CN220990953U - Movable ore rock selecting and separating device convenient to disassemble and assemble - Google Patents

Abstract

A movable ore rock selecting and separating device convenient to disassemble and assemble belongs to the technical field of mining equipment and is used for selecting and separating ore rocks in a mining site. The technical proposal is as follows: the base is rectangle steel platform, a plurality of wheels are installed to the bottom surface of base, vibrations batcher, jaw breaker, the switch board, compounding band conveyer, the cylinder is inhaled to magnetism, divide the hopper, the belt cleaner is fixed on the base by back forward in proper order, vibrations batcher discharge gate is just to jaw breaker top feed inlet, jaw breaker discharge gate is just to compounding band conveyer initiating terminal, magnetism is inhaled the cylinder and is at compounding band conveyer end, divide the hopper and inhale the cylinder under the magnetism, divide the hopper to install the belt cleaner, magnetism ore band conveyer installs and fixes in the ore feed opening below of dividing the hopper, rock band conveyer installs and fixes in the rock feed opening below of dividing the hopper. The utility model can be moved to a rock yard for mineral separation, shortens the transportation distance and improves the operation efficiency.

Description

Movable ore rock selecting and separating device convenient to disassemble and assemble

Technical Field

The utility model relates to a mining rock selecting and separating device capable of moving in a mining site and being convenient to disassemble and assemble, and belongs to the technical field of mining equipment.

Background

With the development of the metallurgical industry, the mining productivity is continuously improved, the mining stripping ratio is increased year by year, the stripped iron-containing surrounding rock is continuously increased, and a large number of mines directly store the unused iron-containing surrounding rock in a dump, so that a large amount of resources are wasted. The mixing condition of the ore and the rock is complex, the interlayer phenomenon of the ore and the rock is more, in order to improve the 'two rate' of ore exploitation, the ore and the rock are finely selected and exploited at the position of a mixed source, and the mining and stripping cost is high due to heavy task of the selecting operation of the mine, and the interlayer condition of the ore and the rock is difficult to realize ore and rock separation, so that the ore-drawing and grinding grade is directly influenced. At present, the ore rock selecting and separating equipment of mines is fixedly installed, ores in different storage yards are required to be transported to the site of the ore dressing equipment for separation, and then are transported away respectively, so that the transportation quantity is greatly increased, and the ore dressing cost is increased.

Disclosure of utility model

The utility model aims to solve the technical problem of providing a movable ore selecting and separating device which is convenient to disassemble and assemble, and the device can be used for integrating a plurality of ore dressing devices, moving to an ore heap for ore dressing and separating, realizing that the ore heap can be moved at any time according to a stripping plan, separating and shipping the ore in situ, shortening the transportation distance, reducing the cost, improving the operation efficiency and increasing the economic benefit of enterprises.

The technical scheme for solving the technical problems is as follows:

The utility model provides a portable and make things convenient for ore rock to select separator, it includes the base, vibration feeder, jaw breaker, the switch board, compounding band conveyer, magnetism is inhaled the cylinder, divide the hopper, the belt cleaner, magnetism ore band conveyer, rock band conveyer, the base is rectangle steel platform, a plurality of wheels are installed to the bottom surface of base, front end wheel is furnished with universal device, vibration feeder, jaw breaker, the switch board, the compounding band conveyer, magnetism is inhaled the cylinder, divide the hopper, the belt cleaner is fixed on the base from the back forward in proper order, vibration feeder discharge gate below just to jaw breaker top feed inlet, the compounding band conveyer initiating terminal is directly right to below the jaw breaker discharge gate, magnetism is inhaled the cylinder at compounding band conveyer end, divide the hopper to be under magnetism and inhale the cylinder, divide hopper top conveyer belt driving direction edge to install the belt cleaner, magnetism ore band conveyer initiating terminal installs and fixes under the ore feed inlet of dividing the hopper, rock band conveyer installs and fixes under the rock band conveyer of dividing the hopper, magnetism band conveyer discharge gate below and rock band conveyer direction mutually perpendicular.

Above-mentioned portable and convenient ore deposit rock of dismouting select separator, four hydraulic support legs and four hydraulic pressure fixed legs are installed to the base below, evenly distributed is in the base four corners, and hydraulic support leg is vertical to be fixed on the base, and hydraulic support leg bottom is planar structure, and the plane lower extreme is tightly connected with ground top, and hydraulic pressure fixed leg slope is fixed on the base, and hydraulic pressure fixed leg's lower extreme is the cone structure, and the cone front end is inserted with ground and is connected.

Above-mentioned portable and make things convenient for ore deposit of dismouting to select separator, shock attenuation wheel is installed respectively to magnetism ore belt conveyor and rock belt conveyor's frame below, and the toper is supported respectively to magnetism ore belt conveyor and rock belt conveyor's frame below front end, and the lower extreme and the ground of toper support are inserted and are connected.

The beneficial effects of the utility model are as follows:

wheels are arranged below a base, a vibrating feeder, a jaw crusher, a power distribution cabinet, a mixing belt conveyor, a magnetic suction roller, a distributing hopper and a belt cleaner are arranged on the base, and the base can convey the equipment to a rock separating site for separating operation; the mineral rock mixed materials are vibrated by the feeder and conveyed to the jaw crusher at a constant speed, and the jaw crusher can ensure that the size of a source conveyed to the magnetic suction roller is uniform, so that the mineral rock selecting effect is ensured; the magnetic system roller separates the mixed materials to the ore rock outlet of the separating hopper by utilizing the magnetic property of magnetite; the buffer column is additionally arranged on the plane of the distributing hopper, so that the impact of falling rocks on the rock conveying belt is retarded; the magnetic ore belt conveyor and the rock belt conveyor can move through damping wheels arranged below the frame, and separated magnetic ores are respectively stacked; the bottom surfaces of the hydraulic supporting legs of the base are supported on the ground and used for supporting the whole equipment, so that the tire stress of the wheels is avoided; the hydraulic fixing legs of the base can fix the base with the ground, so that the effect of stabilizing the whole equipment is achieved.

The utility model has the advantages of stable structure, convenient use, rapid assembly and disassembly, capability of moving to a rock heap for mineral separation at any time according to a mining and stripping plan, capability of accurately picking mineral rock mixing materials, realization of mineral rock separation and shipment, shortening of transportation distance, reduction of cost, improvement of operation efficiency and increase of economic benefit of enterprises.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a sectional view of E-E of FIG. 1;

fig. 3 is a partial schematic view in the N-direction of fig. 2.

The figures are labeled as follows: base 1, vibrations batcher 2, jaw breaker 3, switch board 4, compounding band conveyer 5, magnetism inhale cylinder 6, divide hopper 7, belt sweeper 8, magnetism ore band conveyer 9, rock band conveyer 10, hydraulic support leg 11, hydraulic pressure fixed leg 12, wheel 13, universal device 14, shock attenuation wheel 15, toper support 16, ground 17, compounding 18, buffer column 19, ore feed opening 20, rock feed opening 21.

Detailed Description

The utility model consists of a base 1, a vibrating feeder 2, a jaw crusher 3, a power distribution cabinet 4, a mixing belt conveyor 5, a magnetic suction roller 6, a distributing hopper 7, a belt cleaner 8, a magnetic ore belt conveyor 9 and a rock belt conveyor 10.

Fig. 1 shows that the base 1 is a rectangular steel platform, a plurality of wheels 13 are arranged on the bottom surface of the base 1, the front wheels 13 are provided with universal devices 14, and the base 1 can be moved to a rock separating site through the wheels 13.

Fig. 1, 2 and 3 show that four hydraulic support legs 11 and four hydraulic fixing legs 12 are arranged below the base 1 and are uniformly distributed at four corners of the base 1. The hydraulic support legs 11 are vertically fixed on the base 1, the bottoms of the hydraulic support legs 11 are of a plane structure, the lower ends of the planes are tightly propped against the ground 17, and the hydraulic support legs 11 are used for supporting the whole equipment and avoiding the stress of tires of the wheels 13. The hydraulic fixing legs 12 are obliquely fixed on the base 1, the lower ends of the hydraulic fixing legs 12 are in cone structures, the front ends of the cones are connected with the ground 17 in an inserted mode, and the hydraulic fixing legs 12 can fix the base 1 and the ground 17 and play a role in stabilizing integral equipment.

Fig. 1 and 2 show that a vibrating feeder 2, a jaw crusher 3, a power distribution cabinet 4, a mixing belt conveyor 5, a magnetic suction roller 6, a distributing hopper 7 and a belt cleaner 8 are sequentially fixed on a base 1 from back to front. The lower part of the discharge hole of the vibration feeder 2 is right opposite to the feed hole above the jaw crusher 3, the lower part of the discharge hole of the jaw crusher 3 is right opposite to the starting end of the mixing belt conveyor 5, the magnetic suction roller 6 is arranged at the tail end of the mixing belt conveyor 5, the distributing hopper 7 is right below the magnetic suction roller 6, and the belt cleaner 8 is arranged at the edge of the return direction of the conveying belt above the distributing hopper 7.

Fig. 1 and 3 show that the initial end of the magnetic ore belt conveyor 9 is fixedly arranged below the ore blanking opening 20 of the distributing hopper 7, the rock belt conveyor 10 is fixedly arranged below the rock blanking opening 21 of the distributing hopper 7, and the conveying directions of the magnetic ore belt conveyor 9 and the rock belt conveyor 10 are mutually perpendicular.

Fig. 3 shows that the rock discharge port 21 of the distributing hopper 7 has a V-shaped hopper-like structure, and a plurality of buffer columns 19 are uniformly installed on the inner plane of the hopper, and the buffer columns 19 buffer the impact of falling rocks on the rock conveying belt.

Fig. 1 shows that shock absorbing wheels 15 are respectively arranged below the frames of the magnetic ore belt conveyor 9 and the rock belt conveyor 10, conical supports 16 are respectively arranged at the front ends below the frames of the magnetic ore belt conveyor and the 9 rock belt conveyor 10, and the lower ends of the conical supports 16 are connected with the ground 17 in an inserting mode. The magnetic ore belt conveyor 9 and the rock belt conveyor 10 can be moved to a position for separating ore and rock by the cooperation of the base 1 through the damping wheels 15, and the conical support 16 can ensure that displacement is not generated stably in the operation process.

The working process of the utility model is as follows:

When the equipment needs to work, firstly, the hydraulic support legs 11 in four directions are stretched to be attached to the ground to effectively support the base 1, the base 1 is in a horizontal state, and then the hydraulic fixing legs 12 are stretched and inserted into the ground 17 to fix the base 1;

through switch board 4 start-up equipment, the excavator is shoveled vibrations batcher 2 with compounding 18, vibrations batcher 2 evenly send into jaw breaker 3 with compounding 18, after the even cubic is processed into to the compounding of variation in size through jaw breaker 3, fall to compounding belt conveyor 5 initiating terminal, carry to magnetism and inhale cylinder 6 afterwards, the rock that does not have magnetism directly falls to rock belt conveyor 10 below rock discharge gate 21 in the feed hopper 7 and carries to the rock heap, contain the ore and break away from the magnetic attraction under the stop of belt sweeper 8, the magnetic ore belt conveyor 9 that falls to the ore feed opening 20 below of feed hopper 7 and carry to the ore heap, finally realize the accurate selection of ore breakage.

When the equipment needs to be moved, firstly, the magnetic ore belt conveyor 9 and the rock belt conveyor 10 are respectively lifted to the conical supports 16 by using the excavator to separate from the ground 17, the magnetic ore belt conveyor and the rock belt conveyor are moved to the designed position, then, the front end pull ring of the universal device 14 which is connected with the front end below the base 1 by using the excavator is dragged, the rolling direction of the wheels 13 is changed by means of rotation of the universal device 14 during turning, and finally, the convenient movement of the equipment is realized.

One embodiment of the utility model is as follows:

The length of the base 1 is 14950mm, the width is 2960mm, the minimum clearance from the ground is 240mm, and the diameter of the wheel 13 is 1200mm;

the vibration feeder 2 is a bar feeder, the model is GDZ1142, the length is multiplied by the width is multiplied by 1142mm multiplied by 1100mm, and the total power is 15kw;

The jaw crusher 3 is a jaw crusher, the model is C106, the width of a feed ore mouth is 1060mm, the depth of the feed ore mouth is 700mm, the rotating speed is 280r/min, and the total power is 132kw;

The model of the mixing belt conveyor 5 is B1400, the length is 10500mm, the width is 1400mm, the inclination angle is 18 degrees, and the running speed V is less than or equal to 1.4m/s;

The model of the magnetic attraction roller 6 is CTG-1050 multiplied by 1600, and the roller skin magnetic field is more than or equal to 5000GS;

The distributing hopper 7 is of a trapezoid groove-shaped structure, the long side is 1600mm, the short side is 800mm, the trapezoid height is 1300mm, and the groove side height is 200mm;

The model of the magnetic ore belt conveyor 9 is B1000, the length is 11000mm, the width is 1000mm, and the inclination angle is 18 DEG running speed V less than or equal to 1.25m/s;

The model of the rock belt conveyor 10 is B1000, the length is 11000mm, the width is 1000mm, and the inclination angle is 18 DEG running speed V less than or equal to 1.25m/s;

The hydraulic support leg 11 has a diameter of 150mm, a length of 700mm and a maximum extension length of 600mm;

The hydraulic fixing leg 12 has a diameter of 130mm, a length of 900mm and a maximum extension length of 800mm.

Claims (3)

1. Movable ore rock selecting and separating device convenient to disassemble and assemble is characterized in that: the device comprises a base (1), a vibration feeder (2), a jaw crusher (3), a power distribution cabinet (4), a mixing belt conveyor (5), a magnetic suction roller (6), a distributing hopper (7), a belt cleaner (8), a magnetic ore belt conveyor (9) and a rock belt conveyor (10), wherein the base (1) is a rectangular steel platform, a plurality of wheels (13) are arranged on the bottom surface of the base (1), universal devices (14) are arranged on the front wheels (13), the vibration feeder (2), the jaw crusher (3), the power distribution cabinet (4), the mixing belt conveyor (5), the magnetic suction roller (6), the distributing hopper (7) and the belt cleaner (8) are sequentially fixed on the base (1) from back to front, the lower part of the discharging hole of the vibration feeder (2) is just opposite to the feeding hole above the jaw crusher (3), the front end of the magnetic suction roller (6) is arranged on the tail end of the mixing belt conveyor (5), the distributing hopper (7) is just below the magnetic suction roller (6), the upper part of the magnetic suction roller (7) is fixedly arranged on the edge of the ore belt conveyor (8), the lower part of the magnetic suction roller (7) is fixedly arranged on the edge of the ore belt conveyor (20), the rock belt conveyor (10) is arranged and fixed below a rock blanking opening (21) of the distributing hopper (7), and the conveying directions of the magnetic ore belt conveyor (9) and the rock belt conveyor (10) are mutually perpendicular.

2. The movable and easily detachable rock selecting and separating device according to claim 1, wherein: four hydraulic support legs (11) and four hydraulic fixing legs (12) are installed below the base (1), the four corners of the base (1) are evenly distributed, the hydraulic support legs (11) are vertically fixed on the base (1), the bottoms of the hydraulic support legs (11) are of a planar structure, the lower ends of the planes are tightly propped against the ground (17) to be connected, the hydraulic fixing legs (12) are obliquely fixed on the base (1), the lower ends of the hydraulic fixing legs (12) are of a cone structure, and the front ends of the cones are connected with the ground (17) in an inserting mode.

3. The movable and easily detachable rock selecting and separating device according to claim 1, wherein: shock absorption wheels (15) are respectively arranged below the frames of the magnetic ore belt conveyor (9) and the rock belt conveyor (10), conical supports (16) are respectively arranged at the front ends below the frames of the magnetic ore belt conveyor (9) and the rock belt conveyor (10), and the lower ends of the conical supports (16) are connected with the ground (17) in an inserting mode.