CN117645096A - Mining conveyer of preventing side leakage - Google Patents

Abstract

The invention relates to the technical field of mining conveyors, and provides a side leakage-proof mining conveyor, which comprises a mounting frame, a scraping belt structure, a flexible sealing layer, a storage box body, a tension control assembly and a position limiting assembly, wherein the scraping belt structure is arranged in the mounting frame in a transmission manner, the flexible sealing layer is arranged in the mounting frame through a plurality of sliding control assemblies, the flexible sealing layer is positioned at the inner side of the scraping belt structure, the storage box body is arranged in the mounting frame, one side of the flexible sealing layer is fixedly connected with the inner bottom wall of the storage box body, a plurality of tension control assemblies are arranged in the storage box body, and the tension control assemblies are used for enabling the flexible sealing layer to keep enough tension when the height of a part area of the flexible sealing layer is adjusted, and the position limiting assembly is arranged in the mounting frame. Through above-mentioned technical scheme, solved among the prior art when removing the ore from mining conveyer's middle part region, the problem that appears the ore side to leak easily.

Description

Mining conveyer of preventing side leakage

Technical Field

The invention relates to the technical field of mining conveyors, in particular to a side leakage prevention mining conveyor.

Background

The mining conveyor is used in the mineral exploitation process, generally refers to a conveyor such as a belt conveyor or a scraper conveyor, and the like, the conveyor belt or the scraper conveyor is driven by a driving device to circularly move so as to realize the conveying operation of the mineral, but the size of the produced mineral and the steering structure of the conveyor in the conveying process are fixed, most of the mining conveyor adopts a two-head conveying mode, namely, the mineral is placed on the conveyor belt or the scraper conveyor on one side of the mining conveyor, then the mineral is driven to move towards the other side by the conveyor belt or the scraper conveyor, so that the mineral automatically falls and moves out on the other side of the mining conveyor, and because a user needs to carry out the mineral from the conveyor in the middle area of the mining conveyor when carrying the mineral, but because the mineral is conveyed by the conveyor, in order to avoid the problem that the mineral leaks on the upper side of the mining conveyor, the mining conveyor is often arranged on both sides of the mining conveyor, the mining conveyor is not easy to move out of the mineral on the middle area of the mining conveyor when the mineral is carried by the user, and the mineral is not easy to move out on the mining conveyor in the middle area when the mineral is not easy to move out of the mining conveyor.

Disclosure of Invention

The invention provides a side leakage prevention mining conveyor, which solves the problem that side leakage of ores is easy to occur when ores are moved out of the middle area of the mining conveyor in the prior art.

The technical scheme of the invention is as follows: the utility model provides a prevent side hourglass mining conveyor, includes the mounting frame, still includes:

the scraping belt structure is arranged in the mounting frame in a transmission way;

the flexible sealing layer is arranged in the mounting frame through a plurality of sliding control assemblies and is positioned on the inner side of the scraping belt structure;

the storage box body is arranged in the mounting frame, and one side of the flexible sealing layer is fixedly connected with the inner bottom wall of the storage box body;

the tension control assemblies are arranged in the storage box body and are used for enabling the flexible sealing layer to keep enough tension when the height of the partial area of the flexible sealing layer is adjusted;

the position limiting assembly is arranged in the mounting frame, is positioned on the inner side of the scraping belt structure and is used for keeping the movement of the scraping belt structure stable when the moving path of the scraping belt structure is changed;

the sliding table is arranged in the mounting frame in a sliding way, a lifting assembly is arranged on the sliding table, and the lifting assembly is matched with the corresponding sliding control assembly to drive a part of the area of the flexible sealing layer to rise;

and the number of the blanking ramps is two, the two blanking ramps are respectively and slidably connected to the two sides of the mounting frame, and the two blanking ramps are fixedly connected with the sliding table.

In order to accomplish the transportation of ore, preferably, scrape the material area structure and include scraping flitch, connecting band, driving gear, first motor, driven gear, drive assembly and second motor, the quantity of scraping the flitch is established to a plurality ofly, and be located a plurality of scrape the flitch with flexible seal layer's top laminating, a plurality of pass through between the scraping the flitch the connecting band is connected, the driving gear with a plurality of scrape the flitch meshing, the driving gear rotates to be connected in the installation frame, first motor sets up on the installation frame, the output of first motor with driving gear fixed connection, the quantity of driven gear is established to a plurality of, the bottom intercommunication of installation frame has the installation box, every driven gear all with a plurality of that correspond scrape mesh between the flitch, every driven gear all rotates through the pivot and is connected in the installation box, drive assembly sets up a plurality of being located same one side between the pivot for making a plurality of motors interlock setting up on the second pivot and the installation box with one of them pivot is fixed.

In order to make the partial region of flexible seal layer rise in the installing frame, further, slip control assembly includes slip cell body, slip frame, rotation wheel and connecting rod, all fixedly connected with on the both sides inner wall of installing frame the slip cell body, every all sliding connection has in the slip cell body the slip frame, one side of flexible seal layer is located in the slip frame, all rotate on the upper and lower lateral wall of slip frame and be connected with a plurality of rotation wheel, rotation wheel with flexible seal layer laminating is located two between the slip frame of same one side fixedly connected with the connecting rod.

In order to adjust when the height of flexible seal layer partial area, can make flexible seal layer keep enough tension, still further, tension control assembly includes slip barrel, connecting plate body and rotates the card frame, the quantity of slip barrel is established to a plurality of, and a plurality of slip barrel passes through mounting panel fixed connection in the bin, every all sliding connection has in the slip barrel the connecting plate body, the connecting plate body with be provided with the spring between the inner wall of slip barrel, a plurality of fixedly connected with between the connecting plate body rotates the card frame, rotate the card frame internal rotation and be connected with two control rolls.

In order to make the removal of scraping the material area structure keep stable after scraping the flitch and changing the travel path, still further, the position limiting subassembly includes arc cell body and first electronic jar, the arc cell body is located scrape the inboard of flitch, flexible sealing layer keep away from one side of bin body with arc cell body fixed connection, first electronic jar sets up in the installing frame, the output of first electronic jar with the inner wall fixed connection of arc cell body.

In order to make the sliding table follow and scrape the material area structure and remove together, and drive the partial region of flexible seal layer and rise, on the basis of this scheme, lifting unit includes fixed frame, second electronic jar, linking frame and third electronic jar, fixed frame passes through sliding plate body sliding connection and is in the bottom of sliding table, the second electronic jar sets up on the sliding table, the output of second electronic jar with fixed frame fixed connection, linking frame's quantity is established to a plurality of, is located a plurality of same one side linking frame between fixedly connected with connecting piece, the third electronic jar sets up on the sliding table, the output of third electronic jar with connecting piece fixed connection.

In order to shift out flexible seal layer and scrape the ore in material area structure ascending area, on the basis of this scheme, further, still include propelling movement material discharging component, propelling movement material discharging component sets up two the top of unloading ramp, propelling movement material discharging component includes fixed box, drive screw, third motor, sliding seat, movable frame, fourth electronic jar, pushing plate and fifth electronic jar, fixed box passes through the installation pole setting two the top of unloading ramp, the drive screw rotates to be connected in the fixed box, the third motor sets up on the fixed box, the output of third motor with drive screw fixed connection, sliding seat sliding connection is in the fixed box, the sliding seat with drive screw threaded connection, the movable frame is located the bottom of sliding seat, the fourth electronic jar sets up on the sliding seat, the output of fourth electronic jar with movable frame fixed connection, the pushing plate passes through slider sliding connection and is in the movable frame, the fifth electronic jar sets up with the output is fixed on the slider.

In order to cooperate and scrape material area structure, accomplish the transport operation to the ore, on the basis of this scheme, still further, still include closure plate, slope type plate body and receive the workbin, closure plate fixed connection is in the installing frame, slope type plate body fixed connection is in on the closure plate, it is in to receive the workbin intercommunication bottom one side of installing frame.

The working principle and the beneficial effects of the invention are as follows:

according to the invention, when the ore conveyed by the scraping belt structure is required to be moved out of the middle area of the installation frame, and the problem that side leakage occurs to the inside of the installation frame when the ore is moved out is prevented, firstly, the second electric cylinder on the sliding table is started to push the fixed frame to descend, so that the fixed frame is moved between a plurality of scraping plates positioned at the bottom side, the driving gear and the driven gear drive the plurality of scraping plates and the connecting belt to circularly move, the sliding table slides in the installation frame, then the third electric cylinder is started to push the connecting piece and the connecting frame to ascend, the connecting rod of the corresponding area is moved into the connecting frame, then the third electric cylinder is started to continuously drive the connecting rod to ascend, the flexible sealing layer of the area is driven to ascend together with the scraping plates, the flexible sealing layer of the area is enabled to be parallel to the top end of the installation frame, the subsequent scraping belt structure can enable the height of the ore to be increased when the ore is moved into the area during ore conveying, the ore is conveniently moved out of the area, the ore can be randomly adjusted by a user, and the unloading position of the flexible sealing layer of each area can be freely adjusted, and the unloading position of the flexible sealing layer of the area is increased in the same process as the ore conveying process;

in the invention, when the flexible sealing layer in the corresponding area is driven to rise, in order to ensure that the flexible sealing layer can normally extend, the flexible sealing layer arranged in the storage box body outwards moves, the rotating clamping frame and the connecting plate body can move towards the sliding sleeve in the moving process, the flexible sealing layer can also keep certain tension in the rising process through the elasticity of the spring to the connecting plate body, the attaching tightness between the scraping plate and the flexible sealing layer is ensured, and after the flexible sealing layer is driven to fall, the rotating clamping frame can also be driven by the spring to enable the resetting of the flexible sealing layer to be more stable;

in the invention, after the flexible sealing belt ascends, the moving path of the scraping belt structure also changes, and the first electric cylinder is started to adjust the position of the arc-shaped frame, so that the arc-shaped frame can adjust the position along with the change of the position of the scraping belt structure, and the conveying stability of the scraping belt structure is always ensured;

in order to move out onto a discharging ramp in a scraping belt structure for conveying ores to a lifting area, a pushing and discharging assembly is arranged between the tops of two discharging ramps, so that ore materials in the area can be conveniently moved onto the discharging ramps;

therefore, when the ore is required to be discharged in the middle area of the conveying equipment, the side leakage prevention mining conveyor can reduce the problem that the ore is laterally leaked to the ground or in the conveying structure when the ore is removed, and can convey the ore out of any area in the middle of the conveying equipment, so that the completeness and diversity of ore conveying are improved.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a part of the present invention in cross section;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of a portion of a cross-sectional view of the cooperation of the scraping belt structure, the slide control assembly, the flexible closure layer, the position limiting assembly and the slide table of the present invention;

FIG. 4 is a schematic view of a portion of the structure of the scraper belt, the slide control assembly, the flexible closure layer and the tension control assembly of the present invention in cross section;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 6 is a schematic view of a slide control assembly of the present invention with portions broken away;

FIG. 7 is a schematic view in partial cross-section of the reservoir, tension control assembly and flexible closure of the present invention in combination;

FIG. 8 is a schematic view of a tension control assembly of the present invention, partially in section;

FIG. 9 is a schematic view of the configuration of the sliding table and the lifting assembly according to the present invention;

FIG. 10 is a schematic view in partial cross-section of the cooperation of the slide table and the lift assembly of the present invention;

FIG. 11 is a schematic view of a pushing ram assembly of the present invention, partially in section;

FIG. 12 is a schematic view of the structure of the mounting frame, the blanking ramp, the closing plate and the ramp plate of the present invention.

In the figure: 100. a scraping belt structure; 200. a slide control assembly; 300. a tension control assembly; 400. a position limiting assembly; 500. a lifting assembly; 600. pushing the discharging component;

1. a mounting frame; 2. a flexible sealing layer; 3. a storage tank; 4. a sliding table; 5. discharging ramp; 6. a scraping plate; 7. a connecting belt; 8. a drive gear; 9. a first motor; 10. a driven gear; 11. a rotating shaft; 12. a second motor; 13. a sliding groove body; 14. a sliding frame; 15. a rotating wheel; 16. a connecting rod; 17. a sliding cylinder; 18. a connecting plate body; 19. rotating the clamping frame; 20. a control roller; 21. an arc-shaped groove body; 22. a first electric cylinder; 23. a fixed frame; 24. a sliding plate body; 25. a second electric cylinder; 26. a connection frame; 27. a connecting piece; 28. a third electric cylinder; 29. fixing the box body; 30. a drive screw; 31. a third motor; 32. a sliding seat; 33. a moving frame; 34. a fourth electric cylinder; 35. a pushing plate; 36. a fifth electric cylinder; 37. a closing plate; 38. slope plate body; 39. a material receiving box body; 40. a transmission gear; 41. toothed belt.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 12, the embodiment provides a side leakage prevention mining conveyor, which comprises a mounting frame 1, and further comprises a scraping belt structure 100, wherein the scraping belt structure 100 is arranged in the mounting frame 1 in a transmission manner, the scraping belt structure 100 comprises a plurality of scraping plates 6, a connecting belt 7, a driving gear 8, a first motor 9, a driven gear 10, a transmission assembly and a second motor 12, the number of the scraping plates 6 is set to be a plurality, the plurality of scraping plates 6 positioned at the upper side are attached to the top end of a flexible sealing layer 2, the plurality of scraping plates 6 are connected through the connecting belt 7, the driving gear 8 is meshed with the plurality of scraping plates 6, the driving gear 8 is rotationally connected in the mounting frame 1, the first motor 9 is arranged on the mounting frame 1, the output end of the first motor 9 is fixedly connected with the driving gear 8, the number of the driven gear 10 is set to be a plurality, the bottom end of the mounting frame 1 is communicated with a mounting box, each driven gear 10 is meshed with a plurality of scraping plates 6 correspondingly, each driven gear 10 is connected in the installation box body in a rotating way through a rotating shaft 11, a transmission assembly is arranged between the rotating shafts 11 positioned on the same side and used for enabling the rotating shafts 11 to be linked, the transmission assembly comprises a transmission gear 40, the rotating shafts 11 positioned on the same side are sleeved with the transmission gears 40, the transmission gears 40 positioned on the same side are meshed through toothed belts 41, a second motor 12 is arranged on the installation box body, the output end of the second motor 12 is fixedly connected with one rotating shaft 11, when ore filled on the flexible sealing layer 2 positioned on one side in the installation frame 1 needs to be conveyed, a first motor 9 is started to drive a driving gear 8 to rotate, teeth of the driving gear 8 are contacted with the scraping plates 6, the scraping plates 6 connected together through connecting belts 7 are driven to move in the installation frame 1, and remove the top laminating of scraping plate 6 and flexible sealing layer 2 to the upside, make scraping plate 6 can promote the ore and remove on flexible sealing layer 2, and driving gear 8 can also control the position of scraping plate 6, make and keep tension between a plurality of scraping plates 6, and in order to improve the speed of moving to scraping plate 6, start one of them pivot 11 rotation of second motor 12, under the transmission effect of a plurality of drive gears 40 and toothed belt 41, drive a plurality of driven gears 10 and rotate in the bottom of installing frame 1, make a plurality of driven gears 10 drive scraping plate 6 faster removal, and the quantity of connecting band 7 in this application sets up to a plurality of, not only in order to make the connection between a plurality of scraping plates 6 more firm, wherein the connecting band 7 that is located a plurality of scraping plates 6 both sides, still can prevent ore from scraping plate 6's transport region side leakage, and the connecting band 7 that is flexible material that is located both sides, can appear certain buckling and deformation, and do not influence follow-up to removing in the middle part region of installing frame 1.

The flexible sealing layer 2 is arranged in the installation frame 1 through a plurality of sliding control assemblies 200, the flexible sealing layer 2 is located on the inner side of the scraping belt structure 100, the sliding control assemblies 200 comprise sliding groove bodies 13, sliding frames 14, rotating wheels 15 and connecting rods 16, the sliding groove bodies 13 are fixedly connected to the inner walls of the two sides of the installation frame 1, the sliding frames 14 are slidably connected to each sliding groove body 13, one side of the flexible sealing layer 2 is located in the sliding frame 14, the rotating wheels 15 are rotatably connected to the upper side wall and the lower side wall of the sliding frame 14, the rotating wheels 15 are attached to the flexible sealing layer 2, connecting rods 16 are fixedly connected between the two sliding frames 14 located on the same side, and in order to drive the corresponding area of the flexible sealing layer 2 to ascend in the installation frame 1, ore can be discharged in the ascending area of the flexible sealing layer 2, the sliding frames 14 are moved upwards in the sliding groove bodies 13, and part of the flexible sealing layer 2 is moved upwards together in the process of moving upwards, and the flexible sealing layer 2 is moved out in the storage box body 3, so that the flexible sealing layer 2 can be moved in the sliding frames 14, and the normal movement of the flexible sealing layer 2 can be ensured through the rotating wheels 15.

The storage box body 3 is arranged in the mounting frame 1, one side of the flexible sealing layer 2 is fixedly connected with the inner bottom wall of the storage box body 3, a plurality of tension control assemblies 300 are arranged in the storage box body 3 and used for enabling the flexible sealing layer 2 to keep enough tension when the height of a part of the area of the flexible sealing layer 2 is adjusted, the tension control assemblies 300 comprise a plurality of sliding cylinder bodies 17, connecting plate bodies 18 and rotating clamping frames 19, the number of the sliding cylinder bodies 17 is set to be a plurality, the plurality of sliding cylinder bodies 17 are fixedly connected in the storage box body 3 through the mounting plate, the connecting plate bodies 18 are all connected in a sliding manner in each sliding cylinder body 17, a spring is arranged between the connecting plate bodies 18 and the inner wall of the sliding cylinder body 17, the rotating clamping frames 19 are fixedly connected between the plurality of connecting plate bodies 18, the rotating clamping frames 19 are rotationally connected with two control rollers 20, after the flexible sealing layer 2 in a certain area is driven to rise, in order to ensure that when the flexible sealing layer 2 is matched with the scraping plate 6 to convey ore, the flexible sealing layer 2 generates certain tension to prevent the problem of ore side leakage caused by the collapse of the flexible sealing layer 2 when the ore is conveyed, after the partial area of the flexible sealing layer 2 rises, part of the flexible sealing layer 2 is driven to move out of the storage box body 3, the flexible sealing layer 2 positioned in the storage box body 3 can move between the two control rollers 20 in the rotating clamping frame 19, and as the flexible sealing layer 2 positioned in the storage box body 3 is less and less, because one side of the flexible sealing layer 2 is fixedly connected with the inner bottom wall of the storage box body 3, when part of the flexible sealing layer 2 moves out of the storage box body 3, the rotating clamping frame 19 and the connecting plate body 18 can move into the sliding cylinder body 17 to enable the spring in the sliding cylinder body 17 to shrink, the flexible sealing layer 2 after rising keeps enough tension, and when the flexible layer is driven to descend, the connecting plate body 18 can move out of the sliding cylinder 17 under the action of the spring, so that the flexible sealing layer 2 after resetting can also keep enough tension.

The position limiting assembly 400 is arranged in the installation frame 1, the position limiting assembly 400 is located on the inner side of the scraping belt structure 100, the movement path of the scraping belt structure 100 can be changed when the movement path of the scraping belt structure 100 changes, the position limiting assembly 400 comprises an arc-shaped groove body 21 and a first electric cylinder 22, the arc-shaped groove body 21 is located on the inner side of the scraping plate 6, one side of the flexible sealing layer 2, far away from the storage box body 3, is fixedly connected with the arc-shaped groove body 21, the first electric cylinder 22 is arranged in the installation frame 1, the output end of the first electric cylinder 22 is fixedly connected with the inner wall of the arc-shaped groove body 21, the movement path of the corresponding plurality of scraping plates 6 can also change after the partial area of the flexible sealing layer 2 rises, and in order to enable the movement path of the scraping plates 6 to adapt to the rising position of the flexible sealing layer 2, the first electric cylinder 22 is started to drive the arc-shaped frame to move in the installation frame 1, the plurality of scraping plates 6 can always contact with the outer wall of the arc-shaped frame, the movement of the scraping plates 6 is supported by the movement of the first electric cylinder 22, the movement path of the scraping plates 6 can be prevented from changing along with the movement path of the arc-shaped sealing layer 2, and the movement of the flexible sealing layer 6 can be prevented from changing along with the movement path of the flexible sealing layer 2, and the movement of the flexible sealing layer is prevented from moving along with the movement path of the flexible sealing layer 2.

The sliding table 4 is arranged in the mounting frame 1 in a sliding way, the sliding table 4 is provided with a lifting component 500, the lifting component 500 is matched with the corresponding sliding control component 200 to drive the partial area of the flexible sealing layer 2 to rise, the lifting component 500 comprises a fixed frame 23, a second electric cylinder 25, a connecting frame 26 and a third electric cylinder 28, the fixed frame 23 is connected to the bottom of the sliding table 4 in a sliding way through a sliding plate body 24, the second electric cylinder 25 is arranged on the sliding table 4, the output end of the second electric cylinder 25 is fixedly connected with the fixed frame 23, the number of the connecting frames 26 is multiple, connecting pieces 27 are fixedly connected between the connecting frames 26 positioned on the same side, the third electric cylinder 28 is arranged on the sliding table 4, the output end of the third electric cylinder 28 is fixedly connected with the connecting pieces 27, when the corresponding sliding frames 14 need to be driven to rise in the sliding groove body 13, first, in order to move the sliding table 4 to the corresponding position, the second electric cylinder 25 is started to push the fixed frame 23 to descend on the sliding plate body 24, the bottom of the fixed frame 23 is moved into the scraping plate 6, the fixed frame 23 is contacted with the scraping plate 6, during the conveying process of the scraping plate 6, the corresponding scraping plate 6 is made to push the fixed frame 23 and the sliding table 4 to move in the mounting frame 1, after the sliding table 4 is moved to the corresponding position, the second electric cylinder 25 is started to drive the fixed frame 23 to ascend, the scraping plate 6 cannot continue to move the sliding table 4, when the sliding table 4 is about to ascend to the designated position, the third electric cylinder 28 is started to drive the connecting piece 27 and the plurality of connecting frames 26 to ascend, during the moving process of the sliding table 4, the corresponding connecting rod 16 is made to enter the corresponding connecting frame 26, after the sliding table 4 stops moving, the third electric cylinder 28 is continuously started, the connecting frame 26 and the connecting rod 16 are moved upwards, the corresponding sliding frames 14 are lifted in the sliding groove body 13, the flexible sealing layer 2 is driven to lift in the area, the top ends of the flexible sealing layer 2 and the mounting frame 1 are parallel, the scraping plates 6 are enabled to be parallel to the top ends of the mounting frame 1 when the scraping plates 6 are arranged in the area in the material conveying process, ores can be conveniently moved out from among the scraping plates 6 when the ores are conveyed to the area, the flexible sealing layer 2 in the mounting frame 1 can lift in any area corresponding to the sliding frames 14, a user can conveniently perform blanking operation in any area in the middle of the mounting frame 1, the distance between the connecting frames 26 in the application is identical to the distance between the sliding frames 14, and the connecting rods 16 can conveniently move between the corresponding connecting frames 26.

The number of the discharging ramps 5 is two, the two discharging ramps 5 are respectively and slidably connected to two sides of the mounting frame 1, the two discharging ramps 5 are fixedly connected with the sliding table 4, the discharging device further comprises a pushing discharging assembly 600, the pushing discharging assembly 600 is arranged at the top of the two discharging ramps 5, the pushing discharging assembly 600 comprises a fixed box 29, a driving screw 30, a third motor 31, a sliding seat 32, a movable frame 33, a fourth electric cylinder 34, a pushing plate 35 and a fifth electric cylinder 36, the fixed box 29 is arranged at the top of the two discharging ramps 5 through a mounting rod, the driving screw 30 is rotatably connected in the fixed box 29, the third motor 31 is arranged on the fixed box 29, the output end of the third motor 31 is fixedly connected with the driving screw 30, the sliding seat 32 is slidably connected in the fixed box 29, the sliding seat 32 is in threaded connection with the driving screw 30, the movable frame 33 is arranged at the bottom of the sliding seat 32, the fourth electric cylinder 34 is arranged on the sliding seat 32, the output end of the fourth electric cylinder 34 is fixedly connected with the movable frame 33, the pushing plate 35 is slidably connected in the movable frame 33 through a sliding block, the fifth electric cylinder 36 is arranged on the movable frame 33, the output end of the fifth electric cylinder 36 is fixedly connected with the sliding block, after ore is conveyed to the ascending area of the flexible sealing layer 2, because in the moving process of the sliding table 4, two discharging slopes 5 are driven to slide on the mounting frame 1 together, the discharging slopes 5 are driven to move to one side of the ascending area of the flexible sealing layer 2, the third motor 31 is started to drive the transmission screw 30 to rotate, the transmission screw 30 is driven to drive the sliding seat 32 to move in the fixed box 29, the movable frame 33 and the pushing plate 35 are driven to move transversely together, the fourth electric cylinder 34 is started to adjust the heights of the movable frame 33 and the pushing plate 35, the bottom of the pushing plate 35 is made to enter between the plurality of scraping plates 6, ore among the plurality of scraping plates 6 is pushed by the pushing plate 35, the ore is pushed onto the blanking chute 5, the ore is moved out along the blanking chute 5, and in order to make the bottom of the pushing plate 35 matched with the spacing between the plurality of pushing plates 35, a fifth electric cylinder 36 can be started to push a sliding block to adjust the position of the pushing plate 35, so that the bottom of the pushing plate 35 can be moved between the spacing between the plurality of scraping plates 6, and the blanking operation of the ore in the scraping plates 6 is completed.

Still include closure plate 37, slope template body 38 and receive workbin 39, closure plate 37 fixed connection is in installing frame 1, slope template body 38 fixed connection is on closure plate 37, receive workbin 39 intercommunication in the bottom one side of installing frame 1, closure plate 37 that sets up in this application is located one side of keeping away from receipts workbin 39 on installing frame 1, closure plate 37 is used for guaranteeing that the ore can remove to flexible seal layer 2, avoid the ore to cause the damage to parts such as pinion 8, and slope template body 38 that sets up on closure plate 37 is for adjusting the blanking position of ore, prevent to feed up the in-process, appear on the ore falls into the region beyond flexible seal layer 2, and set up and receive workbin 39 and not only be for carrying out the material collecting operation after the both ends of installing frame 1 to the ore, through receiving workbin 39, can also collect the ore that leaks, avoid appearing the ore and carry not thorough problem to appear.

The working principle of the side leakage prevention mining conveyor is as follows: starting a first motor 9 and a second motor 12 to drive a driving gear 8 and a plurality of driven gears 10 to respectively convey a plurality of scraping plates 6 connected together through a plurality of connecting belts 7, starting a second electric cylinder 25 to push a fixed frame 23 to move downwards on a sliding plate body 24 when a flexible sealing layer 2 positioned in a certain area of the middle of an installation frame 1 needs to be driven to ascend, enabling the bottom of the fixed frame 23 to move into the scraping plates 6, enabling the fixed frame 23 to be in contact with the scraping plates 6, enabling the corresponding scraping plates 6 to push the fixed frame 23 and the sliding table 4 to move in the installation frame 1 in the conveying process of the scraping plates 6, enabling the second electric cylinder 25 to drive the fixed frame 23 to ascend after the sliding table 4 is moved to a corresponding position, enabling the scraping plates 6 to continue to move on the sliding table 4, and enabling a third electric cylinder 28 to drive a connecting piece 27 and a plurality of connecting frames 26 to ascend when the sliding table 4 is to ascend to a designated position, enabling a corresponding connecting rod 16 to enter the corresponding connecting frame 6 to enter the corresponding connecting frame 26 in the moving process, enabling the sliding table 16 to move to stop moving in the sliding table 2 to the sliding table 1, enabling the sliding table 2 to move in the sealing layer 1 to be parallel to the sealing layer 6, and enabling the top ends of the sliding table 6 to be continuously moved to be in the sealing layer 1 to be parallel to the sealing layer 2;

in order to maintain enough tension in the process of lifting the flexible sealing layer 2, as the flexible sealing layer 2 in the storage box body 3 is less and less, one side of the flexible sealing layer 2 is fixedly connected with the inner bottom wall of the storage box body 3, when part of the flexible sealing layer 2 is removed from the storage box body 3, the rotating clamping frame 19 and the connecting plate body 18 move into the sliding cylinder 17, so that the spring in the sliding cylinder 17 is contracted, the lifted flexible sealing layer 2 maintains enough tension, and when the flexible sealing layer is driven to descend, the connecting plate body 18 moves out of the sliding cylinder 17 under the action of the spring, so that the reset flexible sealing layer 2 can maintain enough tension, and the moving paths of the plurality of scraping plates 6 can also be changed due to the lifting of the flexible sealing layer 2, and the arc-shaped frame is driven to move by starting the first electric cylinder 22, so that the scraping plates 6 can also ensure enough tension after changing the moving paths;

after the ore is conveyed to the ascending area of the flexible sealing layer 2, because in the moving process of the sliding table 4, the two blanking ramps 5 are driven to slide on the mounting frame 1 together, so that the blanking ramps 5 move to one side of the ascending area of the flexible sealing layer 2, the third motor 31 is started to drive the transmission screw 30 to rotate, so that the transmission screw 30 drives the sliding seat 32 to move in the fixed box 29, the moving frame 33 and the pushing plate 35 and other parts move transversely together, the fourth electric cylinder 34 is started to adjust the heights of the moving frame 33 and the pushing plate 35, so that the bottom of the pushing plate 35 enters between the plurality of scraping plates 6, the ore between the plurality of scraping plates 6 is pushed by the pushing plate 35, the ore is pushed onto the blanking ramps 5, the ore is moved out along the blanking ramps 5, and in order to enable the spacing between the bottom of the pushing plate 35 and the plurality of pushing plates 35 to be matched, the fifth electric cylinder 36 can be started to push the position of the pushing plate 35, so that the bottom of the pushing plate 35 can move to the spacing between the plurality of scraping plates 6, and the ore is scraped in the blanking operation.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a prevent mining conveyer of side leakage, includes mounting frame (1), its characterized in that still includes:

the scraping belt structure (100) is arranged in the mounting frame (1) in a transmission way;

the flexible sealing layer (2) is arranged in the mounting frame (1) through a plurality of sliding control assemblies (200), and the flexible sealing layer (2) is positioned on the inner side of the scraping belt structure (100);

the storage box body (3), the storage box body (3) is arranged in the installation frame (1), and one side of the flexible sealing layer (2) is fixedly connected with the inner bottom wall of the storage box body (3);

a tension control assembly (300), wherein a plurality of tension control assemblies (300) are arranged in the storage box body (3) and are used for enabling the flexible sealing layer (2) to maintain enough tension when the height of a partial area of the flexible sealing layer (2) is adjusted;

a position limiting assembly (400), wherein the position limiting assembly (400) is arranged in the mounting frame (1), and the position limiting assembly (400) is positioned on the inner side of the scraping belt structure (100) and is used for keeping the movement of the scraping belt structure (100) stable when the moving path of the scraping belt structure (100) is changed;

the sliding table (4) is arranged in the mounting frame (1) in a sliding manner, a lifting assembly (500) is arranged on the sliding table (4), and the lifting assembly (500) is matched with the corresponding sliding control assembly (200) to drive a part of the area of the flexible sealing layer (2) to rise;

and the number of the blanking ramps (5) is two, the two blanking ramps (5) are respectively and slidably connected to two sides of the mounting frame (1), and the two blanking ramps (5) are fixedly connected with the sliding table (4).

2. The side leakage prevention mining conveyor according to claim 1, wherein the scraper belt structure (100) comprises:

the number of the scraping plates (6) is set to be a plurality, and the scraping plates (6) positioned on the upper side are attached to the top end of the flexible sealing layer (2);

a connecting belt (7), wherein a plurality of scraping plates (6) are connected through the connecting belt (7);

the driving gear (8) is meshed with the scraping plates (6), and the driving gear (8) is rotationally connected in the mounting frame (1);

the first motor (9) is arranged on the mounting frame (1), and the output end of the first motor (9) is fixedly connected with the driving gear (8);

the number of the driven gears (10) is multiple, the bottom end of the installation frame (1) is communicated with an installation box body, each driven gear (10) is meshed with a plurality of corresponding scraping plates (6), and each driven gear (10) is rotatably connected in the installation box body through a rotating shaft (11);

the transmission assembly is arranged among the rotating shafts (11) positioned on the same side and is used for enabling the rotating shafts (11) to be linked;

the second motor (12), second motor (12) set up on the installation box, the output of second motor (12) with one of them pivot (11) fixed connection.

3. The side leakage prevention mining conveyor according to claim 2, wherein the slip control assembly (200) comprises:

the sliding groove bodies (13) are fixedly connected to the inner walls of the two sides of the installation frame (1);

the sliding frames (14) are connected in each sliding groove body (13) in a sliding manner, and one side of the flexible sealing layer (2) is positioned in the sliding frames (14);

the rotating wheels (15) are rotatably connected to the upper side wall and the lower side wall of the sliding frame (14), and the rotating wheels (15) are attached to the flexible sealing layer (2);

the connecting rod (16) is fixedly connected between the two sliding frames (14) positioned on the same side, and the connecting rod (16) is fixedly connected between the two sliding frames.

4. A side leakage prevention mining conveyor according to claim 3, wherein the tension control assembly (300) comprises:

the sliding cylinders (17) are arranged in a plurality, and the sliding cylinders (17) are fixedly connected in the storage box body (3) through mounting plates;

the connecting plate bodies (18) are slidably connected in each sliding cylinder (17), and springs are arranged between the connecting plate bodies (18) and the inner walls of the sliding cylinders (17);

the rotary clamping frames (19) are fixedly connected with the rotary clamping frames (19) between the connecting plate bodies (18), and the rotary clamping frames (19) are rotationally connected with two control rollers (20).

5. The side leakage prevention mining conveyor according to claim 4, wherein the position limiting assembly (400) comprises:

the arc-shaped groove body (21) is positioned at the inner side of the scraping plate (6), and one side, far away from the storage box body (3), of the flexible sealing layer (2) is fixedly connected with the arc-shaped groove body (21);

the first electric cylinder (22), the first electric cylinder (22) is arranged in the installation frame (1), and the output end of the first electric cylinder (22) is fixedly connected with the inner wall of the arc-shaped groove body (21).

6. The side leakage prevention mining conveyor of claim 5, wherein the lifting assembly (500) comprises:

the fixed frame (23) is connected to the bottom of the sliding table (4) in a sliding way through a sliding plate body (24);

the second electric cylinder (25), the said second electric cylinder (25) is set up on the said sliding table (4), the output end of the said second electric cylinder (25) is fixedly connected with said fixed frame (23);

the connecting frames (26) are arranged in a plurality, and connecting pieces (27) are fixedly connected between the connecting frames (26) positioned on the same side;

the third electric cylinder (28), the third electric cylinder (28) is arranged on the sliding table (4), and the output end of the third electric cylinder (28) is fixedly connected with the connecting piece (27).

7. The side leakage prevention mining conveyor according to claim 6, further comprising a push discharge assembly (600), the push discharge assembly (600) being disposed on top of two of the blanking ramps (5), the push discharge assembly (600) comprising:

the fixed box body (29) is arranged at the tops of the two blanking ramps (5) through a mounting rod;

the transmission screw (30), the said transmission screw (30) rotates and connects in the said fixed box (29);

the third motor (31), the said third motor (31) is set up on the said fixed box (29), the output end of the said third motor (31) is fixedly connected with said drive screw (30);

the sliding seat (32), the sliding seat (32) is connected in the fixed box body (29) in a sliding way, and the sliding seat (32) is connected with the transmission screw (30) in a threaded way;

a moving frame (33), the moving frame (33) being located at the bottom of the sliding seat (32);

the fourth electric cylinder (34), the said fourth electric cylinder (34) is set up on said sliding seat (32), the output end of the said fourth electric cylinder (34) is fixedly connected with said movable frame (33);

the pushing plate (35), the pushing plate (35) is connected in the moving frame (33) in a sliding way through a sliding block;

the fifth electric cylinder (36), the fifth electric cylinder (36) is arranged on the movable frame (33), and the output end of the fifth electric cylinder (36) is fixedly connected with the sliding block.

8. The side leakage prevention mining conveyor of claim 7, further comprising:

a closing plate (37), the closing plate (37) being fixedly connected within the mounting frame (1);

a sloping plate body (38), wherein the sloping plate body (38) is fixedly connected to the sealing plate (37);

the material receiving box body (39), and the material receiving box body (39) is communicated with one side of the bottom end of the mounting frame (1).