CN216377181U - Hoist and mount operating system convenient to high-efficient fortune material - Google Patents

Abstract

The utility model belongs to the technical field of waste landfill handles technique and specifically relates to a hoist and mount operating system convenient to high-efficient carrier stock is related to, and it includes the rigidity landfill, be provided with the cell of a plurality of rectangle array in the rigidity landfill, one side of rigidity landfill is provided with the dump yard, still includes first hoist device, second hoist device and carrier loader, first hoist device the second hoist device with carrier loader sliding connection is in on the rigidity landfill, first hoist device is used for loading the material on the dump yard on the carrier loader, the carrier loader is used for transporting the material corresponding the cell top, second hoist device be used for with material on the carrier loader loads in the cell, this application has the effect that improves filling efficiency.

Description

Hoist and mount operating system convenient to high-efficient fortune material

Technical Field

The application relates to waste landfill treatment technical field, especially relates to a hoist and mount operating system convenient to high-efficient fortune material.

Background

With the development of industrial production, the quantity of industrial wastes is increasing day by day, the quantity of industrial wastes is huge, the variety is various, the components are complex, the treatment is quite difficult, general industrial solid wastes are treated in a landfill mode, the landfill treatment is divided into rigid landfill treatment and flexible landfill treatment, with the stricter and stricter national environmental protection policy, a rigid landfill is used as a landfill treatment mode which is more environment-friendly than a flexible landfill, the rigid landfill is usually a unit cell structure formed by concrete and steel structure buildings, and one rigid landfill generally comprises a plurality of unit cells in rectangular arrays and has larger scale.

Generally, when a rigid landfill is filled, the rigid landfill is arranged in a factory building provided with a crane, a hoisting device is connected to the rigid landfill in a sliding mode, the hoisting device grabs materials outside the factory building, the hoisting device is moved to the position above a certain cell to be filled, after filling is completed, the hoisting device returns to an initial point, repeating operation is carried out, the next cell is filled again, and only one cell can be filled by each round-trip operation of the hoisting device, so that the filling operation efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to improve and load efficiency, this application provides a hoist and mount operating system convenient to high-efficient fortune material.

The application provides a hoist and mount operating system convenient to high-efficient fortune material adopts following technical scheme:

the utility model provides a hoist and mount operating system convenient to high-efficient carrier material, includes the rigidity landfill, be provided with the cell of a plurality of rectangle array in the rigidity landfill, one side of rigidity landfill is provided with the stockyard, still includes first hoist device, second hoist device and carrier loader, first hoist device the second hoist device with carrier loader sliding connection is in on the rigidity landfill, first hoist device is used for loading the material on the stockyard on the carrier loader, the carrier loader is used for transporting the material corresponding the cell top, second hoist device be used for with material on the carrier loader loads in the cell.

Through adopting above-mentioned technical scheme, when filling the waste material into the cell, on loading some waste material from the windrow to the carrier loader through first hoist device earlier, then remove the carrier loader, remove carrier loader and second hoist device to the cell top that needs to load, the waste material of second hoist device on with the carrier loader is loaded to a plurality of cell in, load the completion back with whole waste materials on the carrier loader, remove the carrier loader again and get back to the initial position, repeated operation, thereby can load a plurality of cell in the carrier loader once comes and goes the operation, loading efficiency has been improved.

Optionally, a rail is connected to the side wall, away from the ground, of the rigid landfill site, the rail is located the rigid landfill site and above the stockyard, the rail is provided with a plurality of rails, the rails are arranged in the direction perpendicular to the stockyard, the unit cells are located adjacent to each other between the rails, pulleys are connected to the first hoisting device, the second hoisting device and the carrying cart, and the pulleys are located above the rails and in rolling fit with the rails.

By adopting the technical scheme, the rolling fit of the track and the pulley is the improvement guide of the first hoisting device, the second hoisting device and the carrier loader, so that the first hoisting device, the second hoisting device and the carrier loader can be conveniently moved.

Optionally, the first hoisting device is located the second hoisting device is close to one side of stockyard, first hoisting device with the second hoisting device is the portal frame device, the portal frame device includes gallows and lifting hook, the gallows is U type frame, the opening orientation of gallows the rigid landfill yard sets up, lifting hook sliding connection be in on the horizontal part of gallows, the slip direction of lifting hook with orbital length direction mutually perpendicular, the pulley is connected on the vertical portion of gallows, at least two the track is located between two vertical portions of gallows, on the carrier loader the pulley is located between two vertical portions of gallows on the track.

Through adopting above-mentioned technical scheme, have two tracks at least and be located between two vertical portions of gallows, have three cell at least between two vertical portions of gallows, enlarged first hoist device and second hoist device and in the working range with the track vertically side, improved and filled efficiency.

Optionally, a motor is connected to the carrying cart, and the motor is linked with the pulley.

By adopting the technical scheme, when the first hoisting device, the second hoisting device and the carrier vehicle are moved, the motor is started, the motor drives the pulley to rotate, the pulley rolls on the track, and after the first hoisting device, the second hoisting device and the carrier vehicle move to proper positions, the motor is closed, so that the positions of the first hoisting device, the second hoisting device and the carrier vehicle are fixed, and the position change of the first hoisting device, the second hoisting device and the carrier vehicle is convenient to control.

Optionally, a people ladder is connected to the rigid landfill site, the people ladder is connected to the side wall of the rigid landfill site, a channel is connected between the rails, and the channel and the people ladder are arranged oppositely.

Through adopting above-mentioned technical scheme, operating personnel is convenient for step on rigidity landfill yard and carrier loader through people's ladder and maintenance platform to the operating personnel of being convenient for is when filling work and goes on, inspects and controls filling work.

Optionally, a fence is connected to the carrying cart, and a notch is formed in the fence.

Through adopting above-mentioned technical scheme, operating personnel gets into the carrier loader through the opening, and when operating personnel was on the carrier loader, the security of operating personnel during operation has been improved in the setting of rail.

Optionally, an operation platform is connected to the carrying cart, and the operation platform is electrically connected to the motor.

Through adopting above-mentioned technical scheme, thereby operating personnel is convenient for load the cell through the removal of operation panel control first hoist device, second hoist device, carrier loader and lifting hook according to the situation of loading the operation on the carrier loader.

Optionally, a moving assembly is connected between the carrier loader and the rail, and the moving assembly is used for driving the carrier loader to move in a direction perpendicular to the rail.

By adopting the technical scheme, the carrier vehicle can move along the rail and also can move in the direction vertical to the rail, so that the carrier vehicle can move to the position above any cell in the working range of the second hoisting device, and an operator can check the filling state of the cell when the second hoisting device fills the cell conveniently.

Optionally, the moving assembly comprises a guide plate and guide wheels, the guide plate is connected with guide rails, the guide rails are located between the vertical portions of the hanging frames and perpendicular to the rails, the carrier loader is connected with the guide wheels, the guide wheels are located on the guide rails and matched with the guide rails in a rolling mode, the pulleys are provided with a plurality of parts, and the pulleys are connected to the side walls of the guide plate facing the rails.

Through adopting above-mentioned technical scheme, the carrier loader is when removing along the direction with the track vertically, and the leading wheel is removing along the guided way, and the pulley is connected on the guided way, and the pulley is provided with a plurality of, and the pulley plays the supporting role to the guided way to the stability of carrier loader removal on the guided way has been improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the unit cells are filled with waste materials, a part of the waste materials are loaded onto a carrier loader from a stockyard through a first hoisting device, then the carrier loader is moved, the carrier loader and a second hoisting device are moved to the position above the unit cells to be filled, the waste materials on the carrier loader are filled into a plurality of unit cells through the second hoisting device, after all the waste materials on the carrier loader are filled, the carrier loader is moved back to the initial position, and the operation is repeated, so that the carrier loader can fill the plurality of unit cells in one reciprocating operation, and the filling efficiency is improved;

2. at least two rails are positioned between the two vertical parts of the hanger, and at least three cells are positioned between the two vertical parts of the hanger, so that the working range of the first hoisting device and the second hoisting device in the direction vertical to the rails is expanded, and the filling efficiency is improved;

3. the carrier loader can move along the track and also can move along the guide rail, so that the carrier loader can move to the position above any cell in the working range of the second hoisting device, and an operator can check the filling state of the cells when the second hoisting device fills the cells conveniently.

Drawings

FIG. 1 is a schematic structural diagram of a hoist operation system for embodying the embodiment 1, which facilitates efficient material transportation;

FIG. 2 is a schematic view for illustrating the positional relationship between the pens and the cart of FIG. 1;

FIG. 3 is a schematic view for embodying the positional relationship between a guide rail and a guide plate in embodiment 2;

fig. 4 is a schematic view for showing a positional relationship between the guide wheel and the stay in embodiment 2.

Description of reference numerals:

1. a rigid landfill site; 2. a first hoisting device; 3. a second hoisting device; 4. a carrier loader; 5. a cell; 6. a human ladder; 7. a stockyard; 8. a channel; 9. a track; 10. a fence; 11. an operation table; 12. opening the gap; 13. a hanger; 14. a hook; 15. a connecting plate; 16. a rotating shaft; 17. a motor; 18. a pulley; 19. a guide plate; 20. a guide wheel; 21. a guide rail; 22. a support plate; 23. a wheel axle; 24. and a speed reducer.

Detailed Description

The embodiment of the application discloses hoist and mount operating system convenient to high-efficient fortune material.

Example 1

Referring to fig. 1 and 2, a hoist and mount operating system convenient to high-efficient material transport, including rigid landfill 1, first hoist device 2, second hoist device 3, carrier loader 4, rigid landfill 1 is provided with in the factory building that is provided with the row hoist device, be provided with the cell 5 of a plurality of rectangle array in the rigid landfill 1, one side of rigid landfill 1 is provided with stockyard 7, be provided with a plurality of windrow well hole on the stockyard 7, be connected with personnel's ladder 6 between rigid landfill 1 and the stockyard 7, personnel's ladder 6 is connected with the lateral wall of rigid landfill 1 and the lateral wall of stockyard 7.

Referring to fig. 1 and 2, a rail 9 is connected to a side wall, away from the ground, of the rigid landfill site 1, the rail 9 is located above the rigid landfill site 1 and the stockyard 7, the rail 9 is arranged in a direction perpendicular to the rigid landfill site 1 and the stockyard 7, the length direction of the rail 9 is perpendicular to the operation direction of the travelling crane, a plurality of rails 9 are arranged, the unit cells 5 are located between the adjacent rails 9, a channel 8 is connected between the rails 9, and the channel 8 corresponds to the stairway 6.

Referring to fig. 1 and 2, the carrier loader 4 is used for transporting materials to the upper side of the corresponding cell 5, the carrier loader 4 is provided with four rails 10 and an operating platform 11, the pulleys 18 are located on the rails 9 and are in rolling fit with the adjacent rails 9, the rails 10 are connected to the side walls of the carrier loader 4, and the rails 10 facing the stockyard 7 are provided with notches 12.

Referring to fig. 1 and 2, the first hoisting device 2 is used for loading the material on the storage yard 7 onto the carrier loader 4, the second hoisting device 3 is used for loading the material on the carrier loader 4 into the cell 5, the first hoisting device 2 is located on one side of the second hoisting device 3 close to the storage yard 7, the first hoisting device 2 and the second hoisting device 3 are both portal frame devices, each portal frame device comprises a hanger 13 and a hook 14, the hanger 13 is a U-shaped frame, an opening of the hanger 13 faces downwards to the rigid landfill site 1, the hook 14 is slidably connected to a horizontal portion of the hanger 13, and the sliding direction of the hook 14 is perpendicular to the length direction of the track 9.

Referring to fig. 1 and 2, a connecting plate 15 is connected to a side wall of a carrier loader 4 close to a rail 9 and a vertical portion of a hanger 13, a motor 17 and a rotating shaft 16 are connected to the connecting plate 15, the rotating shaft 16 penetrates through the connecting plate 15 and is rotatably connected with the connecting plate 15, a motor 17 shaft of the motor 17 is connected with the rotating shaft 16, an operation table 11 is connected to the carrier loader 4, the operation table 11 is electrically connected with the motor 17, a pulley 18 is fixedly connected to the rotating shaft 16, the pulley 18 is located on the rail 9 and is in rolling fit with the rail 9, at least two rails 9 are located between the vertical portions of the hanger 13, in the embodiment, two rails 9 are located between the two vertical portions of the hanger 13, the pulley 18 on the carrier loader 4 is located on the rail 9 between the two vertical portions of the hanger 13, and the pulley 18 is in rolling fit with the rail 9.

The implementation principle of the embodiment 1 is as follows: the motor 17 is started through the operation table 11, the motor 17 drives the rotating shaft 16 to rotate, the rotating shaft 16 drives the pulley 18 to rotate, the pulley 18 rolls on the track 9, so that the first hoisting device 2 is moved to the position above the stock dump 7, the carrier loader 4 is moved to the position suitable for loading, then the motor 17 is turned off through the operation table 11, the hook 14 on the first hoisting device 2 is moved to ascend and descend, part of waste materials in the stock dump 7 are loaded on the carrier loader 4, then the motor 17 is started again, the carrier loader 4 and the second hoisting device 3 are moved to the position above the unit lattice 5 needing to be loaded, the hook 14 on the second hoisting device 3 is controlled, the waste materials on the carrier loader 4 are loaded into the unit lattice 5 in the operation range of the second hoisting device 3, after all the waste materials on the carrier loader 4 are loaded, the carrier loader 4 is moved back to the initial position, the operation is repeated, and the loading is continued, therefore, the carrying cart 4 can be used for filling the plurality of unit lattices 5 within the action range of the second hoisting device 3 in each round-trip operation, and the filling efficiency is improved.

After the cells 5 in the operation range where the second hoisting device 3 is located are completely filled, the first hoisting device 2, the second hoisting device 3 and the carrier loader 4 are hoisted by a crane to enable the first hoisting device 2, the second hoisting device 3 and the carrier loader 4 to move the three cells 5 along the direction vertical to the track 9, then the first hoisting device 2, the second hoisting device 3 and the carrier loader 4 are placed on the track 9, so that the first hoisting device 2, the second hoisting device 3 and the carrier loader 4 are moved to the positions above the cells 5 which are not filled, and then the cells 5 are continuously filled.

Example 2

Referring to fig. 3 and 4, in this embodiment, the pulley 18 on the hanger 13 is in sliding fit with the rail 9 away from each other, a moving assembly is connected between the carrier loader 4 and the rail 9, the moving assembly includes a guide plate 19 and guide wheels 20, the guide plate 19 is located between two vertical portions of the hanger 13, a guide rail 21 is connected to a side wall of the guide plate 19 away from the rail 9, the guide rail 21 is perpendicular to the rail 9, a plurality of connecting plates 15 are provided, the connecting plates 15 are connected to a side wall of the guide plate 19 facing the rail 9, a rotating shaft 16 is rotatably connected to the connecting plates 15, the pulley 18 is fixedly connected to the rotating shaft 16, the pulley 18 is located on the rail 9 between the two vertical portions of the hanger 13 and is in rolling fit with the rail 9, the motor 17 is connected to the two connecting plates 15, the rotating shaft 16 penetrates through the connecting plates 15 and is connected to the motor 17, a support plate 22 is connected to a side wall of the carrier loader 4 close to the rail 9, the support plate 22 is rotatably connected with a wheel shaft 23, the guide wheel 20 is fixedly connected to the wheel shaft 23, the guide wheel 20 is positioned on the guide rail 21 and is matched with the guide rail 21 in a rolling manner, the support plate 22 is connected with a speed reducer 24, the speed reducer 24 is electrically connected with the operating platform 11, and the wheel shaft 23 penetrates through the support plate 22 and is connected with the speed reducer 24.

The implementation principle of the embodiment 2 is as follows: the motor 17 is started through the operation table 11, the motor 17 drives the pulley 18 to rotate, the pulley 18 rolls on the track 9, so that the first hoisting device 2 moves to the position above the stock yard 7, the carrier cart 4 moves to the position suitable for loading, part of waste materials in the stock yard 7 are loaded on the carrier cart 4, then the motor 17 and the speed reducer 24 are started, the motor 17 drives the pulley 18 to roll on the track 9, the speed reducer 24 drives the wheel shaft 23 to rotate, the wheel shaft 23 drives the guide wheel 20 to rotate, the guide wheel 20 rolls on the guide rail 21, so that the carrier cart 4 can move along the length direction of the track 9 and can also move along the length direction of the guide rail 21, so that the carrier cart 4 and the second hoisting device 3 are moved to the position above the unit cell 5 to be loaded, the lifting hook 14 on the second hoisting device 3 is controlled, waste materials on the carrier cart 4 are loaded into the unit cell 5 in the operation range of the second hoisting device 3, after all the waste materials on the carrier loader 4 are filled, the carrier loader 4 is moved back to the initial position, the operations are repeated, and the filling is continued, so that the operation range of the carrier loader 4 and the second hoisting device 3 can cover all the cells 5, the first hoisting device 2, the second hoisting device 3 and the carrier loader 4 do not need to be moved by means of a crane, and the filling efficiency is improved.

Claims (9)

1. The utility model provides a hoist and mount operating system convenient to high-efficient fortune material, includes rigidity landfill (1), be provided with cell (5) of a plurality of rectangle array in rigidity landfill (1), one side of rigidity landfill (1) is provided with stockyard (7), be provided with a plurality of stockpile well hole, its characterized in that on stockpile yard (7): the device is characterized by further comprising a first hoisting device (2), a second hoisting device (3) and a carrier loader (4), wherein the first hoisting device (2), the second hoisting device (3) and the carrier loader (4) are connected to the rigid landfill site (1) in a sliding mode, the first hoisting device (2) is used for loading materials on a stockyard (7) onto the carrier loader (4), the carrier loader (4) is used for transporting the materials to the corresponding unit grids (5) above, and the second hoisting device (3) is used for loading the materials on the carrier loader (4) into the unit grids (5).

2. The hoist operation system convenient to high-efficient fortune material of claim 1 characterized in that: be connected with track (9) on the lateral wall that ground was kept away from in rigidity landfill yard (1), track (9) are located rigidity landfill yard (1) with stockyard (7) top, track (9) are provided with a plurality of, track (9) are along setting up with stockyard (7) vertically direction, cell (5) are located adjacently between track (9), first hoist device (2), second hoist device (3) with all be connected with pulley (18) on carrier loader (4), pulley (18) are located track (9) top and with track (9) roll cooperation.

3. The hoist operation system convenient to high-efficient fortune material of claim 2 characterized in that: the first hoisting device (2) is positioned at one side of the second hoisting device (3) close to the stock yard (7), the first hoisting device (2) and the second hoisting device (3) are both portal frame devices, the portal frame device comprises a hanger (13) and a hook (14), the hanger (13) is a U-shaped frame, the opening of the hanger (13) is arranged towards the rigid landfill site (1), the lifting hook (14) is connected on the horizontal part of the hanger (13) in a sliding way, the sliding direction of the hook (14) is vertical to the length direction of the track (9), the pulleys (18) are connected to the vertical parts of the hanger (13), at least two of the rails (9) are positioned between the two vertical parts of the hanger (13), the pulley (18) on the carrier (4) is located on the track (9) between the two vertical portions of the spreader (13).

4. The hoist operation system convenient to high-efficient fortune material of claim 2 characterized in that: the carrying vehicle (4) is connected with a motor (17), and the motor (17) is linked with the pulley (18).

5. The hoist operation system convenient to high-efficient fortune material of claim 4 characterized in that: the upper portion of the rigid landfill site (1) is connected with a people ladder (6), the people ladder (6) is connected to the side wall of the rigid landfill site (1), a channel (8) is connected between the rails (9), and the channel (8) and the people ladder (6) are arranged oppositely.

6. The hoist operation system convenient to high-efficient fortune material of claim 5 characterized in that: the carrying cart is characterized in that a fence (10) is connected to the carrying cart (4), and a notch (12) is formed in the fence (10).

7. The hoist operation system convenient to high-efficient fortune material of claim 6 characterized in that: the carrier loader (4) is connected with an operating platform (11), and the operating platform is electrically connected with the motor (17).

8. The hoist operation system convenient to high-efficient fortune material of claim 3 characterized in that: a moving assembly is connected between the carrying vehicle (4) and the track (9), and the moving assembly is used for driving the carrying vehicle (4) to move along the direction vertical to the track (9).

9. The hoist operation system convenient to high-efficient fortune material of claim 8 characterized in that: the moving assembly comprises a guide plate (19) and guide wheels (20), guide rails (21) are connected to the guide plate (19), the guide rails (21) are located between vertical portions of the hanging brackets (13) and perpendicular to the rails (9), the carrier loader (4) is connected with the guide wheels (20), the guide wheels (20) are located on the guide rails (21) and matched with the guide rails (21) in a rolling mode, the pulleys (18) are provided with a plurality of parts, and the pulleys (18) are connected to the guide plate (19) and face the side walls of the rails (9).

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