RU21066U1 - DEVICE FOR FEEDING LOW MOBILE COMPOSITIONS - Google Patents

Description

DEVICE FOR FEEDING LOW MOBILE COMPOSITIONS

The inventive utility model relates to vibration machines, and more specifically relates to a device for feeding low-mobility compositions and can be used in construction when feeding, for example, cement-sand, waterproofing compositions.

A device for feeding low-mobility compositions is known, which is used, for example, when attaching mine workings, including a frame, a hopper with a single-screw pump, a pump stator mounted on the hopper, and a rotor located eccentrically to the stator axis, as well as a drive and drive shaft with hinges (Construction mechanized tool, finishing machines, vibrators, Moscow, TsNIITE-stroimmash, 1988, p.15). The specified device does not provide sufficient performance of the device and inconvenient to maintain.

The claimed utility model is based on the task of creating such a device for feeding low-mobility compositions, the design of which would provide an increase in the productivity of the work carried out and would be convenient to maintain.

This problem is solved when creating a device for supplying low-mobility compositions, including a frame, a hopper with a single-screw pump, the stator of which is mounted on the hopper, and the rotor is eccentric to the stator axis, a drive, a drive shaft with hinges, in which, according to the claimed utility model, the hopper is with a single screw the pump is attached to the frame by means of supports that are rigid in a plane parallel to the axis of the stator of the screw pump and elastic in a direction perpendicular to this plane, while the drive is rigidly fixed to e.

Thanks to the claimed utility model, an increase in the productivity of work carried out using the device for supplying low-mobility compositions is ensured, and ease of maintenance of the device is ensured.

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Further objectives and advantages of the claimed utility model will become apparent from the following detailed description of the device for feeding low-mobility compositions and drawings, in which

figure 1 depicts a device for supplying low-mobility compositions, according to the claimed utility model, a longitudinal section;

figure 2 is a section along aa of figure 1.

The inventive device contains a single-screw pump, the rotor 1 (Fig.1) which is located in the stator 2 eccentric to its axis. The stator 2 is fixed rigidly to the hopper 3, and the rotor 1 is rotated using a drive shaft 4 with a screw, which is also a screw feeder that feeds the pumped low-mobility composition to the suction cavity of a single-screw pump. The shaft 4 is connected by hinges 5 with the rotor 1 and the drive 6, which is rigidly mounted on the movable frame 7. The hopper 3 is mounted on the frame 7 through the supports 8 and 9 (figure 2), made rigid in a plane parallel to the axis of the stator, and elastic in the direction perpendicular to this plane, which is achieved by the construction of the supports. The supports 8 and 9 are made in the form of elastic plates mounted parallel to the stator axis between the hopper 3 and the frame 7. Moreover, the said elastic plates are rigidly attached to the frame at one end and rigidly connected to the hopper by the second cantilever end. Due to this design, external forces cause deformation supports only in the direction perpendicular to the plane of the plates.

During rotation, the rotor 1 carries out a complex planetary motion, consisting of rotation around its axis and around the axis of the stator 2. The axis of the rotor describes a cylindrical surface with a base diameter equal to two eccentricities of the screw surface of the pump. Together with the rotor, the associated hinge 5 of the drive shaft 4 moves. As a result of this movement, unbalanced forces arise, transmitted through the stator 2 to the hopper 3.

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

pumped composition, and a 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 led to the fact that the oscillations of the hopper are directed perpendicular to the axis of the stator and around this axis. And since the oscillation source is in close proximity to the lower supports 9, their deformation significantly exceeds the deformation of the supports 8, which leads to rotations of the hopper in the vertical plane and vibrations around the embedment of the supports 8 on the frame 7.

The resulting oscillation mode of the hopper is favorable for the flow of the pumped low rolling stock.

Under the influence of oscillations, the pumped composition changes the friction characteristics. It exfoliates from the walls of the hopper, loses its tendency to form a vault above the suction cavity of the pump and flows towards the screw, which feeds it freely to the suction cavity of the pump.

The rotor 1 of the screw pump is connected to the drive 6 by means of a shaft 4 and hinges 5, which allows the drive to be mounted on the frame 7 regardless of the hopper 3. As a result, the drive is excluded from the oscillation process, which reduces the amount of oscillation; there is mass, it reduces the natural frequency of oscillation of the system and increases the intensity of vibrations. This increases the reliability of the drive, which will work in more favorable conditions.

The device operates as follows.

The feed material is loaded into the hopper 3. The drive is switched on from the control panel (not shown) and through the hinges 5 transfers rotation to the shaft 4 and rotor 1. The material is fed to the suction cavity by means of a screw located on the shaft 4 and due to gravitational forces screw pump and is pumped by the pump along the sleeve 10. When the rotor and the shaft 4 rotate, unbalanced dynamic loads occur, which are transmitted through the stator 2 to the hopper 3 and cause the hopper 3 to vibrate, which oscillates with the elastic material in it pores 8 and 9 with the frequency of rotation of the rotor. As a result of the imposition of vibrations, the feed material creeps from the walls of the hopper and the mobility of the material increases, resulting

which it does not form a vault over the suction cavity of the pump and flows, ensuring the full realization of the capabilities of the pump, increasing the productivity of the device and reducing the complexity of its maintenance. In this case, vibrations are not transmitted to the pump drive 6, so that there is no deterioration in its performance.

The proposed design allows the supply of such low-mobility compositions, such as waterproofing compounds, cement-sand rigid compositions used for filing joints in subway tunnels, as well as other low-mobility compositions, the supply of which using known devices is associated with significant difficulties.

Claims (1)

A device for feeding low-mobility compositions, including a frame, a hopper with a single-screw pump, the stator of which is fixed to the hopper, and the rotor is eccentric to the axis of the stator, a drive, a drive shaft with hinges, characterized in that the hopper with a single-screw pump is attached to the frame by means of supports that are made rigid in a plane parallel to the axis of the stator of the screw pump, and elastic in a direction perpendicular to this plane, while the drive is rigidly fixed to the frame.