CN114476572B

CN114476572B - Reconfigurable modularized adhesive tape transfer system

Info

Publication number: CN114476572B
Application number: CN202210178203.4A
Authority: CN
Inventors: 焦宏章; 刘磊; 杨喜; 刘玉波; 赵海伟; 郭文孝; 郑跃鹏; 郝成林; 王腾; 马联伟; 陈超; 赵鑫; 张少鹏
Original assignee: Taiyuan Institute of China Coal Technology and Engineering Group; Shanxi Tiandi Coal Mining Machinery Co Ltd
Current assignee: Taiyuan Institute of China Coal Technology and Engineering Group; Shanxi Tiandi Coal Mining Machinery Co Ltd
Priority date: 2022-02-25
Filing date: 2022-02-25
Publication date: 2023-08-11
Anticipated expiration: 2042-02-25
Also published as: CN114476572A

Abstract

The invention discloses a reconfigurable modularized adhesive tape transfer system, which relates to the technical field of coal mining transportation equipment and comprises a first transfer conveyor, a second transfer conveyor and a main rigid frame, wherein the second transfer conveyor also comprises a right transition frame, a truss, a heightening support frame, a right connecting frame, a left connecting frame, a heightening support frame, a left transition frame, a discharging part and a sliding trolley, and further comprises a support frame of a ground section, a slope changing transition frame and a triangular connecting frame, wherein a receiving part is connected with tunneling equipment, the right end of the right connecting frame is fixedly connected with the heightening support frame through four pin shafts, the left connecting frame is fixedly connected with an adjacent truss through four pin shafts, and the right connecting frame is hinged with the left connecting frame. The adhesive tape transfer system only needs to assemble the first transfer machine and the main rigid frame in the roadway preparation stage, shortens the roadway preparation length, solves the problems of roof and frame biting resistance of equipment caused by overlong adhesive tape transfer machines, and simultaneously solves the problems of prolonged roadway preparation period due to overlong adhesive tape transfer machines.

Description

Reconfigurable modularized adhesive tape transfer system

Technical Field

The invention relates to the technical field of coal mining transportation equipment, in particular to a reconfigurable modularized adhesive tape transfer system.

Background

In the tunneling process of the coal mine tunnel, the adhesive tape transfer machine is matched with the rigid frame, the continuous transfer of coal from tunneling equipment to the telescopic belt conveyor is completed, the telescopic belt conveyor is enabled to intensively extend at a fixed distance, the telescopic belt conveyor is a main flow matched form matched with the tunneling machine at the present stage, the transfer machine is an essential mechanical equipment matched with the scraper conveyor and the belt conveyor in underground coal mining, and the transfer machine is used in a mechanized coal face gateway, so that the coal mining production efficiency can be improved, and the coal yield can be increased.

Along with the continuous improvement of the capacity of the mining equipment and the upgrading of the mining process, the length of the adhesive tape transfer conveyor is required to be longer and longer, so that the phenomena of roof resistance, biting and the like of the equipment are caused by the overlong adhesive tape transfer conveyor on one hand, the roadway adaptation performance is obviously reduced, and on the other hand, higher index requirements are provided for the strength and the rigidity of the equipment, so that the equipment cost is greatly increased; in addition, the adhesive tape transfer machine is too long, so that the length of the preparation roadway is required to be correspondingly increased, and the roadway preparation period is prolonged.

Therefore, there is a need for a reconfigurable modular tape transfer system that addresses the above-described issues.

Disclosure of Invention

The invention aims at: the invention provides a reconfigurable modularized adhesive tape transfer system, which aims to solve the problems that the existing adhesive tape transfer machine is overlong, so that the equipment is resistant to roof lifting, biting and the length of a prepared roadway is correspondingly increased.

The invention adopts the following technical scheme for realizing the purposes: the reconfigurable modularized adhesive tape transfer system comprises a transfer machine I, a transfer machine II, a main rigid frame, a winch I and a winch II, wherein the transfer machine I comprises a material receiving part, a right transition frame, a truss, a heightening support frame, a right connecting frame, a left connecting frame, a heightening support frame, a left transition frame, a discharging part and a sliding trolley, the transfer machine II also comprises a right transition frame, a truss, a heightening support frame, a right connecting frame, a left connecting frame, a heightening support frame, a left transition frame, a discharging part and a sliding trolley, the transfer machine also comprises a ground section support frame, a slope transition frame and a triangular connecting frame, the material receiving part is connected with tunneling equipment, the right end of the right connecting frame is fixedly connected with the heightening support frame through four pin shafts, the left connecting frame is fixedly connected with an adjacent truss through four pin shafts, and the right connecting frame is hinged with the left connecting frame;

the sliding trolley of the first reversed loader and the ground section support frame form a sliding pair, the right end of the slope-changing transition frame is hinged with the ground section support frame, the left end of the slope-changing transition frame is hinged with the triangular connecting frame, and the left end of the triangular connecting frame is fixedly connected with the right transition frame of the second reversed loader;

the floor section support frame consists of a plurality of rigid frames and a tail frame, wherein adjacent rigid frames are hinged, each rigid frame consists of a frame body and a carrier roller set, and each tail frame consists of a frame body, a carrier roller set, a bend drum and a sweeper;

the slope-changing transition frame comprises a frame body, a carrier roller group, a pinch roller and a pinch roller shaft assembly, wherein the pinch roller shaft assembly is hinged with the frame body.

Further, the left end of the triangular connecting frame is fixedly connected with the right transition frame through four pin shafts, and the left end of the triangular connecting frame is hinged with the slope-changing transition frame.

Further, the main rigid frame is composed of a plurality of rigid frames and a tail frame, and the adjacent rigid frames are hinged.

Further, the winch I is arranged at the right end of the tail frame in the main rigid frame, and the tail end of the traction steel wire rope of the winch I is connected to the left end of the slope-changing transition frame on the reversed loader II.

Further, the second winch is arranged at the right end of the tail frame of the second reversed loader, and the tail end of the traction steel wire rope is connected to the left end of the receiving part of the first reversed loader.

The beneficial effects of the invention are as follows:

1. the whole machine is provided with the height-adjusting support frame and the height-fixing support frame, so that the whole machine is always grounded at three points in the operation process, on one hand, the strength and rigidity index requirements of the truss can be reduced, the production difficulty of the truss is reduced, the popularization is convenient, and on the other hand, the stress strength of the truss can be effectively reduced, and the bearing capacity of the truss is improved.

2. According to the invention, the material receiving part of the first reversed loader is flexibly connected with the heading machine through the chain, so that the influence of the heading machine on the belt reversed loader due to posture adjustment is eliminated.

3. In the roadway preparation stage, only the first reversed loader and the main rigid frame are assembled, the roadway preparation length is shortened, the problems of roof resistance and frame biting of equipment caused by overlong adhesive tape reversed loader are solved, the roadway adaptation performance is obviously enhanced, and the problems of corresponding increase of the roadway preparation length and prolonged roadway preparation period caused by overlong adhesive tape reversed loader are solved.

Drawings

FIG. 1 is a schematic illustration of the construction of the plant of the present invention;

FIG. 2 is a schematic view of a first conveyor structure according to the present invention;

FIG. 3 is a schematic view of a second conveyor structure according to the present invention;

FIG. 4 is a schematic view of a material receiving structure according to the present invention;

FIG. 5 is a schematic view of a height-adjusting support frame structure according to the present invention;

FIG. 6 is a schematic view of a left and right connector structure according to the present invention;

FIG. 7 is a schematic view of a height-determining support frame structure according to the present invention;

FIG. 8 is a schematic view of a slope transition frame structure of the present invention;

fig. 9 is a schematic view of the triangle connecting frame structure of the present invention.

Reference numerals: 100. a first reversed loader; 200. a second reversed loader; 300. a main rigid frame; 400. a first winch; 500. a second winch; 1. a material receiving part; 2. a right transition frame; 3. truss; 4. height-adjusting the supporting frame; 5. a right connecting frame; 6. a left connecting frame; 7. a fixed-height supporting frame; 8. a left transition frame; 9. a discharging part; 10. a slipping trolley; 11. a first slipper; 12. a receiving hopper; 13. a buffer idler; 14. a direction-changing drum; 15. a drag chain; 16. backing the ear seat; 17. traction ear seat; 18. a hinge hole; 19. a frame body; 20. a carrier roller group; 21. a pinch roller; 22. height-adjusting oil cylinders; 23. support legs; 24. a second slipper; 25. a fixed height frame body; 26. a support base; 27. a support frame of the floor section; 28. a slope-changing transition frame; 29. a triangular connecting frame; 30. a rigid frame; 31. a tail frame; 32. a second frame body; 33. the second carrier roller group; 34. a second pinch roller; 35. and a pinch roller shaft assembly.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled 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.

Example 1

Referring to fig. 1 to 9, a reconfigurable modular tape transfer system includes a first transfer machine 100, a second transfer machine 200, a main rigid frame 300, a first winch 400 and a second winch 500, in the normal tunneling process, a tunneling machine cuts coal and transports the coal to a receiving part 1 of the first transfer machine 100, after transferring by the first transfer machine 100, the material is unloaded to a second transfer machine 200 land section by an unloading part 9 of the first transfer machine 100, after transferring by the second transfer machine 200, the material is unloaded to the rigid frame by an unloading part 9 of the second transfer machine 200, the main rigid frame 300 is a tail part of a gate belt, and then transported to a designated place by the gate belt, and during the roadway preparation, only the first transfer machine 100 and the main rigid frame 300 are configured;

the first elevating conveyor 100 comprises a material receiving part 1, a right transition frame 2, trusses 3, an elevating support frame 4, a right connecting frame 5, a left connecting frame 6, an elevating support frame 7, a left transition frame 8, a discharging part 9 and a sliding trolley 10, wherein the right end of the material receiving part 1 is hinged with a tunneling machine, the left end of the material receiving part 1 is fixedly connected with the right transition frame 2, the left end of the right transition frame 2 is fixedly connected with the trusses 3, a plurality of trusses 3 are fixedly connected with each other, the right end of the elevating support frame 4 is fixedly connected with an adjacent truss 3, the left end of the elevating support frame 4 is fixedly connected with the right connecting frame 5, the right end of the right connecting frame 5 is fixedly connected with the elevating support frame 4 through four pin shafts, the left connecting frame 6 is fixedly connected with the adjacent truss 3 through four pin shafts, the right connecting frame 5 is hinged with the left connecting frame 6, the left end of the left connecting frame 6 is fixedly connected with the right truss 3, the left and right ends of the elevating support frame 7 are respectively fixedly connected with the adjacent truss 3, the right end of the left transition frame 8 is fixedly connected with the left end of the left connecting frame 6, the sliding trolley 10 is fixedly connected with the left end of the sliding trolley 10, and the sliding trolley 10 is fixedly connected with the left end of the sliding trolley 10;

the material receiving part 1 comprises a first sliding shoe 11, a material receiving hopper 12, a buffer idler 13, a bend pulley 14, a traction chain 15, a retreating lug seat 16 and a traction lug seat 17, wherein the first sliding shoe 11 is hinged with the material receiving hopper 12, a plurality of buffer idler 13 are arranged, a plurality of buffer idler 13 are hinged with the material receiving hopper 12, the bend pulley 14 is hinged with the material receiving hopper 12, one end of the traction chain 15 is articulated with the material receiving hopper 12 in a universal way, the other end of the traction chain 15 is articulated with the traction lug seat 17 in a universal way, the retreating lug seat 16 is fixedly connected with the material receiving hopper 12, and a hinge hole 18 is formed in the traction lug seat 17 and is used for being connected with tunneling equipment;

the right transition frame 2, the truss 3, the left transition frame 8 and the discharging part 9 are respectively provided with a carrier roller group 20, and the discharging part 9 is also provided with a driving roller;

the heightening support frame 4 is arranged at the middle right position of the whole machine, the heightening support frame 4 comprises a frame body 19, a carrier roller group 20, a pressure roller group 21, heightening oil cylinders 22, support legs 23 and a second sliding shoe 24, the carrier roller group 20 is arranged at the inner side of the frame body 19, the pressure roller group 21 is arranged at the left upper side of the frame body 19, the heightening oil cylinders 22 are two groups, the two groups of heightening oil cylinders 22 are respectively arranged at two sides of the frame body 19, one end of the heightening oil cylinder 22 is hinged with the frame body 19, the other end of the heightening oil cylinder 22 is hinged with the middle part of the support legs 23, the upper end of the support legs 23 is hinged with the frame body 19, and the lower end of the support legs 23 is hinged with the second sliding shoe 24;

the right end of the right connecting frame 5 is fixedly connected with the heightening support frame 4 through four pin shafts, the left connecting frame 6 is fixedly connected with the adjacent truss 3 through four pin shafts, the right connecting frame 5 is hinged with the left connecting frame 6 so as to adapt to roadway slope change, and the whole machine is divided into a left end and a right end by configuring the right connecting frame 5 and the left connecting frame 6, so that roadway adaptability is greatly improved;

the height-fixing support frame 7 comprises a height-fixing support frame body 25 and a support seat 26, the height-fixing support frame body 25 and the support seat 26 can be adjusted in a step mode, after the height is adjusted, the height-fixing support frame 7 is formed by locking bolts, and the left side and the right side of the height-fixing support frame 7 are fixedly connected with the adjacent trusses 3 through four pin shafts respectively;

the second reversed loader 200 also comprises a right transition frame 2, a truss 3, a heightening support frame 4, a right connecting frame 5, a left connecting frame 6, a fixed-height support frame 7, a left transition frame 8, a discharging part 9 and a sliding trolley 10, wherein the second reversed loader 200 also comprises a ground section support frame 27, a slope transition frame 28 and a triangular connecting frame 29, and the structures and the assembly of the right transition frame 2, the truss 3, the heightening support frame 4, the right connecting frame 5, the left connecting frame 6, the fixed-height support frame 7, the left transition frame 8, the discharging part 9 and the sliding trolley 10 on the second reversed loader 200 are identical to those of the first reversed loader 100;

the floor section support frame 27 and the sliding trolley 10 of the first reversed loader 100 form a sliding pair, the sliding pair can slide left and right relatively, the right end of the slope changing transition frame 28 is hinged with the floor section support frame 27, the left end of the slope changing transition frame 28 is hinged with the triangular connection frame 29, and the left end of the triangular connection frame 29 is fixedly connected with the right transition frame 2 of the second reversed loader 200;

the floor section support frame 27 is composed of a plurality of rigid frames 30 and a tail frame 31, the adjacent rigid frames 30 are hinged, the rigid frames 30 are composed of a frame body and a second carrier roller group 33, and the tail frame 31 is composed of a second frame body 32, a second carrier roller group 33, a bend roller 14 and a sweeper.

The slope transition frame 28 comprises a second frame body 32, a second carrier roller group 33, a second pinch roller 34 and a pinch roller shaft assembly 35, wherein the pinch roller shaft assembly 35 is hinged with the second frame body 32 and is arranged at a slope point and on the upper side of a belt, the left end of the triangular connecting frame 29 is fixedly connected with the right transition frame 2 through four pin shafts, and the left end of the triangular connecting frame 29 is hinged with the slope transition frame 28;

the main rigid frame 300 is composed of a plurality of rigid frames 30 and a tail frame 31, the adjacent rigid frames 30 are hinged, a first winch 400 is installed at the right end of the tail frame 31 in the main rigid frame 300, the tail end of a traction steel wire rope of the first winch 400 is connected with the left end of a slope transition frame 28 on a second reversed loader 200, a second winch 500 is arranged at the right end of the tail frame 31 in the second reversed loader 200, and the tail end of the traction steel wire rope is connected with the left end of a material receiving part 1 in the first reversed loader 100.

To sum up: according to the invention, the height-adjusting support frame 4 and the height-fixing support frame 7 are configured to ensure that the whole machine is always grounded at three points in the running process, so that on one hand, the strength and rigidity index requirements of the truss 3 can be reduced, the production difficulty of the truss 3 is reduced, the popularization is convenient, on the other hand, the stress strength of the truss 3 can be effectively reduced, the bearing capacity of the truss 3 is improved, the material receiving part 1 of the first elevating conveyor 100 is flexibly connected with the heading machine through a chain, the influence of the heading machine on the belt elevating conveyor due to posture adjustment is eliminated, only the first elevating conveyor 100 and the main rigid frame 300 are required to be assembled in the roadway preparation stage, the roadway preparation length is shortened, the problem that the equipment resists roof and biting caused by overlong of the belt elevating conveyor is solved, the roadway adaptation performance is obviously enhanced, and meanwhile, the problems of corresponding increase in the requirement for preparing roadway length and the roadway preparation period are solved.

The present invention is not limited to the preferred embodiments, but the patent protection scope of the invention is defined by the claims, and all equivalent structural changes made by the specification and the drawings are included in the scope of the invention.

Claims

1. The utility model provides a reconfigurable modularization sticky tape transshipment system, includes a transshipment machine (100), no. two transshipment machines (200), main rigid frame (300), winch (400) and No. two winches (500), its characterized in that: the first reversed loader (100) comprises a receiving part (1), a right transition frame (2), a truss (3), a heightening support frame (4), a right connecting frame (5), a left connecting frame (6), a heightening support frame (7), a left transition frame (8), a discharging part (9) and a sliding trolley (10), the second reversed loader (200) also comprises the right transition frame (2), the truss (3), the heightening support frame (4), the right connecting frame (5), the left connecting frame (6), the heightening support frame (7), the left transition frame (8), the discharging part (9) and the sliding trolley (10), and further comprises a ground section support frame (27), a slope changing transition frame (28) and a triangular connecting frame (29), wherein the receiving part (1) is connected with tunneling equipment, the right end of the right connecting frame (5) is fixedly connected with the heightening support frame (4) through four pin shafts, the left connecting frame (6) is fixedly connected with the adjacent truss (3) through four pin shafts, and the right connecting frame (5) is hinged with the left connecting frame (6);

the sliding pair is formed by the ground section support frame (27) and the sliding trolley (10) of the first reversed loader (100), the right end of the slope changing transition frame (28) is hinged with the ground section support frame (27), the left end of the slope changing transition frame (28) is hinged with the triangular connection frame (29), and the left end of the triangular connection frame (29) is fixedly connected with the right transition frame (2) of the second reversed loader (200);

the floor section supporting frame (27) is composed of a plurality of rigid frames (30) and a tail frame (31), the adjacent rigid frames (30) are hinged, the rigid frames (30) are composed of a second frame body (32) and a second carrier roller set (33), and the tail frame (31) is composed of the second frame body (32), the second carrier roller set (33), a bend roller (14) and a sweeper;

the slope-changing transition frame (28) comprises a second frame body (32), a second carrier roller group (33), a second pinch roller (34) and a pinch roller shaft assembly (35), wherein the pinch roller shaft assembly (35) is hinged with the second frame body (32);

the utility model discloses a height-adjusting support frame (4) is installed in the middle of the complete machine and is leaned on right position, and height-adjusting support frame (4) include support body (19), bearing roller group (20), pinch roller (21), height-adjusting hydro-cylinder (22), supporting leg (23) and second skid shoe (24), and inboard at support body (19) is installed in bearing roller group (20), and pinch roller (21) are installed in the upper left side of support body (19), and height-adjusting hydro-cylinder (22) totally two sets of, and two sets of height-adjusting hydro-cylinders (22) are installed in the both sides of support body (19) respectively.

2. A reconfigurable modular tape transfer system according to claim 1, wherein: the left end of the triangular connecting frame (29) is fixedly connected with the right transition frame (2) through four pin shafts, and the left end of the triangular connecting frame (29) is hinged with the slope-changing transition frame (28).

3. A reconfigurable modular tape transfer system according to claim 1 or 2, wherein: the main rigid frame (300) is composed of a plurality of rigid frames (30) and a tail frame (31), and the adjacent rigid frames (30) are hinged.

4. A reconfigurable modular tape transfer system according to claim 3, wherein: the first winch (400) is arranged at the right end of the tail frame (31) in the main rigid frame (300), and the tail end of a traction steel wire rope of the first winch (400) is connected to the left end of the slope-changing transition frame (28) on the second reversed loader (200).

5. A reconfigurable modular tape transfer system according to claim 4, wherein: the second winch (500) is arranged at the right end of the tail frame (31) in the second reversed loader (200), and the tail end of the traction steel wire rope is connected to the left end of the receiving part (1) in the first reversed loader (100).