RU22132U1 - BUNKER - Google Patents

Description

MGG 7: B65D 88/26, 88/64

The utility model relates to the construction of bins for bulk materials and can be used in various industries for the uninterrupted supply of a variety of bulk products and unloading bins.

Known bunker containing means for ensuring uniform outflow of the product by placing inside the hopper a flexible funnel-shaped basket, which is made of metal chains and arrange them along mutually intersecting spiral lines. The upper ends of the chains are connected to the shell, which is kinematically connected with the drive (RL Zenkov, G.P. Grinevich, B.C. Isaev. Bunker devices. Moscow, Mechanical Engineering, 1977, p. 88).

The main disadvantages of this device is the gradual vibrational destruction of the hopper and the need for continuous operation of the mechanisms that create vibration, which leads to increased energy consumption when unloading the hopper.

The technical result of the utility model is to simplify the design, the absence of energy consumption while ensuring uniform flow of the product when unloading the hopper.

The specified technical result is achieved by the fact that in the hopper having a conical part with an outlet, the means for ensuring uniform outflow of the product is made in the form deposited on the inner surface of the hopper

BUNKER

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material, the friction coefficient of which differs from the coefficient of friction of the material of the inner surface of the hopper, and the applied material forms at least one spiral tape decreasing towards the center of the hopper.

The width of the spiral tape can be 0.2-2.0 diameters of the outlet of the hopper.

The pitch of the spiral tape can be at least half the height of the conical part of the hopper.

Spiral tape can be formed by spots of arbitrary shape.

Spots can be spaced at intervals equal to the size of the spots along the spiral.

In the case of a device with several spiral tapes, they are located with the same orientation of the turns.

The proposed technical solution is illustrated by drawings, where in FIG. 1 schematically shows a hopper with a spiral strip formed by spots, FIG. 2 - the same, top view; in FIG. Option 3 with two spiral ribbons, top view.

The hopper 1 has a conical part 2 with an outlet 3. The means for ensuring uniform product outflow is made in the form of a material deposited on the inner surface of the hopper, the friction coefficient of which differs from the coefficient of friction of the material of the inner surface. For example, polyurethane may be applied to the steel surface of the hopper. The applied material forms at least one spiral tape 4 decreasing towards the center of the hopper.

The width of the spiral tape a can be 0.2. - 2.0 diameter d of the outlet 3 of the hopper 1, and the pitch of the spiral tape is not less than half the height of the conical part 2 of the hopper.

In one embodiment, the spiral tape is formed by spots of arbitrary shape, which are preferably spaced at intervals equal to the size of the spots along the spiral.

If several spiral tapes are made, they are arranged in such a way that they have the same orientation of the turns.

The hopper operates as follows.

To unload the hopper, it is necessary to relieve the loads inside the bulk material column. The basis of the arch formation mechanism is the regularity according to which the vertical pressure arising under the influence of the material’s own weight passes into horizontal stresses propagating along the entire filling height of the hopper. Under the weight of the masses above, a vaulted supporting structure is formed, the elements of which are in statistical equilibrium. Further bending upward is prevented by the material above, bending downward is opposed by particle compression. Thus, the arch works, which can only be destroyed by force from the outside, while taking into account that such a system is in dynamic equilibrium, the arches will be constantly formed. In this case, the presence of a spiral tape precludes the creation of such an equilibrium system. This is due to the use of surfaces with different friction coefficients, located in a certain order,

described above. By reducing (increasing) the friction of the material against the wall, part of the force caused by the mass of material is removed from the bulk material column and transferred to the wall. This leads to a decrease in vertical pressure, the material column is facilitated and part of the load is removed from the layers located at the bottom of the hopper. A decrease in vertical pressure entails a corresponding effect; a decrease in horizontal force at all levels in the hopper.

The use of a tape in the form of a decreasing one; spirals to it reduce the horizontal forces to such an extent that they become insufficient for the formation of statically closed non-perfect systems inside the material column. Thanks to this, the arches in the stage of formation almost collapse themselves. In addition, increased friction between the bulk material and the wall of the hopper leads to a higher rate of mixing of the masses in the central part of the hopper compared to the wall zone. Arising; its advancing leads to the fact that the arches, having a convex upward shape, turn into hanging lintels. The strength of the convex arches is stabilized by the masses of granular material located above them - flour. Hanging lintels are destroyed the easier, the heavier the mass pressing on them from above.

The proposed optimal load-relieving scheme can be used for bunkers of various capacities used for the storage of hard-flowing materials.

The technical result of the utility model is to create a device for eliminating freezes and sticking bulk material in which is carried out fundamentally

a new unloading mode by uniform softening of the material throughout the volume due to different resistance to the movement of the unloaded material under the action of gravity due to different friction forces of the material particles on the inner surface of the hopper. The lining of the inner surface of the hopper in the form of a spiral tape provides effective unloading of the hopper, u - ..; -; - .- .., since in any horizontal plane an annular supporting surface with the same coefficient of friction is not formed.

Claims (6)

1. The hopper having a conical part with an outlet and means for ensuring uniform product outflow, made in the form of a material deposited on the inner surface of the hopper, the friction coefficient of which differs from the coefficient of friction of the material of the inner surface of the hopper, and the deposited material forms at least one decreasing the center of the hopper is a spiral tape.  2. The hopper under item 1, characterized in that the width of the spiral tape is 0.2-2.0 diameter of the outlet of the hopper.  3. The hopper according to claim 1 or 2, characterized in that the pitch of the spiral tape is at least half the height of the conical part of the hopper.  4. The hopper according to any one of claims 1 to 3, characterized in that the spiral tape is formed by spots of arbitrary shape.  5. The hopper according to claim 4, characterized in that the spots are spaced at intervals equal to the size of the spots along the spiral. 6. The hopper according to any one of claims 1 to 5, characterized in that the spiral tapes are arranged so that they have the same orientation of the turns.