RU53659U1 - VIBRATION TRANSPORT DEVICE (OPTIONS) - Google Patents

Abstract

The utility model relates to the construction, mining, metallurgical industries, namely to vibrating conveying devices, and can find application for moving sticky and caking bulk materials, as well as materials having a high temperature. The device according to the first embodiment includes a frame, an elastic working body connected with it by means of tapes fixed to them, and a vibration exciter. The tapes are fixed with the possibility of bending along the entire length of the elastic working body. In the second embodiment, a thin sheet is used as said tapes, fixed with the possibility of bending along the entire length of the elastic working body. The attenuation of the oscillations of the working body on its loading section is reduced, thereby increasing the efficiency of the production of difficult-to-transport materials. 2 n.p. f-ly, 3 z.p. f-ly, 3 ill.

Description

The proposed technical solution relates to the construction, mining, metallurgical industries, namely to vibration conveying devices, and may find application for moving sticky and caking bulk materials, as well as materials having a high temperature.

Known vibration feeder according to the patent of the Russian Federation No. 1720958, class. B 65 G 27/00, publ. in BI No. 11, 1992, containing a flexible elastic working body of variable curvature, mounted on the base, and a vibration exciter attached to the working body. The working body is connected to the base by means of supporting elements fixed at the ends of the working body with the possibility of their movement along the base. To prevent spills between the working body and the walls of the hopper, rubber aprons are attached to the latter with bolts and pads. The disadvantage of this device is the low efficiency of the use of rubber aprons, because they are not attached to the working body, and the bulk material under the influence of vibration

The problem is solved as follows. A vibration transporting device is proposed, including a frame, an elastic working body connected with it by means of tapes fixed to them, and a vibration exciter. According to the technical solution, the tapes are fixed with the possibility of bending along the entire length of the elastic working body.

This technical solution makes it possible to increase the mobility of the tapes along the entire length of the working body by reducing elastic deformations in them, thereby reducing the attenuation of vibrations of the working body at its loading section and expanding the zone of vibration exposure to the material being released, thereby increasing the efficiency of the vibrating conveying device during the release difficult to transport materials.

It is advisable in this case to fix the tape with the possibility of interaction with the elastic working body along its entire lower surface. This allows you to increase the reliability of the design of the vibrating conveying device by increasing the area of interaction of the elastic working body with tapes and reducing the specific load on the tapes from the working body and the bulk material located on it.

It is also advisable to make the tape from a heat-resistant material, which makes it possible to transport materials having a high temperature.

In the second embodiment, a vibrating conveying device including a frame, an elastic working body connected to it by means of tapes fixed to them, and a vibration exciter, according to the technical solution, a thin sheet fixed is used as said tapes

with the possibility of bending along the entire length of the elastic working body.

The second embodiment, due to small elastic deformations in the thin sheet and its mobility in the transverse direction, allows, as in the first embodiment, to reduce the attenuation of the vibrations of the working body at its loading section and to expand the zone of vibration exposure to the produced material, thereby increasing the efficiency of the vibrating conveyor devices for the production of difficult-to-transport materials, and at the same time makes it possible to simplify the manufacturing technology of vibrating conveying devices wa.

In this case, it is advisable to make a thin sheet of heat-resistant material, which makes it possible to transport materials having a high temperature.

The essence of the technical solution is illustrated by an example of a specific design and drawings. Figure 1 presents a longitudinal section of a vibrating conveying device; figure 2 - section aa in figure 1 on an enlarged scale (first embodiment); figure 3 is the same (second embodiment).

The vibration transporting device (hereinafter referred to as the device) according to the first embodiment includes a frame 1 (Fig. 1,2), an elastic working body 2 connected to it by means of tapes 3 (Fig. 2), and a vibration exciter 4. The tapes 3 are fixed on the frame 1 with the possibility of bending along the entire length of the elastic working body 2 (figure 1) with the release of bulk material 5 from the hopper 6. Moreover, the tape 3 (figure 2) is made of heat-resistant material, for example, steel, and secured, for example, using interlocking rivets

with an elastic working body 2 along its entire lower surface.

The device according to the first embodiment works as follows.

When you turn on the vibration exciter 4 in the elastic working body 2 there are vibrations that provide a transporting mode of operation. Due to the fact that the tape 3 is made of steel and is able to bend along the entire length of the working body 2, the amplitude of the oscillations of the loading section of the latter but less than the amplitude of the oscillations of its discharge section is less than when using elastic bands in the prototype. The efficiency of this device is increased in comparison with the prototype. In addition, the interaction of the tapes 3 with the working body 2 along its entire lower surface allows to reduce the specific load on the tape 3 from the side of the elastic working body 2 and the bulk material located on it 5. And due to the fact that the tape 3 is made of steel, it becomes possible to move high temperature materials.

The vibration transporting device (hereinafter referred to as the device) according to the second embodiment includes a frame 1 (Fig. 1.3), an elastic working body 2 connected with it by means of a thin sheet 7 (Fig. 3) used as tapes 3, and a vibration exciter 4 Using the corners (pos. Not indicated), the thin sheet 7 is fixed on the frame 1 with the possibility of bending along the entire length of the elastic working body 2 (Fig. 1) when releasing the bulk material 5 from the hopper 6. At the same time, the thin sheet 7 (Fig. 3 ) made of heat-resistant material.

The device according to the second embodiment works as follows.

When you turn on the vibration exciter 4 in the elastic working body 2 there are vibrations that provide a transporting mode of operation. Due to the fact that the thin sheet 7 is made of steel and is able to bend along the entire length of the working body 2, the amplitude of the oscillations of the loading section of the latter compared to the amplitude of the oscillations of its discharge section is less than when using elastic bands in the prototype. The efficiency of this device is increased in comparison with the prototype. In addition, the thin sheet 7 creates a solid support for the working body 2, which allows to reduce the specific load on the thin sheet 7 from the side of the elastic working body 2 and the bulk material 5 located on it. Due to the fact that the thin sheet 7 is made of steel, it becomes possible to move high temperature materials. Moreover, the thin sheet 7 allows to simplify the manufacturing technology of the device.

Claims (5)

1. Vibrating conveying device comprising a frame, an elastic working body connected with it by means of tapes fixed to them, and a vibration exciter, characterized in that the tapes are bently fixed along the entire length of the elastic working body. 2. The device according to claim 1, characterized in that the tape is fixed with the possibility of interaction with an elastic working body along its entire lower surface. 3. The device according to claim 1 or 2, characterized in that the tape is made of heat-resistant material. 4. A vibration device comprising a frame, an elastic working body connected with it by means of tapes fixed to them, and a vibration exciter, characterized in that a thin sheet is used as said tapes, fixed with the possibility of bending along the entire length of the elastic working body. 5. The device according to claim 4, characterized in that the thin sheet is made of heat-resistant material.