction cavity of the screw pump and is pumped through the pump along the sleeve 10. When the rotor and shaft 4 rotate

unbalanced dynamic loads occur, which are transmitted through the stator 2 to the hopper 3 and vibrations of the hopper 3, which oscillate together with the material in it on elastic, vibrate

bearings 8 and 9 with rotor speed. As a result of the imposition of vibrations, the feed material creeps from the walls of the bunker and the mobility of the material increases, as a result of which it does not form

over the suction cavity of the pump and flows, ensuring the full realization of the pump capabilities, increasing the plant capacity and reducing the labor intensity of the plant maintenance. Wherein

the vibrations are not transmitted to the pump drive 6, so that it does not deteriorate.

The proposed design allows the supply of waterproofing compositions, cement-sand rigid compositions when staking seams in subway tunnels and other low-mobility structures, the supply of which with the help of known devices is associated with considerable difficulties.

Claims (1)

Invention Formula A device for feeding the compositions during fastening of mine workings, which includes a frame, a hopper with a single-screw pump, the stator of which is fixed to the bunker, and the rotor is located eccentrically to the axis of the stator, a drive, a drive shaft with hinges, characterized in that service, a hopper with a single-screw pump attached to the frame by means of supports that are rigid in a plane parallel to the stator axis of the screw pump, and resilient in a direction perpendicular to this plane, When the actuator is rigidly fixed to the frame.