CN114832930A

CN114832930A - Integrated crushing system for backfill materials

Info

Publication number: CN114832930A
Application number: CN202210578413.2A
Authority: CN
Inventors: 任俊; 任志平; 侯春明; 荣瑞坤; 龚怀东; 吴余侃
Original assignee: China Construction Third Bureau Construction Engineering Co Ltd; China Construction Third Engineering Bureau Sichuan Construction Equipment Co Ltd
Current assignee: China Construction Third Bureau Group Co Ltd; China Construction Third Engineering Bureau Sichuan Construction Equipment Co Ltd
Priority date: 2022-05-25
Filing date: 2022-05-25
Publication date: 2022-08-02
Anticipated expiration: 2042-05-25
Also published as: CN114832930B

Abstract

The invention discloses an integrated crushing system for backfill materials, which comprises: a crushing container, a processing bracket and a collecting lifting plate, the crushing container is arranged on the processing bracket, the inner side of the crushing container is provided with a sealing feeding structure, a crushing structure and a dust removing structure, the processing bracket is provided with a drainage structure which is connected on the crushing container, the invention has the advantages that the collecting lifting plate is arranged on the processing bracket through the drainage structure, the soil and stones are sealed and fed through the sealed feeding structure, the dust raising phenomenon in the feeding process is avoided, the soil and stones are crushed and ground through the crushing structure, meanwhile, dust generated by crushing the inner side of the crushing container is sprayed and dedusted through the dedusting structure, so that the phenomenon of dust splashing in the operation process is avoided.

Description

Integrated crushing system for backfill materials

Technical Field

The invention relates to the technical field of earth and stone crushing, in particular to an integrated crushing system for backfilled earth.

Background

After the urban pipeline system is paved, sandy soil or sand and stone are required to be used for backfilling, the existing backfilled soil is required to be smashed and mixed with gravel, dust is prone to flying in the process of smashing the soil, fragments fly out, and after flying out, environmental pollution is caused, and health of constructors can be threatened.

Disclosure of Invention

The technical scheme of the invention for realizing the aim is as follows: an integrated crushing system for backfill soil comprises a crushing container, a processing bracket and a collecting lifting plate, wherein the crushing container is arranged on the processing bracket, the inner side of the crushing container is provided with a sealing feeding structure, a crushing structure and a dust removing structure, the processing bracket is provided with a drainage structure, the drainage structure is connected to the crushing container, and the collecting lifting plate is arranged on the processing bracket through the drainage structure;

the drainage structure includes: the device comprises a horn-shaped drainage tube, an L-shaped discharging push plate, a discharging drainage hydraulic push rod, four pairs of lifting discharging slideways, four pairs of lifting discharging slide blocks, a square-shaped shielding plate, a square-shaped shielding sealing block and a lifting adjusting assembly;

the collecting lifting plate passes through the lifting adjusting assembly is installed on the machining support, the L-shaped drainage tube is installed on the machining support, the horn-shaped drainage tube is installed at the bottom end of the smashing container, the horn-shaped drainage tube is inserted in the L-shaped drainage tube, the discharging drainage hydraulic push rod is installed in the inner side of the L-shaped drainage tube, the L-shaped discharging push plate is installed at the pushing end of the discharging drainage hydraulic push rod, four pairs of lifting discharging slideways are arranged on the side wall of the L-shaped drainage tube in a two-parallel mode, four pairs of lifting discharging sliders are arranged in the inner side of the square-shaped baffle plate in a two-parallel mode, and four pairs of lifting discharging sliders are respectively movably inserted in four pairs of lifting discharging slideways, and square-shaped shielding sealing blocks are installed on the square-shaped baffle plate.

Preferably, the crushing structure comprises: the grinding device comprises a plurality of grinding shafts, a plurality of grinding blocks, a plurality of grinding rollers, a plurality of grinding arc blocks, a pair of grinding and grinding gear boxes, a pair of grinding and grinding driving machines and a plurality of transmission gears;

the crushing shaft and the grinding rollers are respectively arranged in the crushing gathering box in parallel, the crushing blocks are respectively arranged on the crushing shafts, the grinding arc blocks are uniformly arranged on the inner side of the crushing container, the grinding arc blocks are respectively positioned on two sides of the grinding rollers, the crushing grinding gear boxes are respectively sleeved on the crushing grinding gear boxes, the crushing grinding gear boxes are respectively connected to the crushing grinding gear boxes, the crushing grinding driving machines are respectively connected to the crushing grinding gear boxes, the transmission gears are respectively connected to the crushing shafts and the grinding rollers, and the transmission gears are respectively meshed with the transmission gears.

Preferably, the dust removing structure comprises: the device comprises a clip-shaped drainage tube, a dust removal box, a dust removal liquid pump, a dust removal drainage tube and a plurality of atomizing nozzles;

the shape drainage tube that returns install in smash the inboard of container, the dust removal case install in on the processing support, the dust removal drawing liquid pump install in on the dust removal case, the dust removal drainage tube install in on the dust removal drawing liquid pump, just the dust removal drainage tube connect in shape drainage tube returns, a plurality of the even installation of atomizer in back on the shape drainage tube.

Preferably, the sealing and feeding structure comprises: the device comprises a lifting return pipe, a concave lifting transport block, two pairs of lifting winches, a pulley block, a flow-guiding return pipe, a discharging plate and a discharging shaft;

the lifting return pipe is arranged on the crushing container, the concave lifting transport block is movably inserted in the inner side of the lifting return pipe, the pulley block is arranged on the concave lifting transport block and the lifting return pipe, two pairs of lifting winches are uniformly arranged in the inner side of the lifting return pipe and are movably inserted in the pulley block respectively and connected to the concave lifting transport block, the drainage return pipe is inserted in the lifting return pipe, a discharge chute is formed in the concave lifting transport block, and the discharge plate is movably inserted in the discharge chute through a discharge shaft.

Preferably, the lifting adjustment assembly comprises: the lifting device comprises a plurality of lifting adjusting electric push rods, a plurality of concave lifting slideways, a plurality of convex lifting slide blocks and concave supporting blocks;

the lifting device comprises a concave supporting block, a processing support, a plurality of lifting adjusting electric push rods, a plurality of concave lifting slide ways, a plurality of collecting lifting plates, a plurality of convex lifting slide blocks and a plurality of concave lifting slide ways, wherein the concave supporting block is inserted into the ground, the processing support is arranged on the concave supporting block, the lifting adjusting electric push rods are uniformly arranged on the concave supporting block, the concave lifting slide ways are respectively arranged on the concave supporting block and the processing support, the collecting lifting plates are arranged on the plurality of lifting adjusting electric push rods, the convex lifting slide blocks are respectively and uniformly arranged on the collecting lifting plates, and the convex lifting slide blocks are respectively movably inserted into the inner sides of the concave lifting slide ways.

Preferably, the inner side of the crush container is provided with a dust sensor.

Preferably, a sponge sealing layer is arranged on the inner side of the square shielding sealing block.

Preferably, a trumpet-shaped plastic cloth strip is arranged on the L-shaped drainage tube.

Preferably, a plurality of the lifting adjusting electric push rods are multi-section electric push rods, and the collecting lifting plate is provided with a weight sensor.

Preferably, an auxiliary support block is provided on the inside of the concave support block.

According to the integrated crushing system for the backfill soil manufactured by the technical scheme, the soil and the stones are subjected to sealed feeding through the sealed feeding structure, the phenomenon of dust raising in the feeding process is avoided, the soil and the stones are crushed and ground through the crushing structure, and meanwhile, dust generated by crushing the inner side of the crushing container is sprayed and removed through the dust removing structure, so that the phenomenon of dust splashing in the operation process is avoided.

Drawings

Fig. 1 is a schematic front view of an integrated crushing system for backfill soil according to the present invention.

Fig. 2 is a schematic side view of an integrated crushing system for backfill according to the present invention.

Fig. 3 is a schematic three-dimensional structure diagram of an integrated crushing system for backfill according to the present invention.

Fig. 4 is a partially enlarged view of "a" in fig. 1.

Fig. 5 is a partially enlarged view of "B" in fig. 2.

In the figure: 1. crushing the container; 2. processing a bracket; 3. collecting the lifting plate; 4. a trumpet-shaped drainage tube; 5. an L-shaped drainage tube; 6. an L-shaped discharge push plate; 7. discharging and draining a hydraulic push rod; 8. a lifting discharge chute; 9. lifting the discharging slide block; 10. a square-shaped shielding plate; 11. a clip-shaped shielding sealing block; 12. a crushing shaft; 13. crushing the blocks; 14. a grinding roller; 15. grinding the arc block; 16. a pulverizing and grinding gear box; 17. a pulverizing and grinding driver; 18. a transmission gear; 19. a clip-shaped drainage tube; 20. a dust removal box; 21. a dust removal liquid pump; 22. a dust removal drainage tube; 23. an atomizing spray head; 24. lifting the return pipe; 25. a concave lifting transport block; 26. lifting the winch; 27. a reflux condenser; 28. a stripper plate; 29. and a discharging shaft.

Detailed Description

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example 1

As shown in fig. 1-5, an integrated crushing system for backfill soil comprises a crushing container 1, a processing bracket 2 and a collecting lifting plate 3, wherein the crushing container 1 is mounted on the processing bracket 2, a sealing feeding structure, a crushing structure and a dust removing structure are mounted on the inner side of the crushing container 1, a drainage structure is mounted on the processing bracket 2 and connected to the crushing container 1, and the collecting lifting plate 3 is mounted on the processing bracket 2 through the drainage structure; the drainage structure includes: the device comprises a horn-shaped drainage tube 4, an L-shaped drainage tube 5, an L-shaped discharging push plate 6, a discharging drainage hydraulic push rod 7, four pairs of lifting discharging slideways 8, four pairs of lifting discharging slide blocks 9, a square-shaped shielding plate 10, a square-shaped shielding sealing block 11 and a lifting adjusting assembly; the collecting lifting plate 3 is arranged on the processing bracket 2 through the lifting adjusting component, the L-shaped drainage tube 5 is arranged on the processing bracket 2, the horn-shaped drainage tube 4 is arranged at the bottom end of the crushing container 1, the horn-shaped drainage tube 4 is inserted on the L-shaped drainage tube 5, the discharging drainage hydraulic push rod 7 is arranged at the inner side of the L-shaped drainage tube 5, the L-shaped discharging push plate 6 is arranged at the pushing end of the discharging drainage hydraulic push rod 7, four pairs of lifting discharging slide ways 8 are arranged on the side wall of the L-shaped drainage tube 5 in a pairwise parallel manner, four pairs of lifting discharging slide blocks 9 are arranged on the inner side of the square-shaped baffle plate 10 in a pairwise parallel manner, the four pairs of lifting unloading slide blocks 9 are respectively and movably inserted into the inner sides of the four pairs of lifting unloading slide ways 8, and the square-shaped shielding sealing block 11 is arranged on the square-shaped shielding plate 10; the crushing structure comprises: a plurality of crushing shafts 12, a plurality of crushing blocks 13, a plurality of grinding rollers 14, a plurality of grinding arc blocks 15, a pair of crushing and grinding gear boxes 16, a pair of crushing and grinding driving machines 17 and a plurality of transmission gears 18; the crushing shafts 12 and the grinding rollers 14 are respectively arranged in parallel in the crushing gathering box, the crushing blocks 13 are respectively arranged on the crushing shafts 12, the grinding arc blocks 15 are uniformly arranged on the inner side of the crushing container 1, the grinding arc blocks 15 are respectively positioned on two sides of the grinding rollers 14, a pair of crushing and grinding gear boxes 16 are respectively sleeved on the shafts and the grinding rollers 14, a pair of crushing and grinding driving machines 17 are respectively connected to the crushing and grinding gear boxes 16, a plurality of conduction gears 18 are respectively connected to the crushing shafts 12 and the grinding rollers 14, and the conduction gears 18 are respectively meshed with the corresponding gears; the dust removal structure includes: the device comprises a square drainage tube 19, a dust removal box 20, a dust removal liquid pump 21, a dust removal drainage tube 22 and a plurality of atomizing nozzles 23; the square-shaped drainage tube 19 is installed on the inner side of the crushing container 1, the dust removal box 20 is installed on the processing bracket 2, the dust removal liquid pump 21 is installed on the dust removal box 20, the dust removal drainage tube 22 is installed on the dust removal liquid pump 21, the dust removal drainage tube 22 is connected to the square-shaped drainage tube 19, and the plurality of atomizing spray heads 23 are evenly installed on the square-shaped drainage tube 19; the sealed feeding structure comprises: the device comprises a lifting pipe 24, a concave lifting transport block 25, two pairs of lifting winches 26, a pulley block, a drainage pipe 27, a discharging plate 28 and a discharging shaft 29; the lifting and returning pipe 24 is installed on the crushing container 1, the concave lifting and transporting block 25 is movably inserted into the inner side of the lifting and returning pipe 24, the pulley block is installed on the concave lifting and transporting block 25 and the lifting and returning pipe 24, two pairs of lifting and hoisting machines 26 are uniformly installed on the inner side of the lifting and returning pipe 24, the two pairs of lifting and hoisting machines 26 are respectively movably inserted into the pulley block and connected to the concave lifting and transporting block 25, the backflow guiding pipe 27 is inserted into the lifting and returning pipe 24, the concave lifting and transporting block 25 is provided with a discharge chute, and the discharge plate 28 is movably inserted into the discharge chute through the discharge shaft 29; the lift adjustment subassembly includes: the lifting device comprises a plurality of lifting adjusting electric push rods, a plurality of concave lifting slideways, a plurality of convex lifting slide blocks and concave supporting blocks; the processing support 2 is arranged on the concave support block, a plurality of lifting adjusting electric push rods are uniformly arranged on the concave support block, a plurality of concave lifting slide ways are respectively arranged on the concave support block and the processing support 2, the collecting lifting plate 3 is arranged on the pushing ends of the lifting adjusting electric push rods, a plurality of convex lifting slide blocks are respectively and uniformly arranged on the collecting lifting plate 3, and the convex lifting slide blocks are respectively and movably inserted into the inner sides of the concave lifting slide ways; a dust sensor is arranged on the inner side of the crushing container 1; a sponge sealing layer is arranged on the inner side of the square shielding sealing block 11; a horn-shaped plastic cloth strip is arranged on the L-shaped drainage tube 5; the plurality of lifting adjusting electric push rods are multi-section electric push rods, and the collecting lifting plate 3 is provided with a weight sensor; the weight sensor can directly acquire the weight of the crushed materials, saves the working procedure of weighing the vehicle and improves the working efficiency, and the inner side of the concave supporting block is provided with the auxiliary supporting block.

When in use, the transporter is moved above the collecting lifting plate 3, the convex lifting slide blocks on the collecting lifting plate 3 are respectively driven to lift along the inner sides of the concave lifting slideways on the processing bracket 2 by the contraction of the plurality of lifting adjusting electric push rods, the transporter is pushed to the inner sides of the clip-shaped shielding sealing blocks 11 on the L-shaped drainage tube 5, the lifting unloading slide blocks 9 on the clip-shaped shielding plate 10 are lifted along the inner sides of the lifting unloading slideways 8 by the lifting of the transporter, so that the purpose of sealing the transporter 10 by the clip-shaped shielding plate is achieved, the raw material soil stones are poured into the drainage clip-shaped tube 27, the soil stones are drained to the inner sides of the concave lifting transport blocks 25 on the inner sides of the lifting clip-shaped tube 24 by the drainage clip-shaped tube 27, and the concave lifting transport blocks 25 are lifted along the inner sides of the lifting clip-shaped tube 24 by the matching of the two pairs of lifting windlasses 26 and the pulley blocks, when the discharging plate 28 on the concave lifting transportation block 25 is not shielded by the lifting return pipe 24, the discharging plate 28 is made to rotate along the discharging shaft 29, so as to guide the raw material inside the concave lifting transportation block 25 to the inner side of the crushing container 1, and to guide the raw material to the crushing structure through the earth and stones, the crushing and grinding gear boxes 16 on the driving end of the pair of crushing and grinding drivers 17 are respectively driven through the operation of the pair of crushing and grinding drivers 17, the plurality of crushing shafts 12 and the plurality of grinding rollers 14 are respectively driven through the pair of crushing and grinding gear boxes 16, the transmission gears 18 on the plurality of crushing shafts 12 and the plurality of grinding rollers 14 are respectively driven through the plurality of rotating transmission gears 18, and the transmission gears 18 meshed with the transmission gears are respectively driven through the plurality of rotating transmission gears 18, so that the plurality of horizontally parallel crushing shafts 12 are relatively rotated, and the crushing shafts 12 and the grinding rollers 14 are rotated clockwise and counterclockwise, the crushing blocks 13 on the crushing shafts 12 are respectively driven by the crushing shafts 12, the soil and stones are crushed by the clockwise and anticlockwise crushing blocks 13, the soil and stones are crushed by the grinding rollers 14 and the grinding arc blocks 15, the soil and stones are ground, the soil and stones are crushed and ground, the ground soil and stones are drained to the inner side of the horn-shaped drainage tube 4, the soil and stones are drained to the inner side of the L-shaped drainage tube 5 by the horn-shaped drainage tube 4, the discharging drainage hydraulic push rod 7 is driven to stretch and retract to drive the discharging drainage hydraulic push rod 7 to push the L-shaped discharging push plate 6 on the end, the soil and stone powder on the inner side of the L-shaped drainage tube 5 is pushed to the inner side of the transport vehicle by the L-shaped discharging push plate 6, the L-shaped discharging drainage tube 4 is sealed and shielded by the L-shaped discharging hydraulic push plate, and sealed crushing and sealed drainage discharging are realized, meanwhile, the inner side of the crushing container 1 is monitored through a dust sensor, the dust removal liquid pump 21 on the dust removal box 20 runs to drive the dust removal liquid pump 21 to guide liquid on the inner side of the dust removal box 20 to the inner side of the dust removal drainage tube 22, the liquid is guided to the inner side of the clip-shaped drainage tube 19 through the dust removal drainage tube 22, and the inner side of the crushing container 1 is dedusted through a plurality of atomizing nozzles 23 on the clip-shaped drainage tube 19.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The integrated crushing system for the backfill soil comprises a crushing container, a processing bracket and a collecting lifting plate, and is characterized in that the crushing container is mounted on the processing bracket, a sealing feeding structure, a crushing structure and a dust removing structure are mounted on the inner side of the crushing container, a drainage structure is mounted on the processing bracket and connected to the crushing container, and the collecting lifting plate is mounted on the processing bracket through the drainage structure;

the collecting lifting plate passes through the lifting adjusting assembly install in on the processing support, L type drainage tube install in on the processing support, loudspeaker type drainage tube install in smash the bottom of container, just loudspeaker type drainage tube cartridge in on the L type drainage tube, the drainage hydraulic push rod of unloading install in the inboard of L type drainage tube, the L type push plate of unloading install in the promotion of the drainage hydraulic push rod of unloading is served, and is right four two liang of parallel mounting of slide of unloading in on the lateral wall of L type drainage tube, four right two liang of parallel mounting of slide of unloading in the inboard of returning the shape shielding plate goes back, and four right the slide of unloading respectively that goes up and down moves about the cartridge in four pairs the inboard of slide of unloading goes up and down, it shelters from the sealing block and install in to return to shape on the shape shielding plate.

2. An integrated crushing system for backfill material according to claim 1, wherein the crushing structure comprises: the grinding device comprises a plurality of grinding shafts, a plurality of grinding blocks, a plurality of grinding rollers, a plurality of grinding arc blocks, a pair of grinding and grinding gear boxes, a pair of grinding and grinding driving machines and a plurality of transmission gears;

3. An integrated demolition system for backfill material according to claim 1 wherein the dust extraction structure comprises: the device comprises a clip-shaped drainage tube, a dust removal box, a dust removal liquid pump, a dust removal drainage tube and a plurality of atomizing nozzles;

4. An integrated fracking system for backfill soil according to claim 1, wherein the seal loading structure comprises: the device comprises a lifting return pipe, a concave lifting transport block, two pairs of lifting winches, a pulley block, a flow-guiding return pipe, a discharging plate and a discharging shaft;

5. An integrated backfill crushing system according to claim 1, wherein the lift adjustment assembly comprises: the lifting device comprises a plurality of lifting adjusting electric push rods, a plurality of concave lifting slideways, a plurality of convex lifting slide blocks and concave supporting blocks;

6. An integrated demolition system for backfill according to claim 1 wherein the inner side of the comminution container is provided with dust sensors.

7. An integrated fragmentation system for backfill according to claim 1, characterised in that the inside of the paperclip-shaped shelter seal blocks is provided with a sponge seal.

8. An integrated crushing system for backfill according to claim 1, wherein a trumpet-shaped plastic cloth strip is arranged on the L-shaped drainage tube.

9. The integrated crushing system for backfill soil according to claim 1, wherein the plurality of lifting adjustment electric push rods are multi-section electric push rods, and the collection lifting plate is provided with a weight sensor.

10. An integrated crushing system for backfill material according to claim 5, wherein the concave support blocks are provided with auxiliary support blocks on the inside.