CN112976325A

CN112976325A - Construction waste treatment equipment for building engineering

Info

Publication number: CN112976325A
Application number: CN202110353419.5A
Authority: CN
Inventors: 秦瑞鸣
Original assignee: Individual
Current assignee: Liaoning Shengchen Construction Group Co ltd
Priority date: 2021-05-08
Filing date: 2021-05-08
Publication date: 2021-06-18
Anticipated expiration: 2041-05-08
Also published as: CN112976325B

Abstract

A construction waste treatment device for construction engineering effectively solves the problems that the conventional construction waste treatment device for construction engineering needs manual transportation of construction waste, wastes time and labor, workers often need to insert bodies into crushing chambers, potential safety hazards are great, the crushing effect is poor, a plurality of materials needing to be mixed are added into the same mixing tank, water and cement are manually stirred, the stirring speed is low, the time and the labor are wasted, the mixing uniformity is poor, and mortar cannot be quantitatively output after the crushing and stirring are finished, and comprises a water storage tank, wherein a transport tank is fixedly connected to the upper end of the water storage tank, a conveying plate capable of vertically reciprocating is arranged at the upper end of the transport tank, a crushing tank is fixedly connected to the front end of the transport tank, and a stirring tank is fixedly connected to the lower end of the crushing tank, the upper end of the inner part of the crushing box is rotatably connected with a first crushing rod and a second crushing rod which can move up and down along with the driving plate and rotate.

Description

Construction waste treatment equipment for building engineering

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a construction waste treatment device for constructional engineering.

Background

Building engineering, which is an engineering entity formed by the construction of various building constructions and their auxiliary facilities and the installation activities of lines, pipelines and equipment matched with the building constructions, wherein the building constructions refer to the engineering which has a top cover, a beam column, a wall, a foundation and can form an internal space and meets the requirements of people on production, living, study and public activities, because of the shortage of sandstone resources, people begin to utilize broken stones obtained by breaking building waste to replace sandstone so as to meet the requirements of the building engineering on the sandstone, but the existing construction equipment cleaning mode has low efficiency, needs to manually carry the building waste, wastes time and labor, and workers often need to probe the body into a breaking chamber, has great potential safety hazards, has poor crushing effect, can generate a large amount of large fragments and is not beneficial to stirring, when mixing, a plurality of materials needing to be mixed are generally added into the same mixing box, and use the stirring rod with its misce bene, but it is in mixing process, and the manual work is stirred water and cement not only stirring speed is slow, wastes time and energy moreover, appears mixing uniformity's relatively poor condition easily to and can not quantitative output mortar after smashing the stirring and accomplishing, inconvenient building construction carries out.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the construction waste treatment equipment for the construction engineering, and the design effectively solves the problems that the conventional construction waste treatment equipment for the construction engineering needs to manually carry construction waste, wastes time and labor, workers often need to insert bodies into a crushing chamber, the potential safety hazard is large, the crushing effect is poor, various materials needing to be mixed are added into the same mixing box, water and cement are manually stirred, the stirring speed is low, the time and labor are wasted, the condition of poor mixing uniformity is easy to occur, and mortar cannot be quantitatively output after the crushing and stirring are completed.

In order to achieve the purpose, the invention provides the following technical scheme: the invention comprises a water storage tank, wherein the upper end of the water storage tank is fixedly connected with a transport box, the upper end of the transport box is provided with a conveying plate capable of moving up and down in a reciprocating manner, the front end of the transport box is fixedly connected with a crushing box, the lower end of the crushing box is fixedly connected with a stirring tank, the upper end in the crushing box is rotatably connected with a first crushing rod and a second crushing rod which can rotate along with the up-and-down movement of a driving plate, the first crushing rod and the second crushing rod are mutually occluded, the lower end in the crushing box is slidably connected with two extrusion boxes capable of sliding towards the inner side along with the up-and-down movement of the conveying plate, and the inner side of each extrusion box is uniformly and rotatably connected with three third;

the front side of the upper end of the water storage tank is fixedly connected with a liquid spraying pipe capable of intermittently spraying liquid along with the up-and-down reciprocating movement of the conveying plate, the upper end of the liquid spraying pipe is fixedly connected with a stirring tank, a second rotating rod capable of rotating along with the up-and-down reciprocating movement of the conveying plate is arranged in the stirring tank, the rear end of the upper part of the second rotating rod is fixedly connected with a first stirring rod, and the front end of the upper end of the second rotating rod is rotatably connected with a second stirring rod capable of rotating along with the rotation of the second rotating;

the left side of the lower end of the stirring tank is fixedly connected with a supporting frame, a sliding plate capable of moving back and forth is connected in the supporting frame in a sliding mode, the lower end of the front portion of the sliding plate is fixedly connected with a quantitative barrel, and the lower end of the quantitative barrel is hinged with a cover plate

Preferably, the right side rear portion of crushing case rotates and is connected with first band pulley, the right-hand member fixedly connected with motor of first band pulley, the lower extreme and the crushing case fixed connection of motor, crushing case right side middle part upper end rotates and is connected with first gear and second gear, first gear and second gear intermeshing, first gear and the coaxial rigid coupling of first crushing stick, the coaxial rigid coupling of second gear and second crushing stick, the right-hand member fixedly connected with second band pulley of first gear, the right side middle part downside of crushing case rotates and is connected with the third band pulley, the right side of storage water tank rotates and is connected with the fourth band pulley, the outer fringe of first band pulley, the second band pulley, third band pulley and fourth band pulley is connected with first belt jointly.

Preferably, the coaxial rigid coupling in left side of first band pulley has the disc, the rear portion left side of disc articulates there is Y type pole, the lower extreme of Y type pole articulates there is the third connecting rod, the upper end of Y type pole articulates there is the head rod, the middle part right side of Y type pole articulates there is the second connecting rod, the upper end and the lower extreme of second connecting rod respectively with transport case sliding connection, the lower extreme of second connecting rod articulates there is the knee, the upper end of knee and the rear end of head rod are articulated each other, the lower extreme of knee and the lower extreme of second connecting rod are articulated each other, the left end and the conveying plate fixed connection of head rod.

Preferably, the left side of second band pulley is coaxial to be consolidated with first bent axle, both sides articulate respectively around the first bent axle have two pull rods, the rear end of every pull rod is articulated mutually with the extrusion box that corresponds respectively, the left side of extrusion box is rotated and is connected the driven gear, the lower extreme meshing of driven gear has the rack, rack and crushing case fixed connection, the right-hand member coaxial consolidation of driven gear has little bevel gear, the front side meshing of little bevel gear has big bevel gear, the inside fixedly connected with rotor of big bevel gear, rotor and the inside rotation of extrusion box are connected, the inside rotation of rotor is connected with three planet wheel, every planet wheel all smashes the coaxial rigid coupling of stick with the third that the front side corresponds, the inboard meshing of planet wheel has the pick block, the outer end and the crushing box fixed connection of pick block.

Preferably, a driving belt wheel is coaxially and fixedly connected to the right end of the second gear, a second belt is connected to the outer edge of the driving belt wheel, a driven belt wheel is connected to the lower end of the second belt, a first bevel gear is coaxially and fixedly connected to the left end of the driven belt wheel, a second bevel gear is meshed to the upper end of the first bevel gear, the second bevel gear and the lower end of the stirring tank are rotatably connected, a first rotating rod is coaxially and fixedly connected to the upper end of the second bevel gear, a pinion is rotatably connected to the lower end of the outer side of the first rotating rod, an outer gear ring is meshed to the outer side of the pinion, the lower end of the outer gear ring is fixedly connected to the stirring tank, the upper end of the pinion is fixedly connected to the lower end of the second rotating rod, a third gear is fixedly connected to the upper end of the outer side of the first rotating rod, the lower end of the, the fourth gear is fixedly connected with the lower end of the second stirring rod.

Preferably, the coaxial rigid coupling in left end of first bevel gear has first ratchet piece, the left end meshing of first ratchet piece has second ratchet piece, the outer fringe of second ratchet piece is rotated and is connected with the slider, slider and agitator tank lower extreme sliding connection, the front end sliding connection of slider has the swinging arms, the middle part of swinging arms and the front end rotation of agitator tank are connected, the left end fixedly connected with elastic telescopic rod of second ratchet piece, elastic telescopic rod's left end fixedly connected with third dwang, the left end sliding connection of third dwang has the gag lever post, the left end and the slide fixed connection of gag lever post.

Preferably, a fifth gear is coaxially and fixedly connected to the left end of the fourth belt wheel, a sixth gear is meshed to the lower end of the fifth gear, the sixth gear and the right end of the water storage tank are rotatably connected, a second cam shaft is coaxially and fixedly connected to the right ends of the fourth belt wheel and the sixth gear respectively, a first connecting rod is hinged to the rear end of the second cam shaft, a first moving rod is hinged to the rear end of the first connecting rod, a first piston is fixedly connected to the front end of the first moving rod, the outer edge of the first piston is connected to the outer edge of the first piston, a second connecting rod is hinged to the front end of the cam shaft, a second moving rod is hinged to the front end of the second connecting rod, a second piston is fixedly connected to the front end of the second moving rod, the first moving rod and the second moving rod are connected in a sliding manner, an air cylinder is slidably connected to the outer edges of the first piston and the second piston, the right end, the upper end of the middle part of the cylinder is fixedly connected with an air outlet one-way valve, and the air outlet one-way valve is fixedly connected with the right end of the water storage tank.

The invention has novel structure, ingenious conception and simple and convenient operation, and compared with the prior art, the invention has the following advantages:

1. this device can be through the upper and lower reciprocal skew of conveying board, and then drive construction waste and carry out the conveying to the top, and then drive the upper end of smashing the case, need not artifical transport, alleviates workman's physical demands.

2. This device smashes the stick through first crushing stick, second and carries out preliminary smashing to construction waste, then smashes the stick through extrusion box and third and carries out abundant grinding to the waste material and smash to do not need the workman to visit the health to the broken indoor, very safety.

3. This device has solved the manual work and has stirred not only stirring speed slow to water and cement through the rotation of first stirring rod and second stirring rod, wastes time and energy moreover, appears mixing uniformity's relatively poor condition easily.

4. This device has realized smashing the output mortar of stirring completion back ration through the cooperation of ration bucket and support frame, conveniently carries out the construction, improves work efficiency.

Drawings

FIG. 1 is a schematic left side view of the overall structure of the present invention.

FIG. 2 is a right side axial view of the overall structure of the present invention.

FIG. 3 is a schematic view of a mating structure of a puck and a transfer plate according to the present invention.

FIG. 4 is a schematic view of the engagement structure of the disc and the first connecting rod according to the present invention.

FIG. 5 is a schematic sectional view of the crushing box according to the present invention.

FIG. 6 is a schematic view of the second pulley and third crushing rod of the present invention.

FIG. 7 is a schematic cross-sectional view of the crush box of the present invention.

Fig. 8 is a schematic diagram of a matching structure of a tooth block and a planet wheel.

FIG. 9 is a schematic sectional view of the stirring tank of the present invention.

Fig. 10 is a schematic view of the matching structure of the driven pulley and the second ratchet block of the invention.

FIG. 11 is a schematic view of the structure of the second bevel gear and the second stirring rod.

FIG. 12 is a schematic view of a second bevel gear and a stop lever according to the present invention.

FIG. 13 is a schematic view of the structure of the support frame and the quantitative barrel of the present invention.

FIG. 14 is a schematic cross-sectional view of a cylinder according to the present invention.

Fig. 15 is a schematic view of the structure of the fourth pulley, the first piston and the second piston.

Reference numbers in the figures: 1. a crushing box; 2. a transport case; 3. a transfer plate; 4. a water storage tank; 5. a water feeding pipe; 6. a stirring tank; 7. a support frame; 8. a first belt; 9. a first pulley; 10. a second pulley; 11. a first gear; 12. a second gear; 13. a driving pulley; 14. a second belt; 15. a third belt pulley; 16. a motor; 17. a driven pulley; 18. a fourth pulley; 19. a disc; 20. a Y-shaped rod; 21. a slider; 22. a first connecting rod; 23. a second connecting rod; 24. bending a rod; 25. a third connecting rod; 26. a second crushing bar; 27. a first crushing bar; 28. a driven gear; 29. a rack; 30. a first crankshaft; 31. a pull rod; 32. pressing the box; 33. a bevel pinion gear; 34. a large bevel gear; 35. a rotating body; 36. a tooth block; 37. a planet wheel; 38. a third crushing rod; 39. a swing lever; 40. an outer ring gear; 41. a first rotating lever; 42. a pinion gear; 43. a second rotating lever; 44. a third gear; 45. a fourth gear; 46. a first stirring rod; 47. a second stirring rod; 48. a first bevel gear; 49. a second bevel gear; 50. a first ratchet block; 51. a second ratchet block; 52. an elastic telescopic rod; 53. a third rotating rod; 54. a limiting rod; 55. a dosing barrel; 56. a slide plate; 57. a cover plate; 58. a liquid spraying pipe; 59. an air outlet one-way valve; 60. a cylinder; 61. an air inlet check valve; 62. a first piston; 63. a second piston; 64. a fifth gear; 65. a sixth gear; 66. a first link; 67. a second camshaft; 68. a second link; 69. a second movable bar; 70. a first travel bar.

Detailed Description

The following description of the present invention will be made in further detail with reference to the accompanying drawings 1 to 15.

According to the water storage tank 4, the upper end of the water storage tank 4 is fixedly connected with the upper end of the water storage tank 4 and is fixedly connected with the transport box 2, the upper end of the transport box 2 is provided with the conveying plate 3 capable of moving up and down in a reciprocating mode, the front end of the transport box 2 is fixedly connected with the crushing box 1, the lower end of the crushing box 1 is fixedly connected with the stirring tank 6, the upper end inside the crushing box 1 is rotatably connected with the first crushing rod 27 and the second crushing rod 26 which can rotate along with the up and down movement of the driving plate, the first crushing rod 27 and the second crushing rod 26 are mutually meshed, the lower end inside the crushing box 1 is slidably connected with the two extrusion boxes 32 capable of moving up and down along with the conveying plate 3 and sliding inwards, and the inner sides of the extrusion boxes 32 are uniformly and rotatably connected;

a liquid spraying pipe 58 which can spray liquid intermittently along with the up-and-down reciprocating movement of the conveying plate 3 is fixedly connected to the front side of the upper end of the water storage tank 4, the upper end of the liquid spraying pipe 58 is fixedly connected with the stirring tank 6, a second rotating rod 43 which can rotate along with the up-and-down reciprocating movement of the conveying plate 3 is arranged in the stirring tank 6, the rear end of the upper part of the second rotating rod 43 is fixedly connected with a first stirring rod 46, and the front end of the upper end of the second rotating rod 43 is rotatably connected with a second stirring rod 47 which can rotate along with the rotation of the second rotating rod;

the left side of the lower end of the stirring tank 6 is fixedly connected with a supporting frame 7, a sliding plate 56 capable of moving back and forth is connected in the supporting frame 7 in a sliding mode, the lower end of the front portion of the sliding plate 56 is fixedly connected with a quantitative barrel 55, and the lower end of the quantitative barrel 55 is hinged with a cover plate 57.

As shown in fig. 1, 2, 3, 5, 9 and 13, when the construction waste is needed to be crushed, the waste is placed on the upper slope of the transportation box 2, the transportation plate 3 in the transportation box 2 starts to move up and down, the upper end of the transportation plate 3 is provided with a plurality of ribs, so that the friction force can be increased, the construction waste can be gradually transported upwards, the construction waste can be transported to the recess at the upper end of the crushing box 1, the first crushing rod 27 and the second crushing rod 26 start to engage with each other, the construction waste can be crushed, the two crushing boxes 32 in the crushing box 1 can simultaneously move inwards, when the two crushing boxes 32 move inwards, the three third crushing rods 38 in the crushing boxes 32 can rotate, further grinding the crushed materials to ensure the crushing effect;

the lower end of the crushing box 1 is slidably connected with a partition plate which can be pulled back and forth, when a part of waste materials are crushed, the partition plate is pulled outwards, the crushed materials can fall into the stirring tank 6, meanwhile, the liquid spraying pipe 58 can intermittently spray water into the stirring tank 6 for mixing, the second rotating rod 43 in the stirring tank 6 starts to rotate to drive the first stirring rod 46 fixedly connected with the upper end to rotate, and meanwhile, the second stirring rod 47 outside the upper end can be driven to rotate along with the revolution of the second rotating rod 43, so that the materials in the stirring tank 6 are fully stirred, and uniform mixing is ensured;

after the materials are stirred, the stirred concrete can flow into the quantitative barrel 55, the sliding plate 56 and the quantitative barrel 55 are located as shown in fig. 13, when the sliding plate 56 drives the quantitative barrel 55 to move towards the front side, the sliding plate moves to the front end of the supporting frame 7, the supporting frame 7 does not restrict the cover plate 57 any more, the cover plate 57 is opened, the concrete falls from the quantitative barrel 55, the rear end of the sliding plate 56 is propped below the through hole of the supporting frame 7, the concrete is prevented from falling, and the sliding plate 56 reciprocates back and forth to form the action of quantitatively outputting the concrete.

The right rear part of the crushing box 1 is rotatably connected with a first belt wheel 9, the right end of the first belt wheel 9 is fixedly connected with a motor 16, the lower end of the motor 16 is fixedly connected with the crushing box 1, the upper end of the middle part of the right side of the crushing box 1 is rotatably connected with a first gear 11 and a second gear 12, the first gear 11 and the second gear 12 are mutually meshed, the first gear 11 and a first crushing rod 27 are coaxially fixedly connected, the second gear 12 and a second crushing rod 26 are coaxially fixedly connected, the right end of the first gear 11 is fixedly connected with a second belt wheel 10, the lower side of the middle part of the right side of the crushing box 1 is rotatably connected with a third belt wheel 15, the right side of the water storage tank 4 is rotatably connected with a fourth belt wheel 18, and the outer edges of the first belt wheel 9, the second belt wheel 10, the third belt wheel 15 and.

As shown in fig. 1, 2 and 5, the motor 16 rotates to drive the first pulley 9 fixedly connected to rotate, the first pulley 9 drives the first belt 8 connected to rotate, the first belt 8 drives the second pulley 10, the third pulley 15 and the fourth pulley 18 connected to rotate synchronously, the second pulley 10 rotates while driving the first gear 11 coaxially and fixedly connected to the left end to rotate, the first gear 11 drives the second gear 12 engaged with the first gear 11 to rotate, and further drives the first crushing rod 27 and the second crushing rod 26 coaxially and fixedly connected to rotate in opposite directions and to be engaged with each other to crush the construction waste.

The left side of first band pulley 9 is coaxial rigid coupling to have disc 19, disc 19's rear portion left side articulates there is Y type pole 20, Y type pole 20's lower extreme articulates there is the third connecting rod 25, Y type pole 20's upper end articulates there is first connecting rod 22, Y type pole 20's middle part right side articulates there is second connecting rod 23, the upper end and the lower extreme of second connecting rod 23 respectively with transport case 2 sliding connection, second connecting rod 23's lower extreme articulates there is curved bar 24, curved bar 24's upper end and first connecting rod 22's rear end articulate each other, curved bar 24's lower extreme and second connecting rod 23's lower extreme articulate each other, first connecting rod 22's left end and conveying plate 3 fixed connection.

As shown in fig. 3 and 4, when the first pulley 9 drives the fixedly connected disc 19 to rotate, when the disc 19 rotates downward, the front end of the Y-shaped rod 20 is driven to deflect downward and move backward, at this time, the Y-shaped rod 20 drives the third connecting rod, the second connecting rod 23 and the first connecting rod 22 to deflect backward, the upper end and the lower end of the second connecting rod 23 are slidably connected with the transport box 2, respectively, and the Y-shaped rod 20, the third connecting rod, the second connecting rod 23 and the first connecting rod 22 form two parallelogram structures, when the rear lower end of the Y-shaped rod 20 deflects backward, the third connecting rod 25 is driven to move backward, thereby driving the lower end of the bent rod 24 to move backward, the upper end of the Y-shaped rod 20 and the upper end of the bent rod 24 drive the first connecting rod 22 to deflect upward, thereby driving the fixedly connected transfer plate 3 to shift upward, the transmission plate 3 is shifted upwards while moving towards the rear side, and then is reset downwards while moving towards the front side, and the disc 19 continuously rotates to form a structure that the transmission plate 3 is shifted back and forth.

The left side of the second belt wheel 10 is coaxially and fixedly connected with a first crankshaft 30, the front side and the rear side of the first crankshaft 30 are respectively hinged with two pull rods 31, the rear end of each pull rod 31 is respectively hinged with a corresponding extrusion box 32, the left side of the extrusion box 32 is rotatably connected with a driven gear 28, the lower end of the driven gear 28 is meshed with a rack 29, the rack 29 is fixedly connected with the crushing box 1, the right end of the driven gear 28 is coaxially and fixedly connected with a small bevel gear 33, the front side of the small bevel gear 33 is meshed with a large bevel gear 34, the inside of the large bevel gear 34 is fixedly connected with a rotating body 35, the rotating body 35 is rotatably connected with the inside of the extrusion box 32, the inside of the rotating body 35 is rotatably connected with three planet wheels 37, each planet wheel 37 is coaxially and fixedly connected with a third crushing rod 38 corresponding to the front side, a tooth block 36 is meshed with the inner side of the.

As shown in fig. 1, 5, 6, 7 and 8, when the second belt wheel 10 rotates, the first crankshaft 30, which is coaxially and fixedly connected, is driven to rotate, and then the two hinged pull rods 31 are driven to move inwards at the same time, and then the two squeezing boxes 32 are pulled to move inwards at the same time, because the rack 29 is stationary, and at the same time, the squeezing boxes 32 drive the driven gear 28, which is rotatably connected, to move inwards, and then the driven gear 28 rotates, and the small bevel gear 33, which is coaxially and fixedly connected, rotates, and the small bevel gear 33 rotates to drive the large bevel gear 34, which is engaged, to rotate, and thus the rotating body 35 rotates, and when the rotating body 35 rotates, the three planet wheels 37 are driven to rotate, because the tooth block 36 is stationary, the three planet wheels 37 are driven to rotate, and then the third pulverizing rod 38, which is coaxially and fixedly connected, is driven to rotate, so as, the grinding is more sufficient.

A driving belt wheel 13 is coaxially and fixedly connected to the right end of the second gear 12, a second belt 14 is connected to the outer edge of the driving belt wheel 13, a driven belt wheel 17 is connected to the lower end of the second belt 14, a first bevel gear 48 is coaxially and fixedly connected to the left end of the driven belt wheel 17, a second bevel gear 49 is meshed to the upper end of the first bevel gear 48, the first bevel gear 48 and the second bevel gear 49 are rotatably connected to the lower end of the stirring tank 6, a first rotating rod 41 is coaxially and fixedly connected to the upper end of the second bevel gear 49, a pinion 42 is rotatably connected to the lower end of the outer side of the first rotating rod 41, an outer gear ring 40 is meshed to the outer side of the pinion 42, the lower end of the outer gear ring 40 is fixedly connected to the stirring tank 6, the upper end of the pinion 42 is fixedly connected to the lower end of the second rotating rod 43, a third gear 44 is fixedly connected to the upper end of the outer side of the, the fourth gear 45 is rotatably connected with the left end of the second rotating rod 43, and the fourth gear 45 is fixedly connected with the lower end of the second stirring rod 47.

As shown in fig. 2, fig. 9, fig. 10 and fig. 11, when the second gear 12 rotates, the driving pulley 13 with the coaxially fixed right end is driven to rotate, the driving pulley 13 drives the connected driven pulley 17 to rotate through the second belt 14, so as to realize the rotation of the first bevel gear 48, the first bevel gear 48 drives the second bevel gear 49 with the meshing to rotate, so as to drive the first rotating rod 41 with the fixedly connected upper end to rotate, the pinion 42 with the rotatably connected outer end is driven to rotate in the outer gear ring 40, so as to realize the rotation of the pinion 42, and the pinion 42 drives the second rotating rod 43 with the coaxially fixed upper end to rotate, when the second rotating rod 43 rotates, the fourth gear 45 with the rotatably connected lower side of the outer end is driven to rotate, because the third gear 44 is fixed, when the second rotating rod 43 drives the fourth gear 45 to rotate around the third gear 44, and then the second stirring rod at the upper end is driven to rotate, so that the first stirring rod rotates along with the first rotating rod 41, and simultaneously, the second stirring rod 47 rotates to uniformly stir the concrete.

The left end of the first bevel gear 48 is coaxially and fixedly connected with a first ratchet block 50, the left end of the first ratchet block 50 is meshed with a second ratchet block 51, the outer edge of the second ratchet block 51 is rotatably connected with a sliding block 21, the sliding block 21 is slidably connected with the lower end of the stirring tank 6, the front end of the sliding block 21 is slidably connected with a swinging rod 39, the middle of the swinging rod 39 is rotatably connected with the front end of the stirring tank 6, the left end of the second ratchet block 51 is fixedly connected with an elastic telescopic rod 52, the left end of the elastic telescopic rod 52 is fixedly connected with a third rotating rod 53, the left end of the third rotating rod 53 is slidably connected with a limiting rod 54, and the left end of the limiting rod 54 is fixedly connected with a sliding plate 56.

As shown in fig. 10, 11 and 12, when the first bevel gear 48 rotates, the first bevel gear drives the first ratchet block 50 coaxially and fixedly connected to rotate, the first ratchet block 50 drives the second ratchet block 51 engaged with the first ratchet block 50 to rotate, under normal circumstances, the first ratchet block 50 and the second ratchet block 51 are separated, when the first ratchet block 50 and the second ratchet block 51 are engaged with each other, the upper end of the swing rod 39 is pulled to the left side at this time, the lower end of the swing rod 39 is driven to rotate to the right side to drive the sliding block 21 to move to the right side to drive the first ratchet block 50 and the second ratchet block 51 to engage with each other, and at this time, the elastic telescopic rod 52 extends out, at this time, the telescopic rod drives the fixedly connected third rotating rod 53 to rotate, the right end of the limiting rod 54 is provided with a rectangular through hole, the left end of the third rotating rod 53 is provided with a cylindrical protrusion, and further drives the limiting rod 54 to slide back and forth to realize the back sliding of the sliding plate, when no force is applied to the swinging rod 39, the elastic telescopic rod 52 automatically retracts under the action of the elastic telescopic rod 52, so that the first ratchet block 50 and the second ratchet block 51 are separated.

A fifth gear 64 is coaxially and fixedly connected to the left end of the fourth belt wheel 18, a sixth gear 65 is meshed to the lower end of the fifth gear 64, the sixth gear 65 and the right end of the water storage tank 4 are rotatably connected, a second cam shaft 67 is coaxially and fixedly connected to the right ends of the fourth belt wheel 18 and the sixth gear 65 respectively, a first connecting rod 66 is hinged to the rear end of the second cam shaft 67, a first moving rod 70 is hinged to the rear end of the first connecting rod 66, a first piston 62 is fixedly connected to the front end of the first moving rod 70, the outer edge of the first piston 62 is hinged to the front end of the cam shaft, a second connecting rod 68 is hinged to the front end of the second connecting rod 68, a second piston 63 is fixedly connected to the front end of the second moving rod 69, the first moving rod 70 and the second moving rod 69 are slidably connected, a cylinder 60 is slidably connected to the outer edges of the first piston 62 and the second piston 63, and the cylinder 60 is fixedly connected to the right end of the water, the lower end of the middle part of the air cylinder 60 is fixedly connected with an air inlet one-way valve 61, the upper end of the middle part of the air cylinder 60 is fixedly connected with an air outlet one-way valve 59, and the air outlet one-way valve 59 is fixedly connected with the right end of the water storage tank 4.

As shown in fig. 2, 14 and 15, when the fourth pulley 18 rotates, the fifth gear 64 coaxially fixed is driven to rotate, the fifth gear 64 drives the meshed sixth gear 65 to rotate, the sixth gear 65 and the fourth pulley 18 simultaneously drive the corresponding second cam shaft 67 to rotate, when the second cam shaft 67 rotates, the two first connecting rods 66 hinged at the rear end are driven to shift to the rear side, and further the first moving rod 70 hinged at the inner side is driven to shift to the rear side, and the first piston 62 is driven to shift to the rear side, and simultaneously the second cam shaft 67 drives the two second connecting rods 68 hinged at the two ends to shift to the front side, and further the second moving rod 69 hinged at the inner side is driven to shift to the front side, the second cam shaft 67 rotates to form a structure that the first piston 62 and the second piston 63 in the cylinder 60 simultaneously shift to the inner side or the outer side, the front end of the cylinder 60 is provided with a through hole, when the first piston 62 and the second piston 63 simultaneously shift to the outer side, negative pressure is generated in the cylinder 60, then admit air check valve 61 and open, gaseous from the external world entering cylinder 60 in, then first piston 62 and second piston 63 move to the inboard simultaneously, and inside gaseous one-way valve 59 that gives vent to anger reachs storage water tank 4, the inside atmospheric pressure increase of storage water tank 4, then spout the inside water into agitator tank 6 through spray tube 58 in, can be to the inside liquid that adds of storage water tank 4 through watering pipe 5.

When the invention is used, waste materials are placed on the slope at the upper end of a transport box 2, then a transport plate 3 in the transport box 2 starts to move up and down in a reciprocating way, a plurality of convex edges are arranged at the upper end of the transport plate 3, so that the friction force can be increased, and the construction waste materials can be gradually transported upwards, so that the construction waste materials can be transported into a depression at the upper end of a crushing box 1, a motor 16 rotates to drive a first belt wheel 9 which is fixedly connected, the first belt wheel 9 drives a first belt 8 which is connected to rotate, the first belt 8 drives a second belt wheel 10, a third belt wheel 15 and a fourth belt wheel 18 which are connected to synchronously rotate, the second belt wheel 10 simultaneously drives a first gear 11 which is coaxially and fixedly connected at the left end to rotate, the first gear 11 drives a second gear 12 which is meshed to rotate, so that a first crushing rod 27 and a second crushing rod 26 which are coaxially and fixedly connected to rotate in opposite directions are driven, mutually engaged to crush the construction waste, when the second belt wheel 10 rotates, the first crankshaft 30 of the coaxial fixed connection is driven to rotate, and then the two hinged pull rods 31 are driven to move inwards at the same time, and then the two extrusion boxes 32 are pulled to move inwards at the same time, because the rack 29 is fixed, and at the moment, the extrusion boxes 32 drive the driven gear 28 which is rotatably connected to move inwards, and further the driven gear 28 rotates, and drives the small bevel gear 33 of the coaxial fixed connection to rotate, the small bevel gear 33 rotates to drive the large bevel gear 34 which is engaged with the small bevel gear to rotate, so as to realize the rotation of the rotator 35, and when the rotator 35 rotates, the three planet gears 37 are driven to rotate, because the tooth block 36 is fixed, the three planet gears 37 are driven to rotate at the moment, and further the third crushing rod 38 of the coaxial fixed connection is driven to rotate, so as to crush the crushed slag, when the second gear 12 rotates, the driving pulley 13 with the coaxially fixed right end is driven to rotate, the driving pulley 13 drives the connected driven pulley 17 to rotate through the second belt 14, so as to realize the rotation of the first bevel gear 48, the first bevel gear 48 drives the second bevel gear 49 which is meshed to rotate, so as to drive the first rotating rod 41 which is fixedly connected with the upper end to rotate, the pinion 42 which is rotatably connected with the outer end is driven to rotate in the outer gear ring 40, so as to realize the rotation of the pinion 42, and the pinion 42 drives the second rotating rod 43 which is coaxially fixed with the upper end to rotate, when the second rotating rod 43 rotates, the fourth gear 45 which is rotatably connected with the lower side of the outer end is driven to rotate, because the third gear 44 is fixed, when the second rotating rod 43 drives the fourth gear 45 to rotate around the third gear 44, the fourth gear 45 is driven to rotate at this moment, so as to drive the second stirring, when the fourth pulley 18 rotates, the second gear 64 which is coaxially and fixedly connected is driven to rotate, the fifth gear 64 drives the meshed sixth gear 65 to rotate, the sixth gear 65 and the fourth pulley 18 simultaneously drive the corresponding second cam shaft 67 to rotate, when the second cam shaft 67 rotates, the two first connecting rods 66 which are hinged at the rear ends are driven to deflect towards the rear side, the first moving rod 70 which is hinged at the inner side is driven to move towards the rear side, the first piston 62 is driven to move towards the rear side, meanwhile, the second cam shaft 67 drives the two second connecting rods 68 which are hinged to deflect towards the front side, the second moving rod 69 which is hinged at the inner side is driven to move towards the front side, the second cam shaft 67 rotates to form a structure that the first piston 62 and the second piston 63 in the cylinder 60 simultaneously move towards the inner side or the outer side, the front end of the cylinder 60 is provided with a through hole, when the first piston 62 and the second piston 63 move outwards at the same time, negative pressure is generated in the cylinder 60, then the air inlet one-way valve 61 is opened, air enters the cylinder 60 from the outside, then the first piston 62 and the second piston 63 move inwards at the same time, the air reaches the inside of the water storage tank 4 through the air outlet one-way valve 59, the air pressure in the water storage tank 4 is increased, then the water in the inside is sprayed into the stirring tank 6 through the liquid spraying pipe 58, when the concrete is stirred, the first bevel gear 48 rotates to drive the first ratchet block 50 which is coaxially and fixedly connected to rotate, the first ratchet block 50 drives the second ratchet block 51 which is meshed to rotate, under the daily condition, the first ratchet block 50 and the second ratchet block 51 are separated, when the first ratchet block 50 and the second ratchet block 51 are meshed to need, the upper end of the swinging rod 39 is pulled towards the left side, the lower end of the swing rod 39 is driven to rotate towards the right side to drive the slide block 21 to move towards the right side to drive the first ratchet block 50 and the second ratchet block 51 to be meshed, at the moment, the elastic telescopic rod 52 extends out, at the moment, the telescopic transmission rod drives the fixedly connected third rotating rod 53 to rotate, the right end of the limiting rod 54 is provided with a rectangular through hole, the left end of the third rotating rod 53 is provided with a cylindrical bulge to drive the limiting rod 54 to slide back and forth to realize the back and forth sliding of the sliding plate 56, after the materials are stirred, the stirred concrete flows into the quantitative barrel 55, at the moment, the sliding plate 56 and the quantitative barrel 55 are positioned as shown in figure 13, when the sliding plate 56 drives the quantitative barrel 55 to move towards the front side, the supporting frame 7 does not constrain the cover plate 57 any more after the sliding plate 56 moves to the front end of the supporting frame 7, then the cover plate 57 is opened, the concrete falls from the quantitative barrel 55, and at the moment, the rear end, the concrete is prevented from falling, and then the sliding plate 56 reciprocates back and forth, so that the action of quantitatively outputting the concrete is formed.

The invention has novel structure, ingenious conception and simple and convenient operation, and effectively solves the problems that the conventional construction waste treatment equipment for the construction engineering needs to manually carry construction waste, wastes time and labor, workers often need to insert bodies into a crushing chamber, the potential safety hazard is great, the crushing effect is poor, various materials needing to be mixed are added into the same mixing box, water and cement are manually stirred, the stirring speed is low, the time and labor are wasted, the condition of poor mixing uniformity is easy to occur, and mortar cannot be quantitatively output after the crushing and stirring are finished.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a construction waste treatment equipment for building engineering, including storage water tank (4), a serial communication port, the upper end fixedly connected with transport case (2) of the upper end fixedly connected with storage water tank (4) of storage water tank (4), the upper end of transport case (2) is equipped with conveying board (3) that can up-and-down reciprocating motion, the front end fixedly connected with of transport case (2) smashes case (1), the lower extreme fixedly connected with agitator tank (6) of smashing case (1), the inside upper end of smashing case (1) is rotated and is connected with and can reciprocate and first crushing stick (27) of pivoted and second crushing stick (26) along with the driving plate, first crushing stick (27) and second crushing stick (26) interlock of each other, the inside lower extreme sliding connection of smashing case (1) has two extrusion boxes (32) that can reciprocate and inboard gliding extrusion box (32) to inboard simultaneously along with conveying board (3), extrusion box (32) inboard even rotation is connected with three and can move and pivoted third along with extrusion box (32) and a crushing rod (38);

a liquid spraying pipe (58) capable of intermittently spraying liquid along with the vertical reciprocating movement of the conveying plate (3) is fixedly connected to the front side of the upper end of the water storage tank (4), the upper end of the liquid spraying pipe (58) is fixedly connected with the stirring tank (6), a second rotating rod (43) capable of rotating along with the vertical reciprocating movement of the conveying plate (3) is arranged in the stirring tank (6), a first stirring rod (46) is fixedly connected to the rear end of the upper part of the second rotating rod (43), and a second stirring rod (47) capable of rotating along with the rotation of the second rotating rod (43) is rotatably connected to the front end of the upper end of the second rotating rod (43);

the left side of the lower end of the stirring tank (6) is fixedly connected with a supporting frame (7), a sliding plate (56) capable of moving back and forth is connected in the supporting frame (7) in a sliding mode, a quantitative barrel (55) is fixedly connected to the lower end of the front portion of the sliding plate (56), and a cover plate (57) is hinged to the lower end of the quantitative barrel (55).

2. The construction waste treatment equipment for the construction engineering according to claim 1, wherein the right rear part of the crushing box (1) is rotatably connected with a first belt wheel (9), the right end of the first belt wheel (9) is fixedly connected with a motor (16), the lower end of the motor (16) is fixedly connected with the crushing box (1), the upper end of the right middle part of the crushing box (1) is rotatably connected with a first gear (11) and a second gear (12), the first gear (11) and the second gear (12) are meshed with each other, the first gear (11) and the first crushing rod (27) are coaxially fixedly connected, the second gear (12) and the second crushing rod (26) are coaxially fixedly connected, the right end of the first gear (11) is fixedly connected with a second belt wheel (10), the lower side of the right middle part of the crushing box (1) is rotatably connected with a third belt wheel (15), the right side of the water storage tank (4) is rotatably connected with a fourth belt wheel (18), the outer edges of the first belt wheel (9), the second belt wheel (10), the third belt wheel (15) and the fourth belt wheel (18) are connected with a first belt (8) together.

3. The construction waste treatment apparatus for construction engineering according to claim 2, the coaxial rigid coupling in left side of first band pulley (9) has disc (19), the rear portion left side of disc (19) articulates there is Y type pole (20), the lower extreme of Y type pole (20) articulates there is third connecting rod (25), the upper end of Y type pole (20) articulates there is first connecting rod (22), the middle part right side of Y type pole (20) articulates there is second connecting rod (23), the upper end and the lower extreme of second connecting rod (23) respectively with transport case (2) sliding connection, the lower extreme of second connecting rod (23) articulates there is knee (24), the upper end of knee (24) and the rear end of first connecting rod (22) are articulated each other, the lower extreme of knee (24) and the lower extreme of second connecting rod (23) are articulated each other, the left end and the conveying plate (3) fixed connection of first connecting rod (22).

4. The construction waste treatment apparatus for building engineering according to claim 2, wherein a first crankshaft (30) is coaxially fixed on the left side of the second pulley (10), two pull rods (31) are respectively hinged on the front side and the rear side of the first crankshaft (30), the rear end of each pull rod (31) is respectively hinged with the corresponding extrusion box (32), the left side of the extrusion box (32) is rotatably connected with a driven gear (28), the lower end of the driven gear (28) is engaged with a rack (29), the rack (29) is fixedly connected with the crushing box (1), the right end of the driven gear (28) is coaxially fixed with a small bevel gear (33), the front side of the small bevel gear (33) is engaged with a large bevel gear (34), a rotating body (35) is fixedly connected inside the large bevel gear (34), the rotating body (35) is rotatably connected with the inside of the extrusion box (32), three planet gears (37) are rotatably connected inside the rotating body (35), each planet wheel (37) is coaxially and fixedly connected with a third crushing rod (38) corresponding to the front side, a gear block (36) is meshed with the inner side of each planet wheel (37), and the outer end of each gear block (36) is fixedly connected with the crushing box.

5. The construction waste treatment equipment for the building engineering according to claim 2, wherein a driving pulley (13) is coaxially and fixedly connected to the right end of the second gear (12), a second belt (14) is connected to the outer edge of the driving pulley (13), a driven pulley (17) is connected to the lower end of the second belt (14), a first bevel gear (48) is coaxially and fixedly connected to the left end of the driven pulley (17), a second bevel gear (49) is meshed to the upper end of the first bevel gear (48), the first bevel gear (48) and the second bevel gear (49) are rotatably connected to the lower end of the stirring tank (6), a first rotating rod (41) is coaxially and fixedly connected to the upper end of the second bevel gear (49), a pinion (42) is rotatably connected to the lower end of the outer side of the first rotating rod (41), an outer gear ring (40) is meshed to the outer side of the pinion (42), and the lower end of the outer gear ring (40) is fixedly connected, the upper end of the pinion (42) is fixedly connected with the lower end of the second rotating rod (43), the upper end of the outer side of the first rotating rod (41) is fixedly connected with a third gear (44), the lower end of the second rotating rod (43) penetrates through the third gear (44), the left end of the third gear (44) is meshed with a fourth gear (45), the fourth gear (45) is rotatably connected with the left end of the second rotating rod (43), and the fourth gear (45) is fixedly connected with the lower end of the second stirring rod (47).

6. The construction waste treatment apparatus for construction engineering according to claim 5, the left end of first bevel gear (48) is coaxial to be fixedly connected with first ratchet block (50), the left end meshing of first ratchet block (50) has second ratchet block (51), the outer fringe rotation of second ratchet block (51) is connected with slider (21), slider (21) and agitator tank (6) lower extreme sliding connection, the front end sliding connection of slider (21) has swinging arms (39), the middle part of swinging arms (39) and the front end rotation of agitator tank (6) are connected, the left end fixedly connected with elastic telescopic rod (52) of second ratchet block (51), the left end fixedly connected with third dwang (53) of elastic telescopic rod (52), the left end sliding connection of third dwang (53) has gag lever post (54), the left end and slide (56) fixed connection of gag lever post (54).

7. The construction waste treatment equipment for the building engineering according to claim 2, wherein a fifth gear (64) is coaxially and fixedly connected to the left end of the fourth belt wheel (18), a sixth gear (65) is meshed to the lower end of the fifth gear (64), the sixth gear (65) and the right end of the water storage tank (4) are rotatably connected, a second cam shaft (67) is coaxially and fixedly connected to the right ends of the fourth belt wheel (18) and the sixth gear (65), respectively, a first connecting rod (66) is hinged to the rear end of the second cam shaft (67), a first moving rod (70) is hinged to the rear end of the first connecting rod (66), a first piston (62) is fixedly connected to the front end of the first moving rod (70), the outer edge of the first piston (62), a second connecting rod (68) is hinged to the front end of the cam shaft, a second moving rod (69) is hinged to the front end of the second connecting rod (68), the front end fixedly connected with second piston (63) of second movable rod (69), first movable rod (70) and second movable rod (69) sliding connection, the outer fringe sliding connection of first piston (62) and second piston (63) has cylinder (60), the right-hand member fixed connection of cylinder (60) and storage water tank (4), the middle part lower extreme fixedly connected with of cylinder (60) admit air check valve (61), the middle part upper end fixedly connected with of cylinder (60) give vent to anger check valve (59), give vent to anger check valve (59) and storage water tank (4) right-hand member fixed connection.