CN212663825U - Environment-friendly recycled brick aggregate crusher - Google Patents

Abstract

The utility model belongs to the technical field of breaker's technique and specifically relates to an environmental protection regeneration brick aggregate breaker is related to, which comprises a frame, first broken subassembly, output subassembly and transport assembly, first broken subassembly is connected in placing in the frame on ground, first broken subassembly is close to the entry of frame, place in transport assembly lateral wall fixed connection and intercommunication on ground and have the stand pipe, stand pipe fixed connection and intercommunication in the frame, the stand pipe is located first broken subassembly top, output assembly connects and stretches out and extend to transport assembly in the export of frame and its part follow frame in the frame, output assembly is located first broken subassembly below, there is the interval between transport assembly and the frame, output assembly is located above-mentioned interval part and has seted up a plurality of first through-holes. The utility model discloses have the effect that improves production efficiency.

Description

Environment-friendly recycled brick aggregate crusher

Technical Field

The utility model belongs to the technical field of breaker's technique and specifically relates to an environmental protection regeneration brick aggregate breaker is related to.

Background

At present, according to the characteristics of the construction waste in China, the recovery utilization rate can reach more than 95%. Utilize breaker can be according to government's requirement or enterprise's demand, directly carry out the processing and the finished product production of building rubbish at large-scale removal reconstruction building site scene, breaker can smash the recycle with building rubbish, process out multiple one-level regeneration product, for example stone brick powder, coarse aggregate, fine aggregate and concrete recycled material etc..

The utility model discloses a make an uproar type building rubbish breaker falls in current breaker, for chinese patent publication No. CN206763055U, announces 12 months 19 days in 2017, utility model's name. Its type of making an uproar building rubbish breaker of making an uproar that discloses, including the organism, the mouth of puting in has been seted up at the top of organism, and the both sides at organism top are all crisscross articulated to have and are located and put in intraoral baffle, the first lug of middle part fixedly connected with of baffle lower surface, the top fixedly connected with spring frame of organism, has cup jointed anticollision spring between spring frame and the first lug, and crushing cylinder's quantity is two, and two crushing cylinder set up the inside at the organism side by side.

The above prior art solutions have the following drawbacks: present breaker when broken, when partial raw materials do not obtain abundant breakage, need sieve it, in operating personnel will sieve the unqualified raw materials of back breakage and drop into breaker again and carry out the regrinding, consuming time and wasting force.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing an environmental protection regeneration brick aggregate breaker has the effect that improves production efficiency.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the environment-friendly recycled brick aggregate crusher comprises a rack and a first crushing assembly, wherein the first crushing assembly is connected in the rack, the first crushing assembly is close to an inlet of the rack, a conveying assembly is arranged on one side of the rack, the top of the side, close to the conveying assembly, of the rack is fixedly connected and communicated with a guide pipe located above the side of the first crushing assembly, the guide pipe is fixedly connected and communicated with the top of the side of the conveying assembly, the rack is connected with an output assembly located below the first crushing assembly, one part of the output assembly extends into the conveying assembly from an outlet of the rack, a space is reserved between the conveying assembly and the rack, and a plurality of first through holes are formed in the part, located at the space, of the output assembly; the conveying assembly comprises a lifting auger, a third driving piece, a transverse plate and a shell, the extending part of the output assembly extends into the shell from an opening of the shell, the third driving piece is connected to the bottom in the shell, the horizontal side of the transverse plate below the inclined plate is fixedly connected to the inner side face of the corresponding shell respectively, the output end of the third driving piece is connected to the transverse plate and connected to the bottom of the lifting auger through a coupler, the top of the lifting auger is rotated and connected to the top in the shell, and the guide pipe is communicated to the top of the side face of the shell close to the rack.

By adopting the technical scheme, when the raw material falling on the top of the output assembly moves to the first through hole, the raw material with the shape smaller than that of the first through hole falls through the first through hole; the shape is greater than the raw materials of first through-hole can't pass through first through-hole, then in the opening entering transfer module of shell, promotes the auger and carries the stand pipe department with the raw materials, and the raw materials falls into two first broken subassemblies once more through the stand pipe in, carries out the secondary crushing.

The present invention may be further configured in a preferred embodiment as: the first crushing assembly comprises two crushing rollers, two ends of a roller shaft of each crushing roller are respectively and rotatably connected to two opposite side walls of the rack, the crushing rollers are positioned below the guide pipe and above the output assembly, a space is reserved between the two crushing rollers, the two parallel crushing rollers are positioned below the inlet, and the space is positioned right below the inlet of the rack; the one end of the roller of broken roller extends towards the frame lateral wall, and above-mentioned lateral wall fixedly connected with accepts the board, the tip fixedly connected with belt pulley of frame lateral wall is kept away from to the roller of broken roller, two the belt pulley overcoat is equipped with the belt, accept the first driving piece of board top fixedly connected with, the output shaft of first driving piece passes through the coupling joint in the tip of the roller of one of them broken roller.

Through adopting above-mentioned technical scheme, drive first driving piece, the broken roller of first driving piece drive rotates, and the raw materials falls into the interval between two broken rollers through the guide frame, and broken roller is broken it.

The present invention may be further configured in a preferred embodiment as: the inner side wall of the rack is fixedly connected with a second crushing assembly, the second crushing assembly is positioned below the crushing roller and above the output assembly, the second crushing assembly comprises a supporting plate, a second driving part, a rotating shaft, three crushing rods and six groups of crushing cones, wherein three groups of the crushing cones are arranged on one inner side wall of the rack at equal intervals, the other three groups of the crushing cones are arranged on the other inner side wall of the rack opposite to the inner side wall at equal intervals, a space is reserved between the uppermost crushing cone and the bottom of the crushing roller, and a plurality of first convex blocks are distributed on the surface of each crushing cone; the four sides of the supporting plate are fixedly connected to corresponding inner side walls of the rack, the supporting plate is located below the lowermost crushing cone, the supporting plate is provided with two second through holes for raw materials to pass through, the second driving piece is fixedly connected to the bottom of the supporting plate, a space is reserved between the second driving piece and the top of the output assembly, the two second through holes are located on two sides of the second driving piece, the bottom of the vertical rotating shaft is rotatably connected to the top of the supporting plate, and an output shaft of the second driving piece is connected to the rotating shaft through a coupler; the three crushing rods penetrate through and are fixedly connected to the rotating shaft, one crushing rod is located below the group of crushing cones, the surface of each crushing rod is fixedly connected with a plurality of crushing balls, intervals exist between the crushing rods and the crushing cones and between the first convex blocks and the crushing balls, and intervals exist between the lowermost crushing rods and the tops of the supporting plates.

Through adopting above-mentioned technical scheme, the raw materials gets into the broken subassembly of second after leaving broken roller, drive second driving piece, and the pivot rotates, and the raw materials is broken by broken ball and first lug when passing through from the interval between broken pole and the broken awl, and the raw materials after the breakage leaves the broken subassembly of second from the second through-hole to this carries out further breakage to the raw materials.

The present invention may be further configured in a preferred embodiment as: the output subassembly includes swash plate and two montants, the frame bottom is seted up two on same horizontal plane and there is the first recess of interval between the two, two difference in height montant one end is connected in first recess, the other end of montant extends towards keeping away from first recess, and is higher the export of frame is kept away from to the montant, and is shorter the montant is close to the export of frame, swash plate bottom fixed connection is in two montant tops, a part of swash plate extends and it extends to the shell in towards the export direction of frame, and is a plurality of first through-hole is located the above-mentioned extension of swash plate.

Through adopting above-mentioned technical scheme, the raw materials after the breakage falls into the swash plate top, and the swash plate of slope helps the raw materials to slide into in the shell.

The present invention may be further configured in a preferred embodiment as: the output assembly further comprises two first springs and two second springs, the bottoms of the first springs are fixedly connected to the bottom of the first groove, the bottoms of the vertical rods are fixedly connected to the tops of the first springs, the second springs are sleeved on the vertical rods, the bottoms of the second springs are fixedly connected to the side walls of the vertical rods, and the tops of the second springs are fixedly connected to the bottom of the inclined plate; the bottom of the inclined plate is fixedly connected with a vibration motor.

Through adopting above-mentioned technical scheme, drive vibrating motor impels to fall on the completion broken raw materials on the swash plate and leave the frame from the export and get into in the shell.

The present invention may be further configured in a preferred embodiment as: the frame lateral wall fixedly connected with bottom plate, the side fixed connection of bottom plate is in the shell lateral wall, the bottom plate is located the swash plate below, the cavity containing box that is connected with uncovered can be dismantled to the bottom plate top.

Through adopting above-mentioned technical scheme, when the raw materials that accomplish the processing filled up the containing box, thereby operator's accessible separation containing box and bottom plate empty the raw materials to the assigned position.

The present invention may be further configured in a preferred embodiment as: the side wall of the frame, which is far away from the shell, is connected with a dust-settling assembly, and the dust-settling assembly comprises a dust suction pipe, an air pump and a dust settling chamber; the dust collection pipe is fixedly connected and communicated with the side wall of the frame far away from the shell, the dust collection pipe is positioned below the crushing roller and above the crushing cone, the input end of the air pump is connected with the end part of the dust collection pipe far away from the frame, the output end of the air pump is connected with the output pipe, and the end part of the output pipe far away from the air pump is communicated with the side wall of the dust settling chamber; the dust settling chamber is far away from the bottom of the side wall of the frame and is provided with a dust exhaust port, and the dust exhaust port is detachably connected with a barrier plate matched with the dust exhaust port.

Through adopting above-mentioned technical scheme, start the air pump, the dust in the frame enters into the dust fall through the dust absorption pipe indoor, and the operator is through separation dust exhaust mouth and barrier plate and then clear up the indoor dust of dust fall.

The present invention may be further configured in a preferred embodiment as: the side wall of the rack is inserted with a horizontal valve plate in a sliding connection mode, the valve plate is located below the two crushing rollers and above the output assembly, a space exists between the valve plate and the crushing rollers, one side edge of the valve plate penetrates out of the side wall of the rack, and the rest side edges of the valve plate are abutted to the inner side wall of the rack.

Through adopting above-mentioned technical scheme, smash the back as two broken rollers to the raw materials, the operator makes it and frame inside wall between have the interval through the slide valve board, and the raw materials leaves first broken subassembly from above-mentioned interval.

To sum up, the utility model discloses a following at least one useful technological effect:

1. when the raw material falling on the top of the output assembly moves to the first through hole, the raw material with the shape smaller than that of the first through hole falls through the first through hole; the raw materials with the shapes larger than the first through holes cannot pass through the first through holes and then enter the conveying assembly from the opening of the shell, the lifting auger conveys the raw materials to the guide pipe, and the raw materials fall into the two first crushing assemblies again through the guide pipe to be crushed for the second time;

2. the air pump is started, dust in the frame enters the dust settling chamber through the dust suction pipe, and an operator cleans the dust in the dust settling chamber through the separation dust discharge port and the barrier plate.

Drawings

FIG. 1 is a sectional view of an environment-friendly recycled brick aggregate crusher.

FIG. 2 is a schematic structural view of an aggregate crusher for environment-friendly recycled bricks

In the figure, 1, a frame; 11. an inlet; 12. an outlet; 13. a guide frame; 14. a valve plate; 15. a first groove; 16. a base plate; 161. a second groove; 2. a first crushing assembly; 21. crushing the roller; 22. a bearing plate; 23. a belt pulley; 24. a belt; 25. a first driving member; 3. a second crushing assembly; 31. a support plate; 32. a second through hole; 33. a second driving member; 34. a rotating shaft; 35. a breaking bar; 351. crushing a ball; 36. a crushing cone; 361. a first bump; 37. a protective shell; 4. an output component; 41. a sloping plate; 411. a first through hole; 42. a vertical rod; 43. a first spring; 44. a second spring; 5. a transfer assembly; 51. a guide tube; 52. lifting the packing auger; 53. a third driving member; 54. a transverse plate; 55. a housing; 6. a vibration motor; 7. a storage box; 71. a second bump; 8. a dust fall assembly; 81. a dust collection pipe; 82. an air pump; 83. a dust settling chamber; 84. a dust exhaust port; 85. a blocking plate; 851. a handle; 86. and (5) outputting the product.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses an environmental protection regeneration brick aggregate breaker, including frame 1, first broken subassembly 2, output assembly 4 and transfer assembly 5. The frame 1 is a vertical hollow cuboid, an inlet 11 is formed in the top of the frame 1, an outlet 12 is formed in the side wall of the frame 1 and is close to the ground, and the shape of the outlet is rectangular. First broken subassembly 2 is connected in placing in frame 1 on ground, first broken subassembly 2 is close to entry 11, place in 5 lateral walls fixed connection of conveying subassembly on ground and intercommunication have stand pipe 51, stand pipe 51 fixed connection and intercommunication in frame 1, the feed inlet of stand pipe 51 is close to conveying subassembly 5, the discharge gate is close to frame 1, stand pipe 51 is located first broken subassembly 2 side top, output assembly 4 is connected in frame 1 and its part stretches out and is close to bottom department in extending to conveying subassembly 5 from export 12, output assembly 4 is located first broken subassembly 2 below, there is the interval between conveying subassembly 5 and the frame 1, output assembly 4 is located above-mentioned interval part and has seted up a plurality of first through-holes 411.

Referring to fig. 1, in order to facilitate the entry of the raw material to be crushed again into the frame 1 from the conveying assembly 5, the guide pipe 51 is disposed obliquely, and the feed inlet of the guide pipe 51 is positioned above the discharge outlet thereof in the vertical direction.

Referring to fig. 1, a guide frame 13 is fixedly connected to the inlet 11 for facilitating the feeding, and the guide frame 13 is formed in a funnel shape and is communicated with the inlet 11.

Referring to fig. 1 and 2, the first crushing assembly 2 includes two crushing rollers 21, two ends of a roller shaft of each crushing roller 21 are respectively rotatably connected to two opposite side walls of the frame 1, the crushing rollers 21 are located below the guide pipe 51 and above the output assembly 4, a space for raw materials to pass through is formed between the two crushing rollers 21, the two parallel crushing rollers 21 are located below the inlet 11, and the space is located right below the inlet 11; one end of a roll shaft of the crushing roller 21 penetrates through the side wall of the rack 1, the outer side wall of the rack is fixedly connected with a bearing plate 22, the roll shaft of the crushing roller 21 is far away from a belt pulley 23 fixedly connected with the end part of the side wall of the rack 1, a belt 24 is sleeved outside the two belt pulleys 23, a first driving part 25 is fixedly connected with the top of the bearing plate 22, and an output shaft of the first driving part 25 is connected to the end part of the roll shaft of one of the crushing rollers 21 through a. The first driving piece 25 is driven, the crushing roller 21 is driven to rotate by the first driving piece 25, the raw material falls into the space between the two crushing rollers 21 through the guide frame 13, and the crushing rollers 21 crush the raw material.

Referring to fig. 1, a horizontal valve plate 14 is inserted and slidably connected to the side wall of the frame 1, the valve plate 14 is located below the two crushing drums 21 and above the output assembly 4, and a space exists between the valve plate 14 and the crushing drums 21. One side edge of the valve plate 14 penetrates out of the side wall of the frame 1, and the other side edges are abutted against the inner side wall of the frame 1. After the two crushing rollers 21 crush the raw material, the operator slides the valve plate 14 to make a distance between the two crushing rollers and the inner side wall of the frame 1, and the raw material leaves the first crushing assembly 2 from the distance.

Referring to fig. 1, a second crushing assembly 3 is fixedly connected to an inner side wall of a rack 1, the second crushing assembly 3 is located below a valve plate 14 and above an output assembly 4, the second crushing assembly 3 includes a support plate 31, a second driving member 33, a rotating shaft 34, three crushing rods 35 and six groups of crushing cones 36, wherein three groups of crushing cones 36 are equidistantly arranged on one inner side wall of the rack 1, the other three groups of crushing cones 36 are equidistantly arranged on the other inner side wall of the rack 1 opposite to the inner side wall, a gap exists between the uppermost crushing cone 36 and the bottom of the valve plate 14, one group of crushing cones 36 is composed of five crushing cones 36, the crushing cones 36 in one group are equidistantly arranged in a horizontal direction, and a plurality of first convex blocks 361 are distributed on the surface of the crushing cones 36; four sides of a horizontal support plate 31 are fixedly connected to corresponding inner side walls of the rack 1, a space exists between the top of the support plate 31 and a crushing cone 36 positioned at the lowest part, and the support plate 31 is provided with two vertical second through holes 32 for raw materials to pass through; the second driving member 33 is fixedly connected to the bottom of the supporting plate 31, the two second through holes 32 are located at two sides of the second driving member 33, and a space is formed between the bottom and the side of the second driving member 33 and the top of the output assembly 4. The bottom of the vertical rotating shaft 34 is rotatably connected to the top of the supporting plate 31, and the output shaft of the second driving part 33 is connected to the rotating shaft 34 through a coupler; three crushing poles 35 wear to establish and fixed connection in pivot 34, and a crushing pole 35 is located a set of crushing awl 36 below, is located to have the interval between the crushing pole 35 and the backup pad 31 top of below, and crushing pole 35 fixed surface is connected with a plurality of broken balls 351, has the interval that supplies the raw materials to pass through between crushing pole 35 and the crushing awl 36, has the interval between first lug 361 and the broken ball 351. The raw material enters the second crushing assembly 3 after leaving the valve plate 14, the second driving member 33 is driven, the rotating shaft 34 rotates, the raw material is further crushed by the crushing balls 351 and the first lugs 361 when passing through the distance between the crushing rod 35 and the crushing cone 36, and the crushed raw material leaves the second crushing assembly 3 from the second through hole 32.

Referring to fig. 1, in order to protect the second driving member 33, a protective shell 37 is fixedly connected to the bottom of the supporting plate 31, the second driving member 33 is located in the protective shell 37, and the bottom and the side of the protective shell 37 are spaced from the top of the output assembly 4.

Referring to fig. 1, the output assembly 4 includes an inclined plate 41 and two vertical rods 42, two first grooves 15 are formed in the bottom of the rack 1, the two first grooves 15 are on the same horizontal plane and have a distance therebetween, one end of each vertical rod 42 is connected in the corresponding first groove 15, the other end of each vertical rod 42 extends out of the corresponding first groove 15, the two vertical rods 42 are different in height, the higher vertical rod 42 is far away from the outlet 12, the shorter vertical rod 42 is close to the outlet 12, the bottom of the inclined plate 41 is fixedly connected to the tops of the two vertical rods 42, the inclined plate 41 is located under the two second through holes 32, the inclined plate 41 is adapted to the outlet 12, a part of the inclined plate 41 extends out of the outlet 12 and extends into the conveying assembly 5, the first through holes 411 are located on an extending portion of the inclined plate 41 extending out of the outlet 12, in this embodiment, the linear distance between the top and the bottom of the outlet 12 is five times the thickness of the side edge of the inclined plate 41 The linear distance.

Referring to fig. 1, the output assembly 4 further includes two first springs 43 and two second springs 44, the bottom of the first spring 43 is fixedly connected to the bottom of the first groove 15, the bottom of the vertical rod 42 is fixedly connected to the top of the first spring 43, the second spring 44 is sleeved on the vertical rod 42, the bottom of the second spring 44 is fixedly connected to the top surface of the bottom in the frame 1, and the top of the second spring 44 is fixedly connected to the bottom of the inclined plate 41; the bottom of the inclined plate 41 is fixedly connected with a vibration motor 6. The vibrating motor 6 is driven and the crushed material falling on the inclined plate 41 leaves the frame 1 through the outlet 12.

Referring to fig. 1, the conveying assembly 5 includes a lifting auger 52, a third driving member 53, a transverse plate 54 and a housing 55, the housing 55 is a hollow cuboid, the inclined plate 41 extends into the housing 55 from an opening of the housing 55, in this embodiment, a linear distance between a top and a bottom of the opening of the housing 55 is five times a side thickness of the inclined plate 41, and a distance exists between the top of the inclined plate 41 and the top of the opening of the housing 55, and between the bottom of the inclined plate 41 and the bottom of the opening of the housing 55. The third driving piece 53 is connected to the bottom in the shell 55 placed on the ground, four sides of the horizontal transverse plate 54 are respectively and fixedly connected to the inner side faces of the corresponding shell 55, the inclined plate 41 is positioned above the transverse plate 54, the output end of the third driving piece 53 penetrates through the transverse plate 54, the output end of the third driving piece 53 is connected to the bottom of the lifting auger 52 through a coupler, the top of the lifting auger 52 is rotatably connected to the top in the shell 55, and the guide pipe 51 is communicated with the top of the side face, close to the rack 1, of the shell 55. The raw material falling on the inclined plate 41 is vibrated to the first through hole 411, and the raw material having a shape smaller than the first through hole 411 falls through the first through hole 411; the raw material with the shape larger than the first through hole 411 can not pass through the first through hole 411 and then enters the conveying assembly 5 from the opening of the shell 55, the lifting auger 52 conveys the raw material to the guide pipe 51, and the raw material falls into the space between the two crushing rollers 21 again through the guide pipe 51 to be crushed for the second time.

Referring to fig. 1, in order to facilitate the collection of the raw materials dropped from the first through hole 411 by the operator, the outer side wall of the rack 1 is close to the housing 55 and is fixedly connected with the bottom plate 16, the side of the bottom plate 16 is fixedly connected to the side wall of the housing 55, the bottom plate 16 is located below the inclined plate 41, the top of the bottom plate 16 is detachably connected with the uncovered hollow storage box 7, the bottom of the storage box 7 is fixedly connected with three second protrusions 71, the top of the bottom plate 16 is provided with three second grooves 161 matched with the second protrusions 71, the second protrusions 71 are clamped in the second grooves 161, and the two are in interference fit. When the storage box 7 is filled with the processed raw material, the operator can dump the raw material to a designated position by separating the storage box 7 from the bottom plate 16.

Referring to fig. 1, a dust settling assembly 8 is disposed on one side of the frame 1 far from the conveying assembly 5, the dust settling assembly 8 placed on the ground is connected to a side wall of the frame 1 far from the housing 55, and the dust settling assembly 8 includes a dust suction pipe 81, an air pump 82, an output pipe 86 and a dust settling chamber 83. The dust suction pipe 81 is fixedly connected and communicated with the side wall of the frame 1 far from the shell 55, the dust suction pipe 81 is positioned below the valve plate 14 and above the crushing cone 36, the input end of the air pump 82 is connected with the end part of the dust suction pipe 81 far from the frame 1, the output end of the air pump 82 is connected with the output pipe 86, and the end part of the output pipe 86 far from the air pump 82 is communicated with the side wall of the dust settling chamber 83 placed on the ground. Dust exhaust port 84 is arranged at the bottom of the side wall of the dust settling chamber 83 far away from the machine frame 1, the dust exhaust port 84 is detachably connected with a blocking plate 85, and the blocking plate 85 is matched with the dust exhaust port 84 and is in interference fit with the dust exhaust port 84. The air pump 82 is started, dust in the frame 1 enters the dust settling chamber 83 through the dust suction pipe 81, and an operator cleans the dust in the dust settling chamber 83 by separating the dust discharge port 84 and the blocking plate 85.

Referring to fig. 2, in order to facilitate the operator to separate the blocking plate 85 from the dust outlet 84, a U-shaped handle 851 is fixedly connected to a side of the blocking plate 85 away from the housing 1.

Referring to fig. 1 and 2, in the present embodiment, the first driving member 25, the second driving member 33 and the third driving member 53 are all motors.

The implementation principle of the embodiment is as follows: the first driving piece 25 is driven, the crushing rollers 21 are driven to rotate by the first driving piece 25, the raw materials fall into the space between the two crushing rollers 21 through the guide frame 13, and the crushing rollers 21 crush the raw materials; the raw material enters the second crushing assembly 3 after leaving the valve plate 14, the second driving part 33 is driven, the rotating shaft 34 rotates, the raw material is further crushed by the crushing balls 351 and the first lugs 361 when passing through the distance between the crushing rod 35 and the crushing cone 36, the crushed raw material falls to the top of the inclined plate 41 from the second through hole 32, the raw material reaches the first through hole 411 after vibration, and the raw material with the shape smaller than that of the first through hole 411 falls through the first through hole 411; the raw material with the shape larger than the first through hole 411 can not pass through the first through hole 411 and then enters the conveying assembly 5 from the opening of the shell 55, the lifting auger 52 conveys the raw material to the guide pipe 51, and the raw material falls into the space between the two crushing rollers 21 again through the guide pipe 51 to be crushed for the second time.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. Environmental protection regeneration brick aggregate breaker, including frame (1) and first broken subassembly (2), first broken subassembly (2) are connected in frame (1), entry (11) that first broken subassembly (2) are close to frame (1), its characterized in that: a conveying assembly (5) is arranged on one side of the rack (1), the top of the side face, close to the conveying assembly (5), of the rack (1) is fixedly connected and communicated with a guide pipe (51) located above the side of the first crushing assembly (2), the guide pipe (51) is fixedly connected and communicated with the top of the side face of the conveying assembly (5), the rack (1) is connected with an output assembly (4) located below the first crushing assembly (2), one part of the output assembly (4) extends into the conveying assembly (5) from an outlet (12) of the rack (1), a space exists between the conveying assembly (5) and the rack (1), and a plurality of first through holes (411) are formed in the part, located at the space, of the output assembly (4); conveying subassembly (5) are including promoting auger (52), third driving piece (53), diaphragm (54) and shell (55), the extension of output subassembly (4) extends to in shell (55) from the opening of shell (55), third driving piece (53) are connected in shell (55) bottom, and the level just is located diaphragm (54) four sides of swash plate (41) below fixed connection respectively in shell (55) medial surface that corresponds, diaphragm (54) and its coupling joint in promotion auger (52) bottom are worn to locate by the output of third driving piece (53), the top of promoting auger (52) is rotated and is connected in shell (55) top, stand pipe (51) communicate in shell (55) the side top that is close to frame (1).

2. The environment-friendly recycled brick aggregate crusher of claim 1, wherein: the first crushing assembly (2) comprises two crushing rollers (21), two ends of a roller shaft of each crushing roller (21) are respectively and rotatably connected to two opposite side walls of the rack (1), the crushing rollers (21) are positioned below the guide pipe (51) and above the output assembly (4), a space is formed between the two crushing rollers (21), the two parallel crushing rollers (21) are positioned below the inlet (11), and the space is positioned right below the inlet (11) of the rack (1); one end of the roller shaft of the crushing roller (21) extends towards the outer side wall of the rack (1), the outer side wall is fixedly connected with receiving plates (22), the roller shaft of the crushing roller (21) is far away from a belt pulley (23) which is fixedly connected with the end part of the side wall of the rack (1), two belts (24) are sleeved outside the belt pulley (23), a first driving part (25) which is fixedly connected with the top of the receiving plates (22) is connected, and an output shaft of the first driving part (25) is connected to the end part of the roller shaft of one of the crushing roller (21) through a coupling.

3. The environment-friendly recycled brick aggregate crusher of claim 2, wherein: the inner side wall of the rack (1) is fixedly connected with a second crushing assembly (3), the second crushing assembly (3) is located below the crushing roller (21) and above the output assembly (4), the second crushing assembly (3) comprises a supporting plate (31), a second driving piece (33), a rotating shaft (34), three crushing rods (35) and six groups of crushing cones (36), wherein three groups of the crushing cones (36) are equidistantly arranged on one inner side wall of the rack (1), the other three groups of the crushing cones (36) are equidistantly arranged on the other inner side wall, opposite to the inner side wall, of the rack (1), a space exists between the uppermost crushing cone (36) and the bottom of the crushing roller (21), and a plurality of first convex blocks (361) are distributed on the surface of each crushing cone (36); the four sides of the supporting plate (31) are fixedly connected to the corresponding inner side walls of the rack (1), the supporting plate (31) is located below the lowermost crushing cone (36), the supporting plate (31) is provided with two second through holes (32) for raw materials to pass through, the second driving piece (33) is fixedly connected to the bottom of the supporting plate (31), a space exists between the second driving piece (33) and the top of the output assembly (4), the two second through holes (32) are located on two sides of the second driving piece (33), the bottom of the vertical rotating shaft (34) is rotatably connected to the top of the supporting plate (31), and an output shaft of the second driving piece (33) is connected to the rotating shaft (34) through a coupling; three crushing pole (35) wear to establish and fixed connection in pivot (34), one crushing pole (35) are located a set of broken awl (36) below, crushing pole (35) fixed surface is connected with a plurality of broken balls (351), all there is the interval between crushing pole (35) and broken awl (36), between first lug (361) and broken ball (351), is located the below there is the interval between crushing pole (35) and backup pad (31) top.

4. The environment-friendly recycled brick aggregate crusher of claim 1, wherein: output component (4) include swash plate (41) and two montants (42), frame (1) bottom is seted up two on same horizontal plane and there is first recess (15) of interval between the two, two high differences montant (42) one end is connected in first recess (15), the other end of montant (42) is towards keeping away from first recess (15) department and extends, and is higher montant (42) are kept away from export (12) of frame (1), and are shorter montant (42) are close to export (12) of frame (1), swash plate (41) bottom fixed connection is in two montant (42) tops, partly of swash plate (41) extend and it extends to shell (55) towards export (12) direction of frame (1), and is a plurality of first through-hole (411) are located swash plate (41) above-mentioned extension portion.

5. The environment-friendly recycled brick aggregate crusher of claim 4, wherein: output module (4) still include two first springs (43) and two second springs (44), first spring (43) bottom fixed connection is in first recess (15) tank bottom, montant (42) bottom fixed connection is in first spring (43) top, montant (42) are located to second spring (44) cover, swash plate (41) bottom fixedly connected with vibrating motor (6).

6. The environment-friendly recycled brick aggregate crusher of claim 4, wherein: frame (1) lateral wall fixedly connected with bottom plate (16), the side fixed connection of bottom plate (16) is in shell (55) lateral wall, bottom plate (16) are located swash plate (41) below, bottom plate (16) top can be dismantled and be connected with uncovered cavity containing box (7).

7. The environment-friendly recycled brick aggregate crusher of claim 3, wherein: the side wall, far away from the shell (55), of the rack (1) is connected with a dust falling assembly (8), and the dust falling assembly (8) comprises a dust suction pipe (81), an air pump (82) and a dust falling chamber (83); the dust collection pipe (81) is fixedly connected and communicated with the side wall, far away from the shell (55), of the rack (1), the dust collection pipe (81) is located below the crushing roller (21) and above the crushing cone (36), the input end of the air pump (82) is connected to the end, far away from the rack (1), of the dust collection pipe (81), the output end of the air pump (82) is connected to the output pipe (86), and the end, far away from the air pump (82), of the output pipe (86) is communicated with the side wall of the dust reduction chamber (83); dust exhaust opening (84) is opened at the bottom of dust settling chamber (83) far away from the side wall of frame (1), dust exhaust opening (84) is detachably connected with a blocking plate (85) matched with dust exhaust opening.

8. The environment-friendly recycled brick aggregate crusher of claim 2, wherein: frame (1) lateral wall is inserted and is established and sliding connection has horizontally valve plate (14), valve plate (14) are located two crushing roller (21) below, output subassembly (4) top, there is the interval between valve plate (14) and crushing roller (21), one of them side of valve plate (14) is worn out from frame (1) lateral wall, all the other sides with frame (1) inside wall looks butt.

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