CN117773597B - Intelligent processing device for civil construction waste and application method thereof - Google Patents

Abstract

The invention belongs to the technical field of civil construction waste treatment, in particular to an intelligent treatment device for the civil construction waste and a use method thereof. According to the intelligent processing device for the civil construction waste and the application method thereof, the conveying belt of the conveying belt can be extruded and deformed into an arc shape through the deforming roller, so that the steel pipe pile can be changed into an oval shape by matching with the straightening mechanism in the conveying advancing process.

Description

Intelligent processing device for civil construction waste and application method thereof

Technical Field

The invention relates to the technical field of civil construction waste treatment, in particular to an intelligent treatment device for civil construction waste and a use method thereof.

Background

Civil engineering waste refers to waste and byproducts generated during the civil engineering construction process. The concrete includes, but is not limited to, waste concrete, waste tile, waste wood, waste steel pipe pile, waste asphalt, waste glass, waste plastic, etc., in order to realize resource recycling, the generated waste is mostly screened and classified, and then a series of recycling is performed, for example, the waste steel pipe pile can be reused as a support after being straightened, thereby avoiding great resource waste.

However, when the existing machine is used for processing the abandoned steel pipe piles, the passing steel pipe piles are simply straightened in a simple roller rotating mode, but the equipment is simple, the equipment cannot be suitable for any steel pipe pile, the equipment has great limitation, the sunken parts of the steel pipe piles cannot be well restored after being simply straightened, so that the supporting performance is poor when the steel pipe piles are recycled, the use effect is poor, and meanwhile, the straightened steel pipe piles are required to be manually arranged one by one, so that more labor is input, and resources are wasted.

Disclosure of Invention

Based on the existing technical problems, the invention provides an intelligent treatment device for civil construction waste and a use method thereof.

The invention provides an intelligent treatment device for civil construction waste, which comprises a convex movable base and steel pipe piles to be treated, wherein two ends of a convex part of the movable base are symmetrically and rotatably connected with double-head adjusting screws through bearings, two outer surfaces of two ends of each double-head adjusting screw are respectively in opposite distribution threaded sleeves and are respectively connected with a movable sliding block, the upper surface of each movable sliding block is fixedly connected with a mounting base, the upper surface of each mounting base is provided with a straightening mechanism, the upper surface of the convex part of each movable base is provided with an opposite rounding mechanism, the front end of each movable base is provided with a supporting platform with a groove, a cutting tool is arranged above the supporting platform and the upper part between the movable base, and one side of each supporting platform and the upper surface of each supporting platform are provided with a material moving mechanism.

The straightening mechanism is in contact with the outer surface of the steel pipe pile and pushes the steel pipe pile to be conveyed forwards so as to straighten and convey the steel pipe pile.

The rounding mechanism is in contact with the outer surface of the steel pipe pile to clamp and push the steel pipe pile forwards.

The steel pipe pile after being processed is cut off and received equidistantly by the material moving mechanism, and then the material moving mechanism pushes the material to be discharged for centralized collection.

Preferably, the first belt pulley assembly is installed on the outer surface of one end of the same side of the double-end adjusting screw rod, a driving cavity is formed in the protruding portion of the movable base, a gear motor is fixedly installed in the driving cavity, a bevel gear set is installed on the outer surface of an output shaft of the gear motor, and a driven part of the bevel gear set is fixedly sleeved with the outer surface of the middle of one of the double-end adjusting screw rods.

Through above-mentioned technical scheme, in order to make the diameter that straighten mechanism adaptation steel pipe pile to can drive it and straighten and carry, and then the gear motor in the drive cavity steerable bevel gear group rotates, make the double-end adjusting screw who is connected with the bevel gear group rotate, first belt pulley assembly includes first belt pulley and first driving belt, thereby control two double-end adjusting screw synchronous rotations through first belt pulley assembly, make relative removal slider carry out relative motion, therefore the surface that straighten mechanism contactable steel-pipe pile and to realize handling.

Preferably, the straightening mechanism comprises a connecting block which is fixedly connected to the upper surface of the mounting base in a rectangular array mode through a mounting block, a roll shaft is rotatably connected to the inner surface of a U-shaped opening at the front end of the connecting block, a straightening roller is sleeved on the outer surface of the roll shaft in a fixed manner, the connecting block is obliquely distributed, a driven bevel gear is rotatably connected to one side surface of the tail end of the connecting block through a connecting shaft, a second belt pulley assembly is mounted on the outer surface of the connecting shaft of the driven bevel gear, the other end of the second belt pulley assembly is mounted on the outer surface of one end of the roll shaft, and a baffle shell is fixedly connected to one side surface of the connecting block and is covered on the outer surface of the second belt pulley assembly.

Through the technical scheme, in order to straighten the steel pipe pile conveyed forwards, the straightening rollers which are distributed in a crossed mode are arranged on the upper surfaces of the oppositely arranged mounting bases, when the steel pipe pile to be processed passes through the two groups of straightening rollers, the steel pipe pile can be pushed forwards along with the rotation of the straightening rollers, the outer surfaces of the steel pipe pile are extruded to achieve the straightening effect, the straightening rollers can incline to enlarge the acting area of the straightening rollers, the straightening effect is better, the straightening rollers are driven to rotate, the second belt pulley assembly comprises a second belt pulley and a second transmission belt, so that driven bevel gears can rotate, the second belt pulley assembly is driven to control the straightening rollers to rotate, and the blocking shell can protect the second belt pulley assembly.

Preferably, the straightening mechanism further comprises movable grooves symmetrically distributed on the upper surface of the mounting base, an action cavity is formed in the mounting base, the inner wall of the action cavity is rotationally connected with a rotating shaft extending to the movable grooves through bearings, the end face of the rotating shaft extending to the movable grooves is fixedly sleeved with a driving bevel gear, and the outer surface of the driven bevel gear is meshed with the outer surface of the driving bevel gear.

Through the technical scheme, the positions of the driving bevel gears and the positions of the driven bevel gears are in one-to-one correspondence, so that the rotating shafts in the action cavities can be rotated to realize the rotation of the driving bevel gears in order to control the straightening rollers to rotate, and the meshed driven bevel gears are enabled to control the straightening rollers to realize rotation straightening and conveying through the second belt pulley assembly.

Preferably, the rotating shaft is fixedly sleeved with a worm wheel on the end face of the action cavity, the inner side wall of the action cavity is rotationally connected with a worm through a bearing, the outer surface of the worm is meshed with the outer surface of the worm wheel, a linkage motor is further installed in the action cavity, and the outer surface of an output shaft of the linkage motor is fixedly connected with one side surface of the worm through a coupler.

Through the technical scheme, in order to realize synchronous rotation of a plurality of straightening rollers and realize the functions of straightening and conveying, the worm is controlled to rotate through the linkage motor, so that the meshed worm gears can synchronously rotate, and finally the rotation of the straightening rollers is realized.

Preferably, the rounding mechanism comprises a conveying belt fixedly installed on the upper surface of a protruding part of the movable base, a supporting frame is fixedly connected to the upper surface of a conveying frame of the conveying belt in an arc-shaped path distribution mode, the supporting frames are distributed on the upper surface of the conveying frame of the conveying belt in a plurality of intervals, a deformation roller is connected to the surface of the opposite side of the adjacent supporting frame in a rotating mode through a connecting shaft, and the outer surface of the deformation roller is in sliding connection with the inner surface of the conveying belt.

Through the technical scheme, the straightening mechanism straightens the steel pipe pile, so that the collapsed part of the steel pipe pile expands, the rounding mechanism is arranged, the rounding mechanism at the upper end can be connected to the upper surface of the movable base through the supporting rod, so that the upper rounding mechanism and the lower rounding mechanism can clamp the steel pipe pile, the conveyer belt can extrude and expand the conveyer belt when conveying the steel pipe pile, and a plurality of groups of deformation rollers forming an arc shape are arranged on the conveyer frame of the conveyer belt through the supporting frame, so that the conveyer belt of the conveyer belt can be extruded and deformed into an arc shape, and the upper conveying belt and the lower conveying belt encircle the steel pipe pile, so that the conveyer belt can be matched with the straightening mechanism to change the steel pipe pile into an ellipse shape in the conveying advancing process.

Preferably, the material moving mechanism comprises pushing cylinders which are symmetrically distributed and fixedly installed on the upper surface of the supporting platform, an arc block is fixedly connected to the inner surface of a groove of the supporting platform, the inner surface of the arc block is in sliding contact with the outer surface of the steel pipe pile, a caulking groove is formed in the inner surface of the arc block in a symmetrical distribution mode, the inner wall of the caulking groove is slidably clamped with the arc pushing block, the surface of a piston rod of the pushing cylinder is fixedly connected with the convex surface of the arc pushing block, the supporting platform is far away from an upper surface of one end of the moving base, a limiting plate is fixedly connected to the upper surface of the supporting platform, and one side surface of the limiting plate, which is close to the inner side, is in sliding contact with one side surface of the steel pipe pile.

Through above-mentioned technical scheme, the steel-pipe pile is carried forward to supporting platform, move the material and be convenient for continuously straighten the processing to follow-up steel-pipe pile for to carry out the specification to the steel-pipe pile and control, thereby steel-pipe pile carries back front end and limiting plate lean on interior one side surface contact, cutting tool cuts off the steel-pipe pile this moment, the steel-pipe pile of same length is pushed to one side by the arc ejector pad and is concentrated the collection, in order to be convenient for cut off the steel-pipe pile, thereby limit when cutting off the steel-pipe pile through the arc piece, then release the arc ejector pad in the caulking groove through pushing cylinder, then can realize promoting the steel-pipe pile that cuts off.

Preferably, the material moving mechanism further comprises support side plates which are symmetrically distributed and fixedly connected to the upper surface of the support platform, clamping blocks are rotatably connected to the inner surfaces of the support side plates through hinge shafts, reset springs are fixedly sleeved on the outer surfaces of the hinge shafts of the clamping blocks, and the inner surfaces of the clamping blocks are in sliding contact with the outer surfaces of the steel pipe piles.

Through above-mentioned technical scheme, in order to carry out spacingly and be convenient for its processing of cutting off to the steel-pipe pile on the supporting platform to when the steel-pipe pile moves on the supporting platform, carry out the centre gripping spacing with the steel-pipe pile through arc piece and clamp splice, through the promotion that promotes the cylinder after the steel-pipe pile cuts off, can make the steel-pipe pile carry out the turning over with articulated clamp splice, thereby can make the steel-pipe column remove to the opposite side from supporting platform, and after promoting the cylinder and reset, reset spring makes the clamp splice reset spacing again.

Preferably, the material moving mechanism further comprises a blanking frame arranged on one side of the supporting platform and provided with a baffle, one end upper surface of the supporting platform is fixedly connected with a receiving platform on one end upper surface of the blanking frame, two side surfaces of the blanking frame are symmetrically distributed and penetrate through an adjusting opening, a sealing block is slidably covered on one side surface of the adjusting opening, the inner side surface of the sealing block is fixedly connected with a clamping wheel which extends to the inside of the blanking frame, two lower end surfaces of the sealing blocks are fixedly connected with a linkage shaft, two outer surfaces of two ends of the linkage shaft are fixedly connected with linkage plates, and two adjacent surfaces overlapped by the linkage plates are hinged.

Through the technical scheme, in order to collect the steel-pipe pile of release, thereby make the steel-pipe pile of release roll into in the blanking frame through the bearing platform of putting up, in order to avoid the steel-pipe pile to directly pass the blanking frame and be inconvenient for the arrangement collect, thereby set up the pinch roller of rubber material, it extends to blanking frame inside and blocks the steel-pipe pile that will fall into, when needing to get the steel-pipe pile in the blanking frame, can make the closed block outwards overturn, make pinch roller loose its blocking effect, thereby the steel-pipe pile falls to the bottom of pinch roller, can release this steel-pipe pile from the blanking frame after the pinch roller resets again, in order to realize the synchronizing effect of a plurality of pinch rollers, thereby set up universal driving shaft and linkage board, and then realize the action of putting one receipts of pinch roller.

Preferably, one of them the middle part external surface fixed sleeve joint actuating lever of universal driving shaft, the lower surface hinge mounting of blanking frame has flexible cylinder, flexible cylinder's piston rod surface pass through the hinge piece with the lower extreme surface hinge of actuating lever, the lower surface fixed connection of blanking frame has the blanking plate that the upper surface is the inclined plane.

Through the technical scheme, in order to realize the action of receiving of clamping wheel to when flexible cylinder pulls the actuating lever, can make the closed piece drive clamping wheel outwards overturn in one side of adjusting the mouth under the effect of universal driving shaft and linkage board, realize the putting of clamping wheel, can make the inwards upset of clamping wheel reset when flexible cylinder resets, can realize the action of receiving thereof, thereby make the steel-pipe stake of clamping wheel bottom roll out one by one along the blanking board and collect, blanking frame accessible supporting beam builds at collecting platform's upper surface.

The invention provides a use method of an intelligent treatment device for civil construction waste, which comprises the following steps:

s1, screening steel pipe piles in geotechnical construction waste, pushing the steel pipe piles between an upper conveyer belt and a lower conveyer belt, controlling a bevel gear set to rotate through a gear motor in a driving cavity according to the diameter of the batch of steel pipe piles, enabling a double-head adjusting screw connected with the bevel gear set to rotate, controlling the two double-head adjusting screws to synchronously rotate through a first belt pulley assembly, enabling relative moving sliding blocks to perform relative movement, and enabling the surface of a straightening roller to be in contact with the surface of the steel pipe piles;

S2, when the steel pipe piles to be processed pass through between the two groups of straightening rollers, the worm is controlled to rotate through the linkage motor, so that the meshed worm gears can synchronously rotate, the rotating shaft in the action cavity can rotate to realize the rotation of the driving bevel gear, and the meshed driven bevel gear can control the straightening rollers to realize the rotation through the second belt pulley assembly;

S3, deforming the conveying belt of the conveying belt into an arc shape by the deforming roller, so that under the conveying of the straightening roller and the conveying belt, the steel pipe pile is straightened, the pipe orifice is extruded and rounded, the front end of the conveying rear end of the steel pipe pile is contacted with the surface of the inner side of the limiting plate, and the steel pipe pile is cut off by the cutting tool;

s4, pushing out the arc-shaped pushing block in the caulking groove through the pushing cylinder, pushing the cut steel pipe pile to one side by the arc-shaped pushing block, enabling the steel pipe pile to push over the hinged clamping block, enabling the steel pipe column to move from the supporting platform to the built bearing platform, enabling the pushed steel pipe pile to roll into the blanking frame, and enabling the clamping block to reset and limit again through the reset spring after the pushing cylinder resets;

S5, the clamping wheels made of rubber materials block falling steel pipe piles, when the steel pipe piles in the blanking frame are required to be taken, when the telescopic cylinder pulls the driving rod, the sealing block can drive the clamping wheels to outwards overturn at one side of the adjusting port under the action of the linkage shaft and the linkage plate, the clamping wheels are placed, when the telescopic cylinder resets, the clamping wheels can inwards overturn and reset, the action of collecting the clamping wheels can be achieved, and accordingly the steel pipe piles at the bottom of the clamping wheels roll out and are collected one by one along the blanking plate.

The beneficial effects of the invention are as follows:

1. Through setting up the mechanism of flare-outing, can carry out the processing of flare-outing with the steel-pipe pile of different diameters, in the in-process of adjusting, control the worm through the linkage motor and rotate, therefore can make a plurality of worm wheels of meshing rotate in step, thereby can make the pivot in the action cavity rotate and realize the rotation of initiative bevel gear, therefore make the driven bevel gear of meshing realize rotating through the cylinder of flare-outing of second belt pulley assembly control, along with the rotation of cylinder of flare-outing, can promote the steel-pipe pile forward, and extrude its external surface and realize the effect of flare-outing, and make the cylinder of flare-outing slope can increase its area of action, make the effect of flare-outing more, thereby can be convenient for recycle of resource.

2. Through setting up and embracing circle mechanism, can adjust the mouth of pipe of the steel-pipe column of flare-outing, at the in-process of adjusting, carry the steel-pipe pile through the conveyer belt, set up multiunit constitution curved deformation roller through the support frame on the carriage of conveyer belt, thereby can extrude the conveyer belt of conveyer belt and warp into the arc, and then two upper and lower curved conveyer belts encircle the steel-pipe pile, consequently can realize that it becomes oval at the in-process cooperation of carrying forward mechanism of flare-outing with the steel-pipe pile, thereby put into use after being convenient for the steel-pipe pile to retrieve, improve its result of use.

3. Through setting up the material shifting mechanism, can collect the steel-pipe pile after handling, thereby be convenient for retrieve equipment continuous operation, at the in-process of regulation, promote the arc ejector pad in the caulking groove through pushing the cylinder, make the steel-pipe pile of ejecting roll into blanking frame in, the pinch roller of rubber material blocks the steel-pipe pile that falls into, when need take the steel-pipe pile in the blanking frame, when flexible cylinder pulls the actuating lever, can make the closed piece drive pinch roller outwards overturn in one side of regulation mouth under the effect of universal driving shaft and linkage board, realize the putting of pinch roller, can make the pinch roller inwards overturn when flexible cylinder resets and reset, can realize its action of receipts, thereby make the steel-pipe pile of pinch roller bottom roll out one by one along the blanking board and collect, and then can avoid extravagant manpower, cause the waste of resource.

Drawings

FIG. 1 is a schematic diagram of an intelligent treatment device for civil construction waste and a use method thereof;

FIG. 2 is a perspective view of an installation base structure of the intelligent treatment device for civil construction wastes and the use method thereof;

FIG. 3 is a perspective view of a driving cavity structure of the intelligent treatment device for civil construction waste and the use method thereof;

FIG. 4 is a perspective view of a connection block structure of an intelligent processing device for civil construction waste and a use method thereof;

FIG. 5 is a perspective view of a drive bevel gear structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 6 is a perspective view of a straightening roller structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 7 is a perspective view of a rounding mechanism structure of the intelligent processing device for civil construction waste and the use method thereof;

FIG. 8 is a perspective view of a conveyor belt structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 9 is a perspective view of a deforming roller structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 10 is a perspective view of a supporting platform structure of the intelligent treatment device for civil construction wastes and the use method thereof;

FIG. 11 is a perspective view of a pushing cylinder structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 12 is a perspective view of a clamp splice structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 13 is a perspective view of a closed block structure of an intelligent treatment device for civil construction wastes and a use method thereof;

FIG. 14 is a perspective view of a blanking frame structure of an intelligent processing device for civil construction wastes and a using method thereof;

FIG. 15 is a perspective view of a pinch roller structure of an intelligent treatment device for civil construction wastes and a method for using the same according to the present invention;

fig. 16 is a perspective view of a telescopic cylinder structure of the intelligent processing device for civil construction wastes and the use method thereof.

In the figure: 1. a movable base; 11. a double-head adjusting screw rod; 12. moving the slide block; 13. a mounting base; 14. a first pulley assembly; 15. a drive cavity; 16. a speed reducing motor; 17. a bevel gear set; 2. a steel pipe pile; 3. a straightening mechanism; 31. a connecting block; 32. a roll shaft; 33. straightening the roller; 34. a driven bevel gear; 35. a second pulley assembly; 36. a blocking shell; 37. a movable groove; 38. an action cavity; 39. a rotating shaft; 40. a drive bevel gear; 41. a worm wheel; 42. a worm; 43. a linkage motor; 5. a rounding mechanism; 51. a conveyor belt; 52. a support frame; 53. a deforming roller; 6. a support platform; 61. a cutting tool; 7. a material moving mechanism; 71. supporting the side plates; 72. clamping blocks; 73. a return spring; 74. a blanking frame; 75. a receiving platform; 76. an adjustment port; 77. a closing block; 78. a clamping wheel; 79. a linkage shaft; 80. a linkage plate; 81. a driving rod; 82. a telescopic cylinder; 83. a blanking plate; 84. a pushing cylinder; 85. an arc-shaped block; 86. a caulking groove; 87. an arc-shaped pushing block; 88. and a limiting plate.

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.

Referring to fig. 1-16, an intelligent processing device for civil construction waste comprises a convex movable base 1 and a steel pipe pile 2 to be processed, wherein two ends of a protruding part of the movable base 1 are symmetrically distributed and rotationally connected with double-end adjusting screws 11 through bearings, two outer surfaces of two ends of each double-end adjusting screw 11 are respectively provided with a movable sliding block 12 in a sleeved mode through relatively distributed threads, the upper surface of each movable sliding block 12 is fixedly connected with a mounting base 13, the upper surface of each mounting base 13 is provided with a straightening mechanism 3, the upper surface of the protruding part of the movable base 1 is provided with a corresponding rounding mechanism 5, the front end of the movable base 1 is provided with a supporting platform 6 with a groove, a cutting tool 61 is arranged above the supporting platform 6 and the movable base 1, and one side and the upper surface of the supporting platform 6 are provided with a material moving mechanism 7.

As shown in fig. 3, in order to adapt the straightening mechanism 3 to the diameter of the steel pipe pile 2, thereby the steel pipe pile 2 can be driven to be straightened and conveyed, further, the first belt pulley assembly 14 is installed on the outer surface of one end of the same side of the two double-end adjusting screw rods 11, the driving cavity 15 is internally provided with the protruding part of the moving base 1, the gear motor 16 is fixedly installed in the driving cavity 15, the bevel gear set 17 is installed on the outer surface of the output shaft of the gear motor 16, the driven part of the bevel gear set 17 is fixedly sleeved with the outer surface of the middle part of one of the double-end adjusting screw rods 11, the gear motor 16 in the driving cavity 15 can control the bevel gear set 17 to rotate, the double-end adjusting screw rods 11 connected with the bevel gear set 17 rotate, the first belt pulley assembly 14 comprises a first belt pulley and a first transmission belt, and the two double-end adjusting screw rods 11 are controlled to synchronously rotate through the first belt pulley assembly 14, so that the relative moving slide blocks 12 perform relative movement, and the straightening mechanism 3 can contact the outer surface of the steel pipe pile 2 to treat the steel pipe pile 2.

As shown in fig. 2 and 4 to 7, the straightening mechanism 3 is in contact with the outer surface of the steel pipe pile 2 and pushes the steel pipe pile to be conveyed forward, thereby straightening the steel pipe pile.

In order to straighten the steel pipe pile 2 conveyed forwards, thereby the straightening mechanism 3 comprises a connecting block 31 which is fixedly connected to the upper surface of a mounting base 13 in a rectangular array mode through a mounting block, the inner surface of a U-shaped opening at the front end of the connecting block 31 is rotationally connected with a roll shaft 32, the outer surface of the roll shaft 32 is fixedly sleeved with a straightening roller 33, the connecting block 31 is obliquely distributed and one side surface of the tail end of the connecting block is rotationally connected with a driven bevel gear 34 through a connecting shaft, the opposite mounting base 13 is provided with the straightening rollers 33 which are in crossed distribution, when the steel pipe pile 2 to be processed passes through between the two groups of straightening rollers 33, the steel pipe pile 2 can be pushed forwards along with the rotation of the straightening rollers 33, the outer surface of the steel pipe pile 2 is extruded to realize the straightening effect, the straightening rollers 33 are inclined to enlarge the action area of the straightening rollers, the straightening rollers is better, a second belt pulley assembly 35 is installed on the outer surface of the connecting shaft of the driven bevel gear 33, the other end of the second belt pulley assembly 35 is installed on the outer surface of one end of the roll shaft 32, one side surface of the connecting block 31 is fixedly connected with a cover on the outer surface of the second belt pulley assembly 35, and the second belt pulley assembly 35 is driven by the second belt pulley assembly 35, and the second belt pulley assembly 35 is driven by the second belt pulley assembly 35 and can rotate, and the second belt pulley assembly 35 is driven by the second belt pulley assembly 35.

In order to control the straightening roller 33 to rotate, the straightening mechanism 3 further comprises movable grooves 37 symmetrically distributed on the upper surface of the mounting base 13, an action cavity 38 is formed in the mounting base 13, a rotating shaft 39 extending to the movable grooves 37 is rotatably connected to the inner wall of the action cavity 38 through a bearing, a driving bevel gear 40 is fixedly sleeved on the end face of the rotating shaft 39 extending to the movable grooves 37, the outer surface of the driven bevel gear 34 is meshed with the outer surface of the driving bevel gear 40, the positions of the driving bevel gears 40 are in one-to-one correspondence with the positions of the driven bevel gears 34, the rotating shaft 39 in the action cavity 38 rotates to realize rotation of the driving bevel gear 40, and accordingly the meshed driven bevel gears 34 control the straightening roller 33 to realize rotation straightening and conveying through the second belt pulley assembly 35.

In order to realize the synchronous rotation of the plurality of straightening rollers 33 and realize the straightening and conveying functions, the rotating shaft 39 is fixedly sleeved with the worm wheel 41 on the end face of the action cavity 38, the inner side wall of the action cavity 38 is rotationally connected with the worm 42 through a bearing, the outer surface of the worm 42 is meshed with the outer surface of the worm wheel 41, the linkage motor 43 is further installed in the action cavity 38, the outer surface of an output shaft of the linkage motor 43 is fixedly connected with one side surface of the worm 42 through a coupler, and the worm 42 is controlled to rotate through the linkage motor 43, so that the meshed worm wheels 41 synchronously rotate, and finally the rotation of the straightening rollers 33 is realized.

By arranging the straightening mechanism 3, steel pipe piles 2 with different diameters can be straightened, in the adjusting process, the worm 42 is controlled to rotate through the linkage motor 43, so that the meshed worm gears 41 can synchronously rotate, the rotating shaft 39 in the action cavity 38 can rotate to realize the rotation of the drive bevel gear 40, the meshed driven bevel gear 34 can control the straightening roller 33 to rotate through the second belt pulley assembly 35, the steel pipe piles 2 can be pushed forwards along with the rotation of the straightening roller 33, the outer surface of the steel pipe piles 2 is extruded to realize the straightening effect, the acting area of the straightening roller 33 can be increased by tilting, the straightening effect is better, and the recycling of resources can be facilitated.

As shown in fig. 8 to 9, the rounding mechanism 5 is in contact with the outer surface of the steel pipe pile 2 to pinch and push the same forward.

The straightening mechanism 3 straightens the steel pipe pile 2, in order to expand the collapsed position of the steel pipe pile 2, thereby set up the rounding mechanism 5, and the rounding mechanism 5 of upper end can be connected at the upper surface of removing base 1 through the bracing piece, thereby can make two upper and lower rounding mechanisms 5 carry out the centre gripping with steel pipe pile 2, in order to make conveyer belt 51 extrude the inflation with it when carrying steel pipe pile 2, and then the rounding mechanism 5 includes carrying out fixed mounting's conveyer belt 51 at the bulge upper surface of removing base 1, the carriage upper surface of conveyer belt 51 is arc route distribution fixedly connected with support frame 52, and support frame 52 is a plurality of distributions in interval on the carriage upper surface of conveyer belt 51, the opposite side surface of adjacent support frame 52 is connected with the deformation roller 53 through the connecting axle rotation, the surface of deformation roller 53 and the conveyer belt internal surface sliding connection of conveyer belt 51, thereby can extrude the conveyer belt of conveyer belt 51 into the arc with the conveyer belt of multiunit constitution on the conveyer belt 51, and then two upper and lower curved conveyer belts are with steel-pipe pile 2, thereby realize that it is carried and become oval pile 2 in the cooperation in the course of carrying forward mechanism 3.

Through setting up and embracing circle mechanism 5, can adjust the mouth of pipe of steel-pipe column of flare-outing, at the in-process of adjusting, carry steel-pipe pile 2 through conveyer belt 51, set up multiunit constitution curved deformation roller 53 through support frame 52 on the carriage of conveyer belt 51, thereby can extrude the conveyer belt of conveyer belt 51 into the arc, and then two upper and lower curved conveyer belts encircle steel-pipe pile 2, therefore can realize that it cooperates the mechanism 3 of flare-outing at the in-process that carries and become oval with steel-pipe pile 2, thereby put into use after being convenient for steel-pipe pile 2 retrieves, improve its result of use.

As shown in fig. 10 to 16, the material moving mechanism 7 cuts and receives the processed steel pipe pile 2 equidistantly, and then pushes the material to be discharged and collected intensively.

The steel-pipe pile 2 is carried forward to supporting platform 6, in order to move the material to steel-pipe pile 2 and be convenient for continue to straighten the processing to follow-up steel-pipe pile 2, and carry out accuse to steel-pipe pile 2 carries the specification, thereby move material mechanism 7 including being symmetrical distribution fixed mounting at supporting platform 6 upper surface's promotion cylinder 84, supporting platform 6's recess internal surface fixedly connected with arc piece 85, arc piece 85's internal surface and steel-pipe pile 2's surface sliding contact, the caulking groove 86 has been seted up to arc piece 85's internal surface for symmetrical distribution, caulking groove 86's inner wall slip joint has arc ejector pad 87, the piston rod surface of promotion cylinder 84 and the convex surface fixed connection of arc ejector pad 87, supporting platform 6 keeps away from the one end upper surface fixedly connected with limiting plate 88 of moving base 1, one side surface and steel-pipe pile 2's side surface sliding contact of limiting plate 88, cut the cutting tool 2 cuts off steel-pipe pile 2 in this moment front end and limiting plate 88, steel-pipe pile 2 of the same length is concentrated collection by arc ejector pad 87 to one side, in order to be convenient for cut off steel-pipe pile 2 and carry out the axial pile 2 through cutting off the convex fixed connection of arc ejector pad 87, then can realize pushing out the pile 84 through cutting off the arc ejector pad 87.

In order to limit the steel pipe pile 2 on the supporting platform 6 and facilitate cutting-off treatment of the steel pipe pile 2, the material moving mechanism 7 further comprises supporting side plates 71 which are symmetrically distributed and fixedly connected to the upper surface of the supporting platform 6, the inner surfaces of the supporting side plates 71 are rotationally connected with clamping blocks 72 through hinge shafts, reset springs 73 are fixedly sleeved on the outer surfaces of the hinge shafts of the clamping blocks 72, the inner surfaces of the clamping blocks 72 are in sliding contact with the outer surfaces of the steel pipe pile 2, when the steel pipe pile 2 moves on the supporting platform 6, the steel pipe pile 2 is clamped and limited through the arc-shaped blocks 85 and the clamping blocks 72, after the steel pipe pile 2 is cut off, the steel pipe pile 2 is pushed by pushing cylinders 84, the hinged clamping blocks 72 can be pushed over, so that the steel pipe pile moves from the supporting platform 6 to the other side, and after the pushing cylinders 84 reset, the reset springs 73 enable the clamping blocks 72 to reset and limit again.

In order to collect the steel-pipe pile 2 of ejecting, then move material mechanism 7 still including setting up in supporting platform 6 one side and have the blanking frame 74 of baffle, supporting platform 6's one end upper surface and blanking frame 74's one end upper surface fixedly connected with accept platform 75, make the steel-pipe pile 2 of ejecting roll into blanking frame 74 through the accepting platform 75 of setting up, in order to avoid steel-pipe pile 2 to directly pass blanking frame 74 and be inconvenient for the arrangement to collect, thereby the both sides surface of blanking frame 74 all is the symmetric distribution and runs through and offer the adjustment mouth 76, one side surface slip of adjustment mouth 76 is covered with the closing block 77, the inboard surface fixed connection of closing block 77 has the pinch roller 78 that extends to blanking frame 74 inside, the lower extreme surface fixed connection of two closing blocks 77 of one side has the linkage axle 79, the both ends surface of two linkage axles 79 all fixedly connected with linkage board 80, the surface that two adjacent linkage boards 80 overlap articulates, the steel-pipe pile 2 that falls into is inside to the blanking frame 74 is blocked to the pinch roller 78, when need take the blanking pile 2 in the frame 74, can make the closing block 78 to loosen the effect of the pinch roller 78 to the pinch roller 78, thereby realize that the action is realized to the pinch roller 78 is followed to the more than the linkage wheel 78, and the effect is realized to the pinch the following the more than the linkage roller 78.

In order to realize the releasing and collecting actions of the clamping wheels 78, the driving rod 81 is fixedly sleeved on the outer surface of the middle part of one linkage shaft 79, the telescopic cylinder 82 is hinged to the lower surface of the blanking frame 74, the piston rod surface of the telescopic cylinder 82 is hinged to the outer surface of the lower end of the driving rod 81 through the hinging block, the blanking plate 83 with the upper surface being inclined is fixedly connected to the lower surface of the blanking frame 74, when the driving rod 81 is pulled by the telescopic cylinder 82, the sealing block 77 can be enabled to drive the clamping wheels 78 to outwards overturn at one side of the adjusting port 76 under the action of the linkage shaft 79 and the linkage plate 80, the releasing actions of the clamping wheels 78 are realized, the clamping wheels 78 can be enabled to inwards overturn and reset when the telescopic cylinder 82 resets, the collecting actions of the clamping wheels can be realized, and accordingly steel pipe piles 2 at the bottom of the clamping wheels 78 roll out one by one along the blanking plate 83 to be collected, and the blanking frame 74 can be built on the upper surface of a collecting platform through a supporting beam.

Through setting up the material mechanism 7 that moves, can collect the steel-pipe pile 2 after handling, thereby be convenient for retrieve equipment continuous operation, at the in-process of regulation, push out the arc ejector pad 87 in the caulking groove 86 through pushing cylinder 84, make the steel-pipe pile 2 of ejecting roll into blanking frame 74, the steel-pipe pile 2 that rubber material's clamp wheel 78 will fall into blocks, when needing to get steel-pipe pile 2 in the blanking frame 74, when flexible cylinder 82 pulls actuating lever 81, can make the outside upset of one side at the regulation mouth 76 of closure 77 drive clamp wheel 78 under the effect of universal driving shaft 79 and linkage board 80, realize clamp wheel 78 put, can make clamp wheel 78 inwards overturn when flexible cylinder 82 resets and reset, can realize its action of receipts, thereby make the steel-pipe pile 2 of clamp wheel 78 bottom roll out one by one along blanking board 83 and collect, and then can avoid extravagant manpower, cause the waste of resource.

Referring to fig. 1 to 3, a method for using an intelligent treatment device for civil construction waste comprises the following steps:

S1, screening out steel pipe piles 2 in geotechnical waste, pushing the steel pipe piles 2 between an upper conveying belt 51 and a lower conveying belt 51, controlling a bevel gear set 17 to rotate through a reducing motor 16 in a driving cavity 15 according to the diameter of the batch of steel pipe piles 2, enabling a double-end adjusting screw 11 connected with the bevel gear set 17 to rotate, controlling the two double-end adjusting screws 11 to synchronously rotate through a first belt pulley assembly 14, enabling a relative moving slide block 12 to relatively move, and enabling the surface of a straightening roller 33 to be in contact with the surface of the steel pipe piles 2;

S2, when the steel pipe pile 2 to be processed passes through between the two groups of straightening rollers 33, the worm 42 is controlled to rotate through the linkage motor 43, so that the meshed worm gears 41 can synchronously rotate, the rotating shaft 39 in the action cavity 38 can rotate to realize the rotation of the drive bevel gear 40, and the meshed driven bevel gear 34 can control the straightening rollers 33 to rotate through the second belt pulley assembly 35;

s3, deforming rollers 53 deform the conveying belt of the conveying belt 51 into an arc shape, so that under the conveying of the straightening roller 33 and the conveying belt 51, the steel pipe pile 2 is straightened, the pipe orifice is extruded and rounded, the conveying rear front end of the steel pipe pile 2 is contacted with the inner side surface of the limiting plate 88, and at the moment, the cutting tool 61 cuts off the steel pipe pile 2;

S4, pushing out an arc-shaped pushing block 87 in the caulking groove 86 through a pushing cylinder 84, pushing the cut steel pipe pile 2 to one side by the arc-shaped pushing block 87, enabling the steel pipe pile 2 to push over the hinged clamping block 72, enabling the steel pipe pile to move from the supporting platform 6 to the built bearing platform 75, enabling the pushed steel pipe pile 2 to roll into the blanking frame 74, and enabling the clamping block 72 to reset and limit again through a reset spring 73 after the pushing cylinder 84 resets;

s5, the clamping wheels 78 made of rubber material block the falling steel pipe piles 2, when the steel pipe piles 2 in the blanking frame 74 are required to be taken, when the telescopic air cylinders 82 pull the driving rods 81, the sealing blocks 77 can drive the clamping wheels 78 to outwards overturn at one side of the adjusting ports 76 under the action of the linkage shafts 79 and the linkage plates 80, the clamping wheels 78 are placed, the clamping wheels 78 can inwards overturn and reset when the telescopic air cylinders 82 reset, the retracting action of the clamping wheels can be realized, and accordingly the steel pipe piles 2 at the bottoms of the clamping wheels 78 roll out and are collected one by one along the blanking plates 83.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a civil construction waste intelligent processing apparatus, includes protruding shape remove base (1) and wait to handle steel-pipe pile (2), its characterized in that: the automatic cutting machine is characterized in that two ends of a protruding part of the movable base (1) are symmetrically distributed and rotationally connected with double-end adjusting screws (11) through bearings, two outer surfaces of two ends of each double-end adjusting screw (11) are respectively provided with a movable sliding block (12) in a threaded sleeve manner in a relatively distributed manner, the upper surface of each movable sliding block (12) is fixedly connected with a mounting base (13), the upper surface of each mounting base (13) is provided with a straightening mechanism (3), the upper surface of the protruding part of the movable base (1) is provided with a relative rounding mechanism (5), the front end of the movable base (1) is provided with a supporting platform (6) with a groove, a cutting tool (61) is arranged above the supporting platform (6) and above the movable base (1), and one side of the supporting platform (6) and the upper surface of the supporting platform are provided with a material moving mechanism (7);

The straightening mechanism (3) is in contact with the outer surface of the steel pipe pile (2) and pushes the steel pipe pile to be conveyed forwards so as to realize the action of straightening and conveying;

The straightening mechanism (3) comprises connecting blocks (31) which are fixedly connected to the upper surface of the mounting base (13) in a rectangular array mode through mounting blocks, a roll shaft is rotatably connected to the inner surface of a U-shaped opening at the front end of each connecting block (31), a straightening roller (33) is fixedly sleeved on the outer surface of each roll shaft, the connecting blocks (31) are obliquely distributed, driven bevel gears (34) are rotatably connected to the surface of one side of the tail end of each connecting block through connecting shafts, a second belt pulley assembly (35) is mounted on the outer surface of each connecting shaft of each driven bevel gear (34), the other end of each second belt pulley assembly (35) is mounted on the outer surface of one end of each roll shaft, and a baffle shell (36) which is covered on the outer surface of each second belt pulley assembly (35) is fixedly connected to one side surface of each connecting block (31);

The straightening mechanism (3) further comprises movable grooves (37) symmetrically distributed on the upper surface of the mounting base (13), an action cavity (38) is formed in the mounting base (13), a rotating shaft (39) extending to the movable grooves (37) is rotatably connected to the inner wall of the action cavity (38) through a bearing, a driving bevel gear (40) is fixedly sleeved on the end face, extending to the movable grooves (37), of the rotating shaft (39), and the outer surface of the driven bevel gear (34) is meshed with the outer surface of the driving bevel gear (40);

The rotating shaft (39) is fixedly sleeved with a worm wheel (41) on the end face of the action cavity (38), the inner side wall of the action cavity (38) is rotatably connected with a worm (42) through a bearing, the outer surface of the worm (42) is meshed with the outer surface of the worm wheel (41), a linkage motor (43) is further arranged in the action cavity (38), and the outer surface of an output shaft of the linkage motor (43) is fixedly connected with one side surface of the worm (42) through a coupler;

The rounding mechanism (5) is in contact with the outer surface of the steel pipe pile (2) to clamp and push the steel pipe pile forwards;

The rounding mechanism (5) comprises a conveying belt (51) fixedly installed on the upper surface of a protruding part of the movable base (1), support frames (52) are fixedly connected to the upper surface of a conveying frame of the conveying belt (51) in an arc-shaped path distribution mode, the support frames (52) are distributed on the upper surface of the conveying frame of the conveying belt (51) at intervals, deformation rollers (53) are rotatably connected to the surface of the opposite side of the support frames (52) through connecting shafts, and the outer surfaces of the deformation rollers (53) are in sliding connection with the inner surface of the conveying belt (51);

The steel pipe pile (2) after being processed is cut off and received equidistantly by the material moving mechanism (7), and then the material moving mechanism pushes the material to be discharged for centralized collection.

2. The civil construction waste intelligent treatment device according to claim 1, characterized in that: the two the same one side's of double-end adjusting screw (11) one end surface mounting has first belt pulley subassembly (14), drive cavity (15) have been seted up to the bulge inside of moving base (1), the inside fixed mounting of drive cavity (15) has gear motor (16), the output shaft surface mounting of gear motor (16) has bevel gear group (17), the driven part of bevel gear group (17) cup joints with one of them the middle part surface fixation of double-end adjusting screw (11).

3. The civil construction waste intelligent treatment device according to claim 2, characterized in that: the material moving mechanism (7) comprises pushing cylinders (84) which are symmetrically distributed and fixedly installed on the upper surface of the supporting platform (6), arc-shaped blocks (85) are fixedly connected to the inner surface of a groove of the supporting platform (6), the inner surfaces of the arc-shaped blocks (85) are in sliding contact with the outer surfaces of the steel pipe piles (2), caulking grooves (86) are symmetrically distributed and formed in the inner surfaces of the arc-shaped blocks (85), arc-shaped pushing blocks (87) are slidably clamped on the inner walls of the caulking grooves (86), the surfaces of piston rods of the pushing cylinders (84) are fixedly connected with the convex surfaces of the arc-shaped pushing blocks (87), and a limiting plate is fixedly connected to the upper surface of one end of the supporting platform (6), which is far away from the movable base (1) and is in sliding contact with one side surface of the steel pipe piles (2).

4. A civil construction waste intelligent treatment device according to claim 3, characterized in that: the material moving mechanism (7) further comprises support side plates (71) which are symmetrically distributed and fixedly connected to the upper surface of the support platform (6), clamping blocks (72) are rotatably connected to the inner surfaces of the support side plates (71) through hinge shafts, reset springs (73) are fixedly sleeved on the outer surfaces of the hinge shafts of the clamping blocks (72), and the inner surfaces of the clamping blocks (72) are in sliding contact with the outer surfaces of the steel pipe piles (2).

5. The intelligent civil construction waste treatment device according to claim 4, wherein: the material moving mechanism (7) further comprises a blanking frame (74) which is arranged on one side of the supporting platform (6) and provided with a baffle plate, one end upper surface of the supporting platform (6) and one end upper surface of the blanking frame (74) are fixedly connected with a bearing platform (75), two side surfaces of the blanking frame (74) are symmetrically distributed and penetrate through and are provided with adjusting ports (76), one side surface of each adjusting port (76) is covered with a sealing block (77) in a sliding mode, the inner side surface of each sealing block (77) is fixedly connected with a clamping wheel (78) which extends into the blanking frame (74), the lower end surfaces of the two sealing blocks (77) with opposite sides are fixedly connected with a linkage shaft (79), two end outer surfaces of the two linkage shafts (79) are fixedly connected with linkage plates (80), and the overlapped surfaces of the two adjacent linkage plates (80) are hinged;

one of them the middle part external surface fixed sleeve of universal driving axle (79) has cup jointed actuating lever (81), the lower surface hinge of blanking frame (74) is installed flexible cylinder (82), the piston rod surface of flexible cylinder (82) pass through the hinge piece with the lower extreme surface of actuating lever (81) articulates, the lower surface fixed connection of blanking frame (74) has blanking board (83) that the upper surface is the inclined plane.

6. The method for using the civil construction waste intelligent treatment device based on claim 5 comprises the following steps:

s1, screening out steel pipe piles (2) in geotechnical waste, pushing the steel pipe piles (2) between an upper conveying belt (51) and a lower conveying belt (51), controlling a bevel gear set (17) to rotate through a gear motor (16) in a driving cavity (15) according to the diameter of the steel pipe piles (2), enabling a double-head adjusting screw (11) connected with the bevel gear set (17) to rotate, controlling the two double-head adjusting screws (11) to synchronously rotate through a first belt pulley assembly (14), enabling relative moving sliding blocks (12) to relatively move, and enabling the surface of a straightening roller (33) to be in contact with the surface of the steel pipe piles (2);

S2, when the steel pipe pile (2) to be processed passes through between two groups of straightening rollers (33), a worm (42) is controlled to rotate through a linkage motor (43), so that a plurality of worm gears (41) meshed with the steel pipe pile can synchronously rotate, a rotating shaft (39) in an action cavity (38) can rotate to realize the rotation of a driving bevel gear (40), and a driven bevel gear (34) meshed with the steel pipe pile is controlled to rotate through a second belt pulley assembly (35) to realize the rotation of the straightening rollers (33);

S3, deforming the conveying belt of the conveying belt (51) into an arc shape by a deforming roller (53), so that under the conveying of the straightening roller (33) and the conveying belt (51), the steel pipe pile (2) is straightened, the pipe orifice is extruded and rounded, the front end of the conveyed steel pipe pile (2) is contacted with the inner side surface of the limiting plate, and at the moment, the cutting tool (61) cuts off the steel pipe pile (2);

S4, pushing out an arc-shaped pushing block (87) in the caulking groove (86) through a pushing cylinder (84), pushing the cut-off steel pipe pile (2) to one side by the arc-shaped pushing block (87), enabling the steel pipe pile (2) to push over the hinged clamping block (72), enabling the steel pipe pile to move from the supporting platform (6) to the built bearing platform (75), enabling the pushed-out steel pipe pile (2) to roll into the blanking frame (74), and enabling the clamping block (72) to reset and limit again through a reset spring (73) after the pushing cylinder (84) resets;

S5, steel pipe pile (2) that rubber material' S pinch roller (78) will fall into is blockked, when need get the steel pipe pile (2) in blanking frame (74) and use, when flexible cylinder (82) were carried out pulling actuating lever (81), can make under the effect of linkage axle (79) and linkage board (80) seal piece (77) drive pinch roller (78) outwards overturn in one side of regulation mouth (76), realize putting of pinch roller (78), can make pinch roller (78) inwards overturn and reset when flexible cylinder (82) reset, can realize its action of receipts, thereby make steel pipe pile (2) of pinch roller (78) bottom roll out one by one along blanking board (83) and collect.