CN114849873A

CN114849873A - Broken recovery unit of building material waste material

Info

Publication number: CN114849873A
Application number: CN202210391980.7A
Authority: CN
Inventors: 陈琼; 胡侃; 梅健; 和俊明
Original assignee: Wuhan Luoluowang Construction Engineering Co ltd
Current assignee: Wuhan Luoluowang Construction Engineering Co ltd
Priority date: 2022-04-14
Filing date: 2022-04-14
Publication date: 2022-08-05

Abstract

The invention relates to the field of building equipment, and discloses a building material waste crushing and recycling device which effectively solves the problems that the crushing degree of the existing building waste is low, the size of the building waste is large after crushing, and the crushing effect is poor, and comprises a machine body, wherein the bottom end of the machine body is provided with a base, the front surface of the base is provided with a discharge hole, the back surface of the base is provided with a back plate, two sides of the machine body are symmetrically provided with first crushing components, the inside of the machine body is provided with a second crushing component, the back surface of the machine body is provided with a transmission component, the first crushing components comprise feeding bins symmetrically arranged on two sides of the machine body, and the inside of the feeding bins is symmetrically and rotatably connected with crushing rollers. Thereby carrying out the primary crushing to construction waste, improve crushing effect then.

Description

Broken recovery unit of building material waste material

Technical Field

The invention belongs to the field of building equipment, and particularly relates to a building material waste crushing and recycling device.

Background

Various building materials are often used in building engineering, the used building materials are different according to different building requirements, brick materials are used as structural materials in the building materials, the use range is quite wide, the brick materials have recoverability, and the brick materials are usually crushed, recovered and reprocessed when a building is dismantled.

In the process of crushing construction waste, the crushing degree is low, so that the size of the construction waste is large after the construction waste is crushed, the crushing effect is poor, and the recycling is influenced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a building material waste crushing and recycling device which effectively solves the problems that the crushing degree of the existing building waste is low, the volume of the building waste is large after being crushed, and the crushing effect is poor.

In order to achieve the purpose, the invention provides the following technical scheme: a crushing and recycling device for building material waste comprises a machine body, wherein a base is installed at the bottom end of the machine body, a discharge hole is formed in the front of the base, a back plate is installed on the back of the base, first crushing assemblies are symmetrically installed on two sides of the machine body, a second crushing assembly is installed inside the machine body, and a transmission assembly is installed on the back of the machine body;

first broken subassembly is installed in the feeding storehouse of organism both sides including the symmetry, and the inside symmetry in feeding storehouse is rotated and is connected with the crushing roller, and row's material pipe is installed to the bottom in feeding storehouse, arranges the slope of material pipe and sets up, and the bottom of arranging the material pipe is connected with the organism, arranges the inside of material pipe and organism and is linked together, and the output shaft of motor body is installed to the one end of one of them crushing roller, and the motor mount is installed in motor body's the outside, and motor mount and backplate fixed connection, the gear is all installed to the one end of two crushing rollers, and two gears mesh mutually.

Preferably, the broken subassembly of second includes sliding connection in the inside bottom piece of organism, and first filtration hole has been seted up to the inside equidistance of bottom piece, and the broken fragment of second is installed to the top equidistance of bottom piece, and the broken fragment of second sets up with first filtration hole is crisscross, and the middle part piece is installed to the top of bottom piece, and the second filtration hole has been seted up to the inside equidistance of middle part piece, and the broken fragment of fourth is installed to the bottom equidistance of middle part piece, and the broken fragment of fourth sets up with the second is crisscross.

Preferably, the connecting rods are installed at four corners of the bottom end of the middle block, the moving block is installed at the bottom end of the connecting rods and is connected to the inside of the moving groove in a sliding mode, the moving groove is formed in the four corners of the top end of the bottom block, the first spring is installed at the bottom end of the moving block, and the bottom end of the first spring is fixedly connected with the lower bottom wall of the moving groove.

Preferably, the top of middle part piece is equipped with the top piece, and top piece sliding connection is in the inside of organism, and first broken piece is installed to the bottom equidistance of top piece, and the top equidistance of middle part piece installs third broken piece, and first broken piece sets up with third broken piece is crisscross, and top piece and middle part piece set up respectively in the upper and lower both sides of arranging the material bottom of tubes portion, and the diameter of first filtration hole is less than the diameter of second filtration hole.

Preferably, the transmission assembly comprises a sliding groove formed in the back face of the machine body, a first sliding block is connected to the inside of the sliding groove in a sliding mode, the first sliding block is installed on the back face of the top block, a second sliding block is connected to the inside of the sliding groove in a sliding mode, and the second sliding block is installed on the back face of the bottom block.

Preferably, the rotating rods are symmetrically arranged on two sides of the first sliding block and two sides of the second sliding block, the first sliding block and the second sliding block are rotatably connected with the rotating rods, the connecting block is arranged at one end of the rotating rod on the same side, and the two rotating rods are rotatably connected with the connecting block.

Preferably, the back of the back plate is symmetrically provided with a sliding groove, the sliding groove is internally and slidably connected with a sliding block, the sliding block is fixedly connected with the connecting block, one side of the sliding block is provided with a second spring, and one end of the second spring is fixedly connected with the inner wall of the sliding groove.

Preferably, a first chain wheel is installed on an output shaft of the motor body, a chain is meshed and connected to the outer side of the first chain wheel, a second chain wheel is meshed and connected to the other end of the inner wall of the chain, a rotating block is installed on the front face of the second chain wheel, and the rotating block is rotatably connected with the back plate.

Preferably, a half gear is installed on the front face of the second chain wheel, the half gear is located between the second chain wheel and the rotating block, a rack is connected to one side, with teeth, of the half gear in a meshed mode, and the rack is installed on one side, away from the two connecting blocks, of the two connecting blocks.

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the construction waste to be crushed is poured between the two crushing rollers in the feeding bin, and then the motor body is started, so that after the motor body rotates, the two crushing rollers are driven to rotate reversely by the two meshed gears, the construction waste is subjected to primary crushing, and the crushing effect is improved;

(2) according to the invention, the two connecting blocks are driven to move towards two sides through the rotation of the half gear, so that the bottom block and the top block are driven to approach each other through the rotating rod, and therefore, the first broken block on the top block and the third broken block on the middle block extrude and break the construction waste on the middle block, and the breaking effect is further improved.

(3) According to the invention, in the process that the top block and the bottom block are close to each other, the first spring is compressed, so that the connecting rod enters the moving groove, the middle block and the bottom block are close to each other, and the construction waste crushed again is crushed for the third time through the fourth crushed block and the second crushed block, so that the crushing effect is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a first crushing assembly according to the present invention;

FIG. 3 is a schematic view of the internal structure of the machine body according to the present invention;

FIG. 4 is a schematic view of a second crushing assembly according to the present invention;

FIG. 5 is a schematic view of the bottom block structure of the present invention;

FIG. 6 is a schematic view of the structure of the moving slot of the present invention;

FIG. 7 is a schematic view of the back side of the body of the present invention;

FIG. 8 is a schematic view of the transmission assembly of the present invention;

in the figure: 1. a body; 2. a base; 3. a discharge port; 4. a back plate; 5. a first crushing assembly; 501. a feeding bin; 502. a crushing roller; 503. a discharge pipe; 504. a motor body; 505. a gear; 506. a motor fixing frame; 6. a second crushing assembly; 601. a top block; 602. a first breaking block; 603. a bottom block; 604. second breaking the fragments; 605. a first filtering hole; 606. a middle block; 607. a third crushing block; 608. a second filtering hole; 609. fourth breaking the fragments; 610. a connecting rod; 611. a moving groove; 612. a moving block; 613. a first spring; 7. a transmission assembly; 701. a chute; 702. a first slider; 703. a second slider; 704. a rotating rod; 705. connecting blocks; 706. a rack; 707. a sliding groove; 708. a slider; 709. a second spring; 710. a first sprocket; 711. a chain; 712. a second sprocket; 713. a half gear; 714. and (6) rotating the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, as shown in fig. 1 to 8, the crusher comprises a machine body 1, a base 2 is installed at the bottom end of the machine body 1, a discharge port 3 is formed in the front surface of the base 2, a back plate 4 is installed on the back surface of the base 2, first crushing assemblies 5 are symmetrically installed on two sides of the machine body 1, a second crushing assembly 6 is installed inside the machine body 1, and a transmission assembly 7 is installed on the back surface of the machine body 1.

In the second embodiment, on the basis of the first embodiment, the first crushing assembly 5 includes feeding bins 501 symmetrically installed at two sides of the machine body 1, crushing rollers 502 are symmetrically and rotatably connected to the inside of the feeding bins 501, a discharging pipe 503 is installed at the bottom end of the feeding bins 501, the discharging pipe 503 is obliquely arranged, the bottom end of the discharging pipe 503 is connected with the machine body 1, the discharging pipe 503 is communicated with the inside of the machine body 1, an output shaft of a motor body 504 is installed at one end of one of the crushing rollers 502, a motor fixing frame 506 is installed at the outer side of the motor body 504, the motor fixing frame 506 is fixedly connected with the back plate 4, gears 505 are installed at one ends of the two crushing rollers 502, and the two gears 505 are engaged with each other;

building waste to be crushed is poured between two crushing rollers 502 in the feeding bin 501, and then the motor body 504 is started, so that after the motor body 504 rotates, the two crushing rollers 502 are driven to reversely rotate through the two meshed gears 505, and the building waste is crushed initially.

In the third embodiment, on the basis of the first embodiment, the second crushing assembly 6 includes a bottom block 603 slidably connected to the inside of the machine body 1, first filtering holes 605 are equidistantly formed in the bottom block 603, second crushing blocks 604 are equidistantly installed at the top end of the bottom block 603, the second crushing blocks 604 and the first filtering holes 605 are arranged in a staggered manner, a middle block 606 is installed above the bottom block 603, second filtering holes 608 are equidistantly formed in the middle block 606, fourth crushing blocks 609 are equidistantly installed at the bottom end of the middle block 606, the fourth crushing blocks 609 and the second crushing blocks 604 are arranged in a staggered manner, connecting rods 610 are installed at four corners of the bottom end of the middle block 606, moving blocks 612 are slidably connected to the inside of a moving groove 611, the moving groove 611 is formed at four corners of the top end of the bottom block 603, first springs 613 are installed at the bottom end of the moving blocks 612, and the bottom ends of the first springs 613 are fixedly connected to the bottom wall of the moving groove 611, a top block 601 is arranged above the middle block 606, the top block 601 is slidably connected to the inside of the machine body 1, first broken blocks 602 are arranged at the bottom end of the top block 601 at equal intervals, third broken blocks 607 are arranged at the top end of the middle block 606 at equal intervals, the first broken blocks 602 and the third broken blocks 607 are arranged in a staggered mode, the top block 601 and the middle block 606 are respectively arranged on the upper side and the lower side of the bottom end of the discharge pipe 503, and the diameter of the first filtering hole 605 is smaller than that of the second filtering hole 608;

the half gear 713 rotates to drive the two connecting blocks 705 to move towards two sides, so that the bottom block 603 and the top block 601 are driven to approach each other through the rotating rod 704, and the first broken blocks 602 on the top block 601 and the third broken blocks 607 on the middle block 606 crush the construction waste on the middle block 606, so that the crushing effect is further improved;

after the construction waste at the top end of the middle block 606 is crushed again, the construction waste enters between the middle block 606 and the bottom block 603 through the second filtering hole 608, and the first spring 613 is compressed after being pressed in the process that the top block 601 and the bottom block 603 are close to each other, so that the connecting rod 610 enters into the moving groove 611, the middle block 606 and the bottom block 603 are close to each other, and the construction waste crushed again is crushed for the third time through the fourth crushing block 609 and the second crushing block 604.

Fourth embodiment, on the basis of the first embodiment, the transmission assembly 7 includes a sliding groove 701 formed on the back surface of the machine body 1, a first sliding block 702 is slidably connected inside the sliding groove 701, the first sliding block 702 is installed on the back surface of the top block 601, a second sliding block 703 is slidably connected inside the sliding groove 701, the second sliding block 703 is installed on the back surface of the bottom block 603, two sides of the first sliding block 702 and two sides of the second sliding block 703 are symmetrically installed with rotating rods 704, the first sliding block 702 and the second sliding block 703 are rotatably connected with the rotating rods 704, one end of the rotating rod 704 on the same side is installed with a connecting block 705, and both the rotating rods 704 are rotatably connected with the connecting block 705, the back surface of the back plate 4 is symmetrically provided with a sliding groove 707, the sliding block 708 is slidably connected inside the sliding groove 707, the sliding block 708 is fixedly connected with the connecting block 705, one side of the sliding block 708 is installed with a second spring 709, one end of the second spring 709 is fixedly connected with the inner wall of the sliding groove 707, a first chain wheel 710 is mounted on an output shaft of the motor body 504, a chain 711 is connected to the outer side of the first chain wheel 710 in a meshing manner, a second chain wheel 712 is connected to the other end of the inner wall of the chain 711 in a meshing manner, a rotating block 714 is mounted on the front surface of the second chain wheel 712, the rotating block 714 is rotatably connected with the back plate 4, a half gear 713 is mounted on the front surface of the second chain wheel 712, the half gear 713 is located between the second chain wheel 712 and the rotating block 714, a rack 706 is connected to one side of the half gear 713 with teeth in a meshing manner, and the rack 706 is mounted on one side of the two connecting blocks 705 away from each other;

the toothed side of the half gear 713 meshes with the sliding block 708, so that after the output shaft of the motor body 504 rotates, the first chain wheel 710 is driven to rotate, and then the second chain wheel 712 is driven to rotate through the chain 711, so that after the second chain wheel 712 rotates, the half gear 713 is driven to rotate, so that the two connecting blocks 705 are driven to move towards two sides, and the bottom block 603 and the top block 601 are driven to approach each other through the rotating rod 704.

The working principle is as follows: when the crushing device is used, construction waste to be crushed is poured between the two crushing rollers 502 in the feeding bin 501, and then the motor body 504 is started, so that after the motor body 504 rotates, the two crushing rollers 502 are driven to rotate in opposite directions through the two meshed gears 505, so that the construction waste is initially crushed, and the crushing effect is improved;

after the initial crushing is finished, the construction waste enters the machine body 1 along the discharge pipe 503, at the moment, the middle block 606 is positioned below the outlet of the discharge pipe 503, so that the construction waste enters the top end of the middle block 606, and since the toothed side of the half gear 713 is meshed with the sliding block 708, after the output shaft of the motor body 504 rotates, the first chain wheel 710 is driven to rotate, and then the second chain wheel 712 is driven to rotate through the chain 711, so that after the second chain wheel 712 rotates, the half gear 713 is driven to rotate, the two connecting blocks 705 are driven to move towards two sides, so that the bottom block 603 and the top block 601 are driven to approach each other through the rotating rod 704, and therefore the first crushing block 602 on the top block 601 and the third crushing block 607 on the middle block 606 crush the construction waste on the middle block 606, and further improve the crushing effect;

after the construction waste at the top end of the middle block 606 is crushed again, the construction waste enters between the middle block 606 and the bottom block 603 along the second filtering hole 608, and in the process that the top block 601 and the bottom block 603 are close to each other, the first spring 613 is compressed after being pressed, so that the connecting rod 610 enters into the moving groove 611, the middle block 606 and the bottom block 603 are close to each other, and the construction waste crushed again is crushed for the third time through the fourth crushing block 609 and the second crushing block 604, so that the crushing effect is further improved, and the construction waste crushed for the third time falls into the base 2 through the first filtering hole 605;

when the half gear 713 is disengaged from the slide block 708, the connecting block 705 is now moved back by the force of the second spring 709, so that the top block 601 and the bottom block 603 are moved away from each other, and are then broken again.

Claims

1. The utility model provides a broken recovery unit of building material waste material, includes organism (1), its characterized in that: the bottom end of the machine body (1) is provided with a base (2), the front side of the base (2) is provided with a discharge hole (3), the back side of the base (2) is provided with a back plate (4), two sides of the machine body (1) are symmetrically provided with first crushing components (5), the interior of the machine body (1) is provided with a second crushing component (6), and the back side of the machine body (1) is provided with a transmission component (7);

first broken subassembly (5) are installed in feeding storehouse (501) of organism (1) both sides including the symmetry, the inside symmetry of feeding storehouse (501) is rotated and is connected with crushing roller (502), row material pipe (503) are installed to the bottom in feeding storehouse (501), row material pipe (503) slope sets up, the bottom of arranging material pipe (503) is connected with organism (1), row material pipe (503) are linked together with the inside of organism (1), the output shaft of motor body (504) is installed to the one end of one of them crushing roller (502), motor mount (506) are installed in the outside of motor body (504), motor mount (506) and backplate (4) fixed connection, gear (505) are all installed to the one end of two crushing rollers (502), two gear (505) mesh mutually.

2. The construction material waste crushing and recycling device according to claim 1, wherein: the broken subassembly of second (6) is including sliding connection in inside bottom piece (603) of organism (1), first filtration hole (605) have been seted up to the inside equidistance of bottom piece (603), broken piece (604) of second are installed to the top equidistance of bottom piece (603), broken piece (604) of second and first filtration hole (605) crisscross setting, middle part piece (606) are installed to the top of bottom piece (603), second filtration hole (608) have been seted up to the inside equidistance of middle part piece (606), broken piece (609) of fourth are installed to the bottom equidistance of middle part piece (606), broken piece (609) of fourth and the crisscross setting of broken piece (604) of second.

3. The construction material waste crushing and recycling device according to claim 2, wherein: connecting rods (610) are installed at four corners of the bottom end of the middle block (606), moving blocks (612) are installed at the bottom ends of the connecting rods (610), the moving blocks (612) are connected inside a moving groove (611) in a sliding mode, the moving groove (611) is formed in four corners of the top end of the bottom block (603), first springs (613) are installed at the bottom ends of the moving blocks (612), and the bottom ends of the first springs (613) are fixedly connected with the lower bottom wall of the moving groove (611).

4. The construction material waste crushing and recycling device according to claim 2, wherein: top piece (601) are equipped with in the top of middle part piece (606), top piece (601) sliding connection is in the inside of organism (1), first broken piece (602) are installed to the bottom equidistance of top piece (601), third broken piece (607) are installed to the top equidistance of middle part piece (606), first broken piece (602) and the crisscross setting of third broken piece (607), top piece (601) and middle part piece (606) set up respectively in the upper and lower both sides of arranging material pipe (503) bottom, the diameter of first filtration hole (605) is less than the diameter of second filtration hole (608).

5. The construction material waste crushing and recycling device according to claim 1, wherein: the transmission assembly (7) comprises a sliding groove (701) formed in the back face of the machine body (1), a first sliding block (702) is connected to the inside of the sliding groove (701) in a sliding mode, the first sliding block (702) is installed on the back face of the top block (601), a second sliding block (703) is connected to the inside of the sliding groove (701) in a sliding mode, and the second sliding block (703) is installed on the back face of the bottom block (603).

6. The construction material waste crushing and recycling device according to claim 5, wherein: the two sides of the first sliding block (702) and the two sides of the second sliding block (703) are symmetrically provided with rotating rods (704), the first sliding block (702) and the second sliding block (703) are rotatably connected with the rotating rods (704), one end of each rotating rod (704) on the same side is provided with a connecting block (705), and the two rotating rods (704) are rotatably connected with the connecting block (705).

7. The construction material waste crushing and recycling device according to claim 6, wherein: the back of the back plate (4) is symmetrically provided with a sliding groove (707), the sliding block (708) is connected inside the sliding groove (707) in a sliding mode, the sliding block (708) is fixedly connected with the connecting block (705), one side of the sliding block (708) is provided with a second spring (709), and one end of the second spring (709) is fixedly connected with the inner wall of the sliding groove (707).

8. The construction material waste crushing and recycling device according to claim 1, wherein: the motor is characterized in that a first chain wheel (710) is mounted on an output shaft of the motor body (504), a chain (711) is meshed and connected to the outer side of the first chain wheel (710), a second chain wheel (712) is meshed and connected to the other end of the inner wall of the chain (711), a rotating block (714) is mounted on the front face of the second chain wheel (712), and the rotating block (714) is rotatably connected with the back plate (4).

9. The construction material waste crushing and recycling device according to claim 8, wherein: a half gear (713) is installed on the front face of the second chain wheel (712), the half gear (713) is located between the second chain wheel (712) and the rotating block (714), a rack (706) is meshed and connected to one side of the half gear (713) with teeth, and the rack (706) is installed on one side, away from each other, of the two connecting blocks (705).