CN112502768A

CN112502768A - Mining wisdom conveying system

Info

Publication number: CN112502768A
Application number: CN202011388359.2A
Authority: CN
Inventors: 苏万里
Original assignee: Huainan Baibang Pneumatic Technology Co ltd
Current assignee: Huainan Baibang Pneumatic Technology Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-03-16
Anticipated expiration: 2040-12-01
Also published as: CN112502768B

Abstract

The invention discloses a mining intelligent transportation system, relates to the field of mine transportation, and aims to solve the problems that the existing mining transportation system in the prior art needs manual adjustment of transportation tracks and positions, so that the working efficiency is low and the working strength is high. The utility model discloses a lifting goods lift, including lift goods lift, branch workbin, first mining goods shelves and the mining goods shelves of second, the preceding terminal surface of lift goods lift lower extreme is provided with the landslide, the one side of dividing the workbin is provided with first transportation frame, the opposite side of dividing the workbin is provided with second transportation frame, the branch workbin is installed to the upper end of lift goods lift, it is provided with the opening to divide between workbin and the lift goods lift, the internally mounted of branch workbin has first stock guide and second stock guide, the movable frame is all installed to the rear end of first stock guide and second stock guide, the internally mounted of movable frame has first electronic jar, the electronic jar of second is installed to the rear end of movable frame.

Description

Mining wisdom conveying system

Technical Field

The invention relates to the technical field of mine transportation, in particular to a mining intelligent transportation system.

Background

Mine transportation refers to various transportation operations for transporting useful minerals, waste rocks, and the like mined underground from a mining face to ground transfer stations, washing and dressing plants, or for transporting personnel, materials, equipment, and other materials in and out. Mine transportation is divided into the following parts according to transportation equipment: rail transportation such as mine locomotive transportation and steel wire rope transportation; trackless transport such as mining conveyor transport, hydraulic transport and cableway transport. The underground ore transportation refers to the transportation from a stope face to a mine shaft or a mining area ore bin, and the ore is loaded in a stage transportation roadway to form a train which is dragged by an electric locomotive to be sent to the mine shaft or is transported by a conveyor. The ore hoisting means transporting from a shaft bottom yard to a well head, and transporting the ore to the well head along a vertical shaft, an inclined shaft or a slope by using a winch, a steel wire rope, a hoisting container, a belt conveyor or a dump truck. The ore is transported on the ground, the ore is transported to a concentrating mill or a user by adopting an electric locomotive, an aerial cableway, a railway train or an automobile, and the waste rocks are transported to a waste rock yard.

The mining belt conveyor is also called as a belt conveyor, the conveyor belt moves according to the friction transmission principle, and the mining belt conveyor is suitable for conveying powdery, granular and small-block low-abrasion materials and bagged materials which have the bulk density of less than 1.67 per ton per cubic meter and are easy to take out, such as coal, broken stone, sand, cement, chemical fertilizer, grain and the like. However, the existing mining transportation system needs manual adjustment of transportation track and position, which results in low working efficiency and high working strength; therefore, the market urgently needs to develop a mining intelligent transportation system to help people solve the existing problems.

Disclosure of Invention

The invention aims to provide a mining intelligent transportation system, and aims to solve the problems of low working efficiency and high working strength caused by the fact that the existing mining transportation system provided in the background technology needs manual adjustment of transportation tracks and positions.

In order to achieve the purpose, the invention provides the following technical scheme: a mining intelligent transportation system comprises a lifting goods elevator, a material distribution box is installed at the upper end of the lifting goods elevator, a first mining goods shelf and a second mining goods shelf are installed at the lower end of the interior of the lifting goods elevator, a landslide is arranged on the front end face of the lower end of the lifting goods elevator, a first transportation frame is arranged on one side of the material distribution box, a second transportation frame is arranged on the other side of the material distribution box, a material distribution box is installed at the upper end of the lifting goods elevator, a through hole is formed between the material distribution box and the lifting goods elevator, a first material guide plate and a second material guide plate are installed inside the material distribution box, a movable frame is installed at the rear ends of the first material guide plate and the second material guide plate, a first electric cylinder is installed inside the movable frame, a second electric cylinder is installed at the rear end of the movable frame, a cavity is arranged inside the first mining goods shelf and the second mining goods shelf, the cavity penetrates through the front end and the rear end of the first mining goods shelf and, the mining device comprises a first mining goods shelf, a second mining goods shelf, a weighing sensor, a first mining goods shelf, a second mining goods shelf, a wear-resistant weighing plate, a weighing sensor and infrared detectors.

Preferably, lift goods lift with divide workbin welded connection, just lift goods lift sets up body structure with the landslide.

Preferably, a connecting plate is installed between the first mining goods shelf and the second mining goods shelf, the connecting plate is connected with the first mining goods shelf and the second mining goods shelf respectively through fixing screws, extension plates are installed on two sides of the connecting plate, and the extension plates are connected with the connecting plate in a welded mode.

Preferably, the internally mounted of extension plate has the lifter plate, lifter plate and extension plate welded connection, just the strengthening rib is all installed to the upper end and the lower extreme of extension plate, the strengthening rib passes through fixed screw connection with first mining goods shelves, the mining goods shelves of second and extension plate respectively, the internally mounted of lifter plate has the screw thread lead screw, gear motor is installed to the lower extreme of screw thread lead screw, gear motor passes through fixed screw connection with the lift goods ladder, just the screw thread lead screw passes through shaft coupling fixed connection with gear motor, the upper end of screw thread lead screw extends to the branch workbin inside and passes through the axle sleeve rotation with the branch workbin and be connected, the screw thread lead screw passes lifter plate and lifter plate threaded connection.

Preferably, the support frame is all installed to the inside of first transportation frame and second transportation frame, the internally mounted of support frame has the live-rollers, the live-rollers is provided with a plurality of, a plurality of the externally mounted of live-rollers has the conveyer belt, and the conveyer belt passes through the rack and is connected with the live-rollers meshing, the motor cover is installed to the below of support frame, the motor cover passes through fixed screw with the support frame and is connected, just the internally mounted of motor cover has servo motor, and servo motor passes through synchronous belt drive with the live-rollers and is connected, transportation frame gyro wheel is all installed to the both sides of support frame, transportation frame baffle is all installed to the upper end of first transportation frame and second transportation frame, transportation frame baffle and support frame welded connection.

Preferably, install the baffle between the inside of branch workbin, and the both sides of baffle and the lower extreme both sides of dividing the workbin all are provided with the unloading slope, the inside one side of dividing the workbin is provided with first discharge gate, the position of first discharge gate is corresponding with the position of first transportation frame, just the opposite side of dividing the workbin is provided with the second discharge gate, the position of second discharge gate is corresponding with the position of second transportation frame.

Preferably, the connecting hinges are respectively installed on one sides of the first material guide plate and the second material guide plate, the first material guide plate and the second material guide plate are movably connected with the movable frame through the connecting hinges, and the opening position of the first material guide plate is opposite to the opening position of the second material guide plate.

Preferably, the engaging lugs are installed at two ends of the first electric cylinder, the first electric cylinder is provided with two parts, namely the first electric cylinder is movably connected with the second material guide plate, the first material guide plate and the movable frame through the engaging lugs, and two ends of the second electric cylinder are respectively connected with the movable frame and the material distribution box through fixing screws.

Compared with the prior art, the invention has the beneficial effects that:

the invention can place the mineral materials to be transported inside the first mine goods shelf and the second mine goods shelf through the arrangement of the lifting goods elevator, when in use, the weight of the mineral materials is detected through the weighing sensor at the lower end of the wear-resistant weighing plate, the size type of the mineral materials is detected through the infrared detector inside the cavity, the rotation distance of the speed reducing motor is adjusted through the numerical judgment set by the singlechip, so that the positions of the first mine goods shelf and the second mine goods shelf inside the distributing box can be adjusted, after the required positions are adjusted, the movable frame can be pushed by the second electric cylinder, the mineral materials inside the first mine goods shelf and the second mine goods shelf are pushed out of the cavity, the first electric cylinder extends to push the mineral materials to the first discharge port or the second discharge port, the mineral materials slide into the first transport frame or the second transport frame through the blanking slope, and are transported in different directions, automatic identification can effectively improve work efficiency, and does not need manual long-term check, thereby effectively reducing the working strength of workers and improving the work efficiency.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a view showing the internal structure of the distribution box of the present invention;

FIG. 3 is an overall front view of the movable frame of the present invention;

FIG. 4 is an overall front view of a first mining rack and a second mining rack of the present invention;

fig. 5 is a partially enlarged view of the region a of the present invention.

In the figure: 1. lifting a goods elevator; 2. a material distributing box; 3. a first mining rack; 4. landslide; 5. a first transport rack; 6. a second transport rack; 7. a support frame; 8. a rotating roller; 9. a motor cover; 10. a transport rack roller; 11. a transport rack baffle; 12. a second mining rack; 13. a first discharge port; 14. a second discharge port; 15. a blanking slope; 16. a first material guide plate; 17. a second material guide plate; 18. a connecting hinge; 19. a first electric cylinder; 20. connecting lugs; 21. a movable frame; 22. a second electric cylinder; 23. a wear-resistant weighing plate; 24. a weighing sensor; 25. a cavity; 26. a connecting plate; 27. a shelf rail; 28. a reduction motor; 29. a threaded lead screw; 30. an extension plate; 31. reinforcing ribs; 32. a lifting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a mining intelligent transportation system comprises a lifting goods elevator 1, a material distribution box 2 is installed at the upper end of the lifting goods elevator 1, a first mining goods shelf 3 and a second mining goods shelf 12 are installed at the lower end inside the lifting goods elevator 1, a slide slope 4 is arranged on the front end face of the lower end of the lifting goods elevator 1, a first transportation frame 5 is arranged on one side of the material distribution box 2, a second transportation frame 6 is arranged on the other side of the material distribution box 2, the material distribution box 2 is installed at the upper end of the lifting goods elevator 1, a through hole is formed between the material distribution box 2 and the lifting goods elevator 1, a first material guide plate 16 and a second material guide plate 17 are installed inside the material distribution box 2, movable frames 21 are installed at the rear ends of the first material guide plate 16 and the second material guide plate 17, first electric cylinders 19 are installed inside the movable frames 21, second electric cylinders 22 are installed at the rear ends of the movable frames 21, cavities 25 are arranged inside the first goods shelf 3 and the second, the cavity 25 penetrates through the front end and the rear end of the first mining shelf 3 and the second mining shelf 12, the lower ends of the interiors of the first mining shelf 3 and the second mining shelf 12 are respectively provided with a wear-resistant weighing plate 23, the lower end of the wear-resistant weighing plate 23 is provided with a weighing sensor 24, the upper ends of the first mining shelf 3 and the second mining shelf 12 are respectively provided with an infrared detector, mineral materials to be transported can be placed in the interiors of the first mining shelf 3 and the second mining shelf 12, the weight of the mineral materials is detected through the weighing sensor 24 at the lower end of the wear-resistant weighing plate 23, the size type of the mineral materials is detected through the infrared detector in the cavity 25, the rotating distance of the speed reducing motor 28 is adjusted through numerical judgment set by the single chip microcomputer, transportation in different directions is carried out, automatic identification is carried out, the working efficiency can be effectively improved, manual long-term and check are not needed, and therefore the working strength of workers, the work efficiency is improved, the weighing sensor 24 adopts a FN2420 force retransmission sensor, the single chip microcomputer adopts an STM32F103RCT6 single chip microcomputer, and the infrared detector adopts a SAJ75-ABT-60 infrared detector.

Further, lift goods lift 1 with divide workbin 2 welded connection, and lift goods lift 1 sets up structure as an organic whole with landslide 4, inside accessible landslide 4 conveniently put into first mining goods shelves 3 and the mining goods shelves 12 of second with mineral substance to carry out transportation work.

Further, a connecting plate 26 is installed between the first mining shelf 3 and the second mining shelf 12, the connecting plate 26 is connected with the first mining shelf 3 and the second mining shelf 12 through fixing screws respectively, extension plates 30 are installed on two sides of the connecting plate 26, the extension plates 30 are connected with the connecting plate 26 in a welding mode, the first mining shelf 3 and the second mining shelf 12 can be fixed through the connecting plate 26, and relative stability can be kept in the moving and transporting process.

Further, a lifting plate 32 is installed inside the extension plate 30, the lifting plate 32 is connected with the extension plate 30 in a welding mode, reinforcing ribs 31 are installed at the upper end and the lower end of the extension plate 30, the reinforcing ribs 31 are respectively connected with the first mining shelf 3, the second mining shelf 12 and the extension plate 30 through fixing screws, a threaded lead screw 29 is installed inside the lifting plate 32, a speed reducing motor 28 is installed at the lower end of the threaded lead screw 29, the speed reducing motor 28 is connected with the lifting goods elevator 1 through the fixing screws, the threaded lead screw 29 is fixedly connected with the speed reducing motor 28 through a coupler, the upper end of the threaded lead screw 29 extends into the distribution box 2 and is rotatably connected with the distribution box 2 through a shaft sleeve, the threaded lead screw 29 penetrates through the lifting plate 32 and is in threaded connection with the lifting plate 32, the threaded lead screw 29 is driven to rotate through the speed reducing motor 28, the threaded lead screw 29 drives the lifting plate 32 to move, so that the first mining shelf 3 and the second mining shelf 12 can be raised and lowered.

Further, the first transport frame 5 and the second transport frame 6 are internally provided with a support frame 7, the support frame 7 is internally provided with a plurality of rotating rollers 8, the plurality of rotating rollers 8 are externally provided with a conveyor belt, the conveyor belt is meshed and connected with the rotating roller 8 through the tooth row, a motor cover 9 is arranged below the supporting frame 7, the motor cover 9 is connected with the supporting frame 7 through a fixing screw, a servo motor is arranged in the motor cover 9 and is connected with the rotating roller 8 through a synchronous belt in a transmission way, the two sides of the supporting frame 7 are both provided with a transport frame roller 10, the upper ends of the first transport frame 5 and the second transport frame 6 are both provided with a transport frame baffle 11, the transport frame baffle 11 is welded with the supporting frame 7, the rotating roller 8 is driven to rotate through the servo motor, and the rotating roller 8 drives the conveying belt to move, so that the mineral materials on the surface can be conveyed.

Further, install the baffle between the inside of branch workbin 2, and the both sides of baffle and the lower extreme both sides of branch workbin 2 all are provided with unloading slope 15, divide inside one side of workbin 2 to be provided with first discharge gate 13, the position of first discharge gate 13 is corresponding with the position of first transportation frame 5, and the opposite side of branch workbin 2 is provided with second discharge gate 14, the position of second discharge gate 14 is corresponding with the position of second transportation frame 6, can cooperate first stock guide 16 and the transport of the mineral materials work of different positions through the first discharge gate 13 and the second discharge gate 14 of different positions.

Further, a connecting hinge 18 is installed on one side of each of the first material guide plate 16 and the second material guide plate 17, the first material guide plate 16 and the second material guide plate 17 are movably connected with the movable frame 21 through the connecting hinge 18, the opening position of the first material guide plate 16 is opposite to the opening position of the second material guide plate 17, and materials can be pushed into the blanking slope 15 from the inside of the material distribution box 2 through the first material guide plate 16 and the second material guide plate 17, so that the blanking work is facilitated.

Further, engaging lugs 20 are installed at two ends of the first electric cylinder 19, the first electric cylinder 19 is provided with two first electric cylinders 19, the two first electric cylinders 19 are connected with the second guide plate 17, the first guide plate 16 and the movable frame 21 through the engaging lugs 20 respectively, two ends of the second electric cylinder 22 are connected with the movable frame 21 and the distributing box 2 through fixing screws respectively, the movable frame 21 can be pushed through the second electric cylinder 22, the mineral materials inside the first mining shelf 3 and the second mining shelf 12 are pushed out of the cavity 25, the first electric cylinder 19 extends again, the mineral materials are pushed to the first discharge port 13 or the second discharge port 14, the mineral materials slide into the upper portion of the first transportation frame 5 or the second transportation frame 6 through the blanking slope 15, and transportation in different directions is carried out.

The working principle is as follows: when the mining shelf lifting device is used, mineral materials to be transported can be placed inside the first mining shelf 3 and the second mining shelf 12, the mineral materials can be conveniently placed inside the first mining shelf 3 and the second mining shelf 12 through the landslide 4 so as to be transported, the weight of the mineral materials is detected through the weighing sensor 24 at the lower end of the wear-resistant weighing plate 23, the size type of the mineral materials is detected through the infrared detector inside the cavity 25, the rotation distance of the speed reducing motor 28 is adjusted through numerical judgment set by the single chip microcomputer, the threaded lead screw 29 is driven by the speed reducing motor 28 to rotate, the lifting plate 32 is driven by the threaded lead screw 29 to move, the lifting plate 32 drives the extension plate 30 and the connecting plate 26 to lift, so that the first mining shelf 3 and the second mining shelf 12 can lift and descend, after the position is adjusted to be required, the movable frame 21 can be pushed through the second electric cylinder 22, the mineral materials in the first mining goods shelf 3 and the second mining goods shelf 12 are pushed out of the cavity 25, the first electric cylinder 19 extends to push the mineral materials to the first discharge port 13 or the second discharge port 14, the mineral materials slide into the upper portion of the first transportation frame 5 or the second transportation frame 6 through the blanking slope 15, the rotating roller 8 is driven by the servo motor to rotate, the rotating roller 8 drives the conveyor belt to move, and therefore the mineral materials on the surface can be transported.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a mining wisdom conveying system, includes lift goods lift (1), its characterized in that: the material distribution box is characterized in that a material distribution box (2) is installed at the upper end of the lifting goods lift (1), a first mining goods shelf (3) and a second mining goods shelf (12) are installed at the lower end inside the lifting goods lift (1), a landslide (4) is arranged on the front end face of the lower end of the lifting goods lift (1), a first transportation frame (5) is arranged on one side of the material distribution box (2), a second transportation frame (6) is arranged on the other side of the material distribution box (2), the material distribution box (2) is installed at the upper end of the lifting goods lift (1), a through hole is formed between the material distribution box (2) and the lifting goods lift (1), a first guide plate (16) and a second guide plate (17) are installed inside the material distribution box (2), a movable frame (21) is installed at the rear ends of the first guide plate (16) and the second guide plate (17), a first electric cylinder (19) is installed inside the movable frame (21), the electronic jar of second (22) is installed to the rear end of adjustable frame (21), the inside of first mining goods shelves (3) and the mining goods shelves of second (12) all is provided with cavity (25), cavity (25) link up the front end and the rear end of first mining goods shelves (3) and the mining goods shelves of second (12), wear-resisting weighing plate (23) are all installed to the inside lower extreme of first mining goods shelves (3) and the mining goods shelves of second (12), weighing sensor (24) are installed to the lower extreme of wear-resisting weighing plate (23), just the upper end of first mining goods shelves (3) and the mining goods shelves of second (12) all is provided with infrared detector.

2. The mining intelligent transportation system of claim 1, wherein: lift goods lift (1) with divide workbin (2) welded connection, just lift goods lift (1) sets up structure as an organic whole with landslide (4).

3. The mining intelligent transportation system of claim 1, wherein: a connecting plate (26) is installed between the first mining shelf (3) and the second mining shelf (12), the connecting plate (26) is connected with the first mining shelf (3) and the second mining shelf (12) through fixing screws respectively, extension plates (30) are installed on two sides of the connecting plate (26), and the extension plates (30) are connected with the connecting plate (26) in a welded mode.

4. The mining intelligent transportation system of claim 3, wherein: a lifting plate (32) is arranged in the extension plate (30), the lifting plate (32) is connected with the extension plate (30) in a welding way, reinforcing ribs (31) are respectively installed at the upper end and the lower end of the extension plate (30), the reinforcing ribs (31) are respectively connected with the first mining goods shelf (3), the second mining goods shelf (12) and the extension plate (30) through fixing screws, a threaded lead screw (29) is arranged in the lifting plate (32), a speed reducing motor (28) is arranged at the lower end of the threaded lead screw (29), the speed reducing motor (28) is connected with the lifting goods elevator (1) through a fixing screw, and the threaded screw rod (29) is fixedly connected with the speed reducing motor (28) through a coupler, the upper end of the threaded lead screw (29) extends into the material distribution box (2) and is rotationally connected with the material distribution box (2) through a shaft sleeve, the threaded lead screw (29) penetrates through the lifting plate (32) and is in threaded connection with the lifting plate (32).

5. The mining intelligent transportation system of claim 1, wherein: the first transportation frame (5) and the second transportation frame (6) are internally provided with a support frame (7), the inside of the supporting frame (7) is provided with a plurality of rotating rollers (8), the outside of the rotating rollers (8) is provided with a conveyor belt, the conveyor belt is meshed and connected with the rotating roller (8) through the tooth row, a motor cover (9) is arranged below the supporting frame (7), the motor cover (9) is connected with the support frame (7) through a fixing screw, a servo motor is arranged in the motor cover (9) and is connected with the rotating roller (8) through a synchronous belt in a transmission way, transportation frame gyro wheel (10) are all installed to the both sides of support frame (7), transportation frame baffle (11) are all installed to the upper end of first transportation frame (5) and second transportation frame (6), transportation frame baffle (11) and support frame (7) welded connection.

6. The mining intelligent transportation system of claim 1, wherein: install the baffle between the inside of branch workbin (2), and the both sides of baffle and the lower extreme both sides of branch workbin (2) all are provided with unloading slope (15), the inside one side of branch workbin (2) is provided with first discharge gate (13), the position of first discharge gate (13) is corresponding with the position of first transportation frame (5), just the opposite side of branch workbin (2) is provided with second discharge gate (14), the position of second discharge gate (14) is corresponding with the position of second transportation frame (6).

7. The mining intelligent transportation system of claim 1, wherein: the connecting hinges (18) are respectively installed on one sides of the first material guide plate (16) and the second material guide plate (17), the first material guide plate (16) and the second material guide plate (17) are movably connected with the movable frame (21) through the connecting hinges (18), and the opening position of the first material guide plate (16) is opposite to the opening position of the second material guide plate (17).

8. The mining intelligent transportation system of claim 7, wherein: engaging lug (20) are all installed at the both ends of first electronic jar (19), first electronic jar (19) are provided with two, two first electronic jar (19) all through engaging lug (20) respectively with second stock guide (17), first stock guide (16) and activity frame (21) swing joint, the both ends of second electronic jar (22) respectively with activity frame (21) with divide workbin (2) to pass through fixed screw connection.