RU2349524C1 - Ore chute gate - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention refers to auxiliary transport equipment and is designed for implementation particularly at shutting off apertures of ore chutes for fine and medium size lumps at mines or at unloading lumps out of hoppers. The ore chute gate consists of two secured on cranks bottoms arranged under a hopper outlet; the said bottoms are designed to turn in a vertical plane in opposite directions relative to horizontal axes. The axes are located on exterior sides of vertical walls of a sleeve and parallel to them, while the bottoms on the cranks are secured overhung and have length of an arc corresponding to direct angle with direction of free ends of the bottoms inside the sleeve. Kinematical connection between the cranks is made in form of other cranks secured on axes. Free ends of other cranks are connected to rods of two double-rod power cylinders horizontally oriented and arranged with gaps relative to two other walls of the sleeve. In the initial position at an open gate the cranks of the bottoms are oriented horizontally, while the other cranks form the angle of 45° with the walls of the sleeve. An apron with two sloping surfaces is installed inside the sleeve at the level of axes and parallel to them, this apron overlaps edges of the bottoms in plane.

EFFECT: invention facilitates upgraded reliability of operation at unloading bigger size lumps via outlet of ore chute.

3 dwg

Description

The invention relates to auxiliary transport equipment, namely to gates, and is intended to be used mainly to block the outlet openings of ore passages for small and medium-sized lumps in mining enterprises, and can also be used to release lumped cargo from bunkers.

Known jaw shutter, which can be used to block the outlet of the ore pass containing two cranks located under the outlet of the reloading device in the form of sectors with cylindrical bottoms fixed to them with the possibility of rotation in the vertical plane in opposite directions relative to the horizontal axles mounted on the nozzle, and sectors are kinematically interconnected and equipped with a drive (Tarasov Yu.D., Loading and unloading devices of conveyor belts in. M., Nedra, 1995, s.57-59, Figure 24, B).

The disadvantages of the known shutter are the limited size of the outlet, which can be blocked by the shutter, and the possibility of jamming of individual pieces of the transported cargo between sectors.

Known shutter, which can be used to block the outlet of the ore pass (prototype), containing located under the outlet two mounted on the cranks of the bottom, forming an arc and mounted with the possibility of rotation in a vertical plane in opposite directions relative to horizontal axes placed on the outside of the vertical the walls of the pipe, and the cranks are kinematically connected with each other, and the power cylinder (Auth. certificate. USSR No. 1830371 A, publ. 07.30.1993).

However, the disadvantages of the known shutter are the limited size of the outlet, which can be blocked by the shutter bottoms, and the possibility of jamming of individual pieces of the transported cargo between the bottoms themselves and the closing edges of the bottoms.

The technical result of the invention is to increase the reliability of the shutter during the release of cargo through the outlet of the ore pass of increased dimensions and eliminating the possibility of jamming of individual pieces of the unloaded cargo between the bottoms and the cranks holding them.

The technical result is achieved by the fact that in the gate for ore launch, containing two bottoms mounted under the crankshaft located under the outlet, forming an arc and mounted with the possibility of rotation in the vertical plane in opposite directions relative to the horizontal axes located on the outer sides of the vertical walls of the pipe, and the cranks kinematically connected, and the power cylinder, according to the invention, the axes are placed parallel to the mentioned walls of the pipe, the bottoms are cantilevered on the cranks and have an arc length corresponding to a right angle with the direction of the free ends of the bottoms inside the nozzle, the shutter is equipped with a second power cylinder, and the kinematic connection between the said cranks is made in the form of other cranks fixed to the axes, the free ends of which are connected to the rods of the two power cylinders oriented horizontally and placed with gaps relative to the other two walls of the pipe, while the power cylinders are made with two rods and with the possibility of rotation of other cranks in different directions, while in the initial position with the shutter open, the cranks of the bottoms are oriented horizontally, and the cranks of the mentioned kinematic connection with the walls of the pipe form an angle of 45 degrees, and inside the pipe at the axis level and parallel to them, there is a gable visor that overlaps the end edges of the bottoms when closed shutter, moreover

R = 0.5V + a,

where R is the radius of the crank, m, B is the width of the outlet of the pipe, m, and a is the distance of the axis from the inner surface of the pipe wall, m.

The shutter for ore launch is shown in FIG. 1 is a side view with the shutter open, in FIG. 2 is a vertical section with the shutter closed, in FIG. 3 is a section A-A in FIG. 1.

The shutter comprises two bottoms 5 and 6 mounted on cranks 3 and 4 located under the outlet 1 of the ore discharge 2, forming an arc and mounted with the possibility of rotation in the vertical plane in opposite directions relative to the horizontal axes 7 and 8. Axes 7 and 8 are placed on the outside vertical walls of the pipe 9 and parallel to them. The bottoms 5 and 6 on the cranks 3 and 4 are fixed cantilever with the arc length corresponding to a right angle and with the direction of the free ends of the bottoms 5 and 6 inside the pipe 9. The kinematic connection between the cranks 3 and 4 is made in the form of other cranks 10 fixed on the axes 7 and 8 and 11. The free ends of the cranks 10 and 11 are connected to the rods 12 and 13 of two two-piece power cylinders 14. The two-piece power cylinders 14 are oriented horizontally and placed with gaps relative to the other two walls of the pipe 9. In the initial position with the shutter open, the cranks 3 and 4 are oriented horizontally, and the other cranks 10 and 11 with the walls of the pipe 9 form an angle α = 45 degrees. Inside the pipe 9 at the level of the axes 7 and 8 and parallel to it is fixed a gable visor 15 (Figs. 2 and 3), overlapping in plan the end edges of the bottoms 5 and 6 with the shutter closed and oriented along the axis of symmetry 16 of the pipe 9. Cranks 3, 4 and bottoms 5, 6 are made with stiffeners 17, 18 and 19, 20.

Wherein

R = 0.5 B + a,

where R is the radius of the crank, m, B is the width of the outlet of the pipe, m, and is the removal of the axis from the inner surface of the pipe wall, m

The shutter for ore passes as follows. With the shutter open, the cranks 3 and 4 with the bottoms 5 and 6 attached to them occupy a horizontal position. This position corresponds to the rods 12 and 13 maximally extended from the power cylinders 14 and to the placement of the other cranks 10 and 11 at an angle α = 45 degrees to the vertical walls of the nozzle 9. Due to this, the load is unloaded from the ore pass 2 through its outlet 1. To close the shutter and the overlap of the outlet 1 of the ore pass 2 includes power cylinders 14, while their extendable rods 12 and 13 rotate the cranks 10 and 11 in different directions. When the cranks 10 and 11 are rotated, the axes 7 and 8 rotate with them, and rotate with them cranks 3 and 4 are mounted at right angles to each other with bottoms 5 and 6. In a position corresponding to the vertical arrangement of cranks 3 and 4 with their possible contact with the walls of the pipe 9, the rods 12 and 13 completely slide into the power cylinders 14 that turn off. Bottoms 5 and 6, crossing the flow of cargo discharged from the ore pass 2 with their free edges, are at this point under the gable visor 15, ensuring complete closure of the outlet 1 of the ore pass 2 and the termination of the release of cargo from it.

Due to the fact that during the release of cargo and in the process of closing the outlet 1, the cargo discharged from the ore discharge 2 is bifurcated into two streams with a gable visor 15, the resistances provided by the cargo when it is crossed by the bottoms 5 and 6 are significantly reduced. Moreover, immediately under the visor 15 there is free from the cargo area, eliminating the possibility of jamming of individual pieces of cargo between the bottoms 5 and 6. In addition, due to the fact that the cantilevered on the cranks 3 and 4 of the bottom 5 and 6 in the process of crossing the flow of the load shift with minimal gaps relative to the fixed walls of the pipe 9, the resistance to their movement is also further reduced in comparison with the prototype shutter, because only the front free edges of the bottoms 5 and 6 interact with the load.

The presence of a gable visor 15 also reduces the load on the structural elements of the shutter in its closed state. The selected shutter parameters make it possible, for given sizes of the cross-section (B) of its nozzle 9, to provide for the placement of power cylinders 14 of corresponding sizes, which in turn allow the nozzle 9 to be enlarged to be enlarged with the help of cantilevered 3 and 4 bottoms 5 and 6 of also increased dimensions. The load (stress in the elements) from bending moments acting on the cranks 3 and 4 and on the bottoms 5 and 6 is reduced due to the corresponding stiffeners 17, 18 and 19, 20.

Distinctive features of the invention can improve the reliability of the shutter during the release of cargo through the outlet of the ore pass of increased dimensions and eliminate the possibility of jamming of individual pieces of the unloaded cargo between the bottoms and the cranks holding them.

Claims (1)

Ore gate, containing two bottoms mounted under the crankshaft located under the outlet and forming an arc and mounted to rotate them in a vertical plane in opposite directions relative to the horizontal axes located on the outer sides of the vertical walls of the pipe, and the cranks are kinematically connected to each other, and the power a cylinder, characterized in that the axes are parallel to the said walls of the pipe, the bottoms are cantilevered on the cranks and have an arc length corresponding to to the right angle with the direction of the free ends of the bottoms inside the nozzle, the shutter is equipped with a second power cylinder, and the kinematic connection between the said cranks is made in the form of other cranks fixed to the axes, the free ends of which are connected to the rods of the two power cylinders oriented horizontally and placed with gaps relative to two other walls of the pipe, while the power cylinders are made with two rods and with the possibility of rotation of the other cranks in different directions, while in the initial position and with the shutter open, the cranks of the bottoms are oriented horizontally, and the cranks of the aforementioned kinematic connection with the walls of the nozzle form an angle of 45 °, while inside the nozzle at the axis level and parallel to them is fixed a gable visor that overlaps the end edges of the bottoms when the shutter is closed, and
R = 0.5B + a,
where R is the radius of the bottom crank, m;
In - the width of the outlet of the pipe, m;
a - removal of the axis from the inner surface of the pipe wall, m

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