RU147469U1 - VIBRATION HOPPER WITH ELECTROMAGNETIC VIBRATOR - Google Patents

Abstract

A vibrating hopper with an electromagnetic vibrator, comprising a base plate, a coil spring base, a hopper, a central electromagnetic drive, and spring rods attached at one end to the base with clamps, characterized in that the second end of the spring rods is fixed to an additionally inserted platform to which, by means of flat elastic elements attached to the hopper.

Description

The invention relates to a vibratory technique, and more particularly to vibratory loading devices.

Known vibration boot device with separate drive [Automatic loading of technological machines. Reference book / I.S. Blyaherov [et al]; Ed. Klusova I.A. M: Mechanical Engineering, 1990. 191, fig. 2], with a torsion elastic suspension of a horizontal EMF and with elastic elements in the form of plates of rectangular cross section.

The disadvantage of this design solution is the presence of two separate electromagnetic drives for horizontal and vertical vibrations in order to obtain hopper vibrations along an elliptical path.

The closest analogue is a vibration hopper with an electromagnetic vibrator. [Automatic loading devices of vibration type / A.N. Rabinovich [et al.] Ed. Rabinovich A.M. Kiev: Technique, 1965. 7, fig. 2]. In this device, on the inner surface of the side is a tray in the form of a helical spiral. The hopper receives reciprocating motion from a vertical drive mounted in the center of the hopper. The vibrator anchor is attached to the bottom of the hopper and receives oscillatory movements in the vertical direction. Vertical vibrations of the armature by three inclined spring rods are converted into vibrations of the hopper in the vertical and horizontal directions. The drive armature consists of plates of electrical steel, which are fastened to the base of the armature with the help of strips and, together with it, to the bottom of the hopper. The core of the electromagnet consists of a set of Ш-shaped plates of transformer steel, attached to the base of the drive with the help of strips. A coil with a winding is put on the middle protrusion of the package.

Spring rods are attached to the plate with clamps on the underside of the plate.

For vibration isolation, the vibration bin is mounted on shock absorbers - coil coil springs of relatively low stiffness. The vibration of the base will be transmitted the less, the greater the difference in the frequencies of oscillations of the side of the hopper on the rods and the natural frequency of vibrations of the base plate on coil springs. To eliminate excessive mobility, an axis is attached to the base, which enters with a small clearance into the sleeve of the base plate.

The disadvantage of this constructive solution is the inability to carry out an elliptical trajectory of the material point of the hopper, and therefore, the low speed of vibration in continuous mode (no more than 50 mm / sec).

The technical task of the utility model is to create a vibratory device with an elliptical trajectory of oscillations of the material point of the hopper to increase the speed of vibrotransport and to provide the possibility of reverse during vibrotransport.

The specified technical problem is solved due to the fact that the vibration hopper with an electromagnetic vibrator containing a base plate, a base on coil springs, a hopper, a central electromagnetic drive and spring rods, one end attached to the base with clamps, while the second end of the spring rods is mounted on an additionally entered platform to which by means of flat elastic elements attached to the hopper.

The essence of the technical solution is illustrated by figures, where:

in FIG. 1 shows a cross-sectional diagram of a vibratory hopper;

in FIG. 2 is an enlarged view A of the vibration bin of FIG. one.

The vibration hopper consists of a base plate 1 and a base 2, to which three inclined spring rods 4 are attached at one end by means of clamps 3. At the other end, these spring rods are mounted to the platform 5.

The hopper 6 is fixed on the platform 5 by means of flat elastic elements 7, while the hopper contains a tray in the form of a helical spiral on the inner surface of the bead. The central electromagnetic vibrator consists of an armature 8, a core 9 and a coil with a winding 10. Anchor 8 is mounted on a platform 5 and consists of plates of electrical steel. The core 9 consists of a set of W-shaped plates of transformer steel, attached to the base 2 with the help of strips. A coil with a winding 10 is installed on the core 9.

For vibration isolation, the vibration hopper is mounted on shock absorbers - coil coil springs of relatively low stiffness. To eliminate excessive mobility, an axis is attached to the base, which enters with a guaranteed clearance into the sleeve of the base plate 1.

The operation of the device, taking into account the above description, is as follows. When applying electric current, the armature 8, attached to the platform 5, receives oscillatory movements in the vertical and horizontal directions. Oscillations of the armature 8 by three inclined spring rods 4 are converted into vibrations of the platform 5 in the vertical and horizontal directions. Thus, the platform 5 receives reciprocating motion from a central electromagnetic vibrator mounted in the center of the vibration hopper and performs forced linear vibrations perpendicular to the axis of the inclined spring rod 4, and the hopper 6 vibrations in the vertical plane with a phase offset relative to the vibrations of the platform 5.

Linear vibrations of the platform 5 have horizontal and vertical components. Their ratio depends on the angle of inclination of the elastic elements 4, while the hopper 6 performs the same horizontal vibrations as the platform 5, since the elastic elements 7 have rigidity in the horizontal plane tending to infinity, and the vertical vibrations of the hopper 6 will have a value different from the magnitude of the oscillations of the platform 5, as well as the phase displacement with respect to it. This ensures the oscillation of the hopper 6 on an elliptical trajectory as a result of the addition of harmonic oscillations in two mutually perpendicular planes with a phase shift.

The formation of an elliptical trajectory is possible with phase displacement in the horizontal and vertical planes in the range from 0 ° to 180 ° or from 180 ° to 360 °, depending on whether the elastic element 7 has rigidity tending to infinity in the horizontal or vertical plane. The axis of the ellipse will have one direction or another, depending on whether in the horizontal or vertical direction the stiffness of the flat elastic element tends to infinity, which allows you to choose the direction of vibration and provides the possibility of reverse.

Thus, when introducing the elastic elements 7 into the design of the vibratory hopper, not only elliptical vibrations of the material point of the hopper 6 are provided to increase the speed of vibrotransportation, but it is also possible to provide a reverse direction of vibration displacement with a certain setting for the stiffness of the elastic elements 7 depending on the technical task.

The use of the device allows to simplify the design of the vibratory boot device through the use of a single electromagnetic drive to excite elliptical vibrations while increasing the speed of vibrotransport and providing the possibility of reverse during vibrotransport.

Claims (1)

A vibrating hopper with an electromagnetic vibrator, comprising a base plate, a coil spring base, a hopper, a central electromagnetic drive, and spring rods attached at one end to the base with clamps, characterized in that the second end of the spring rods is fixed to an additionally inserted platform to which, by means of flat elastic elements attached to the hopper.

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