CN113231174A - Screening machine is smashed to building rubbish - Google Patents

Abstract

The utility model relates to a sieve separator is smashed to building rubbish, including screening module, transmission module and crushing module, the screening module includes the screening case, the screening incasement is from last to being equipped with first minute sieve and second minute sieve down in proper order, first minute sieve and second minute sieve will the screening case divide into from last first material storage chamber, second material storage chamber and the third material storage chamber of arranging down, transmission module is including being used for transporting the first conveying unit of crushing module department with the material of first material storage intracavity and being used for carrying the second conveying unit in second material storage chamber with the material of crushing module discharge gate department, first material storage intracavity is equipped with the magnetism mechanism that is used for adsorbing the metal. The classified materials are respectively discharged to different places, so that the subsequent treatment is convenient. And the construction waste in the first material storage cavity is crushed in the crushing module, and then enters the sieving box for sieving for the second time, so that the transportation of the waste is facilitated, and the subsequent treatment is more facilitated.

Description

Screening machine is smashed to building rubbish

Technical Field

The application relates to the field of construction waste treatment, in particular to a construction waste crushing and screening machine.

Background

The construction waste refers to residue, waste soil, waste material, residual mud and other wastes generated in the process of constructing, laying, dismantling and repairing various buildings, structures, pipe networks and the like by construction and construction units or individuals.

The existing treatment mode of the construction waste is to transport the construction waste to a treatment point in a centralized way, and transport the construction waste to other places for subsequent treatment after the construction waste is crushed in a centralized way. However, since all the garbage is intensively crushed, the subsequent treatment of the crushed garbage is complicated.

Disclosure of Invention

In order to facilitate the subsequent treatment of the waste,

the application provides a pair of screening machine is smashed to building rubbish adopts following technical scheme:

the utility model provides a screening machine is smashed to building rubbish, includes screening module, transmission module and crushing module, the screening module includes the screening case, the screening incasement is from last to being equipped with first minute sieve and second minute sieve down in proper order, first minute sieve and second minute sieve will the screening case divide into from last first deposit material chamber, second deposit material chamber and the third deposit material chamber of arranging down, transmission module is including being used for transporting the first conveying element of crushing module department with the material of first deposit material intracavity and being used for carrying the second conveying element in second deposit material chamber with the material of crushing module discharge gate department, first deposit material intracavity is equipped with the magnetism that is used for adsorbing the metal and inhales the mechanism.

Through adopting above-mentioned technical scheme, before carrying out the smashing, will inhale the mechanism through magnetism earlier and separate the metalwork from building rubbish to divide the sieve to carry out preliminary screening classification to building rubbish through first branch sieve and second. The classified materials are respectively discharged to different places, so that the subsequent treatment is convenient. And the construction waste in the first material storage cavity is crushed in the crushing module, and then enters the sieving box for sieving for the second time, so that the transportation of the waste is facilitated, and the subsequent treatment is more facilitated. And finally, independently feeding the metal piece for recovery treatment.

Preferably, the mechanism is inhaled to magnetism includes the electro-magnet module, set up the first discharge gate in the first material chamber of depositing of intercommunication on the screening case, first screening board is the downward sloping setting towards first discharge gate, crushing module is including the second crushing unit that is used for broken non-metallic waste's first crushing unit and is used for broken metal waste, first conveying unit rotates to be connected in the screening case, first conveying unit feed end is aimed at first discharge gate, first conveying unit discharge end switches at the feed end of first crushing unit and second crushing unit.

Through adopting above-mentioned technical scheme, when building rubbish just was in first material stock intracavity, the electro-magnet module had magnetism, and the metal in the building rubbish is adsorbed by the electro-magnet module this moment, and the material that has sieved is carried in first crushing unit through first conveying unit, carries the second material stock intracavity again after the breakage. After this batch of material screening finishes, the electro-magnet module loses magnetism, and first conveying unit sieves the case rotation relatively, and first branch sieve drives the metalwork and falls on first conveying unit, and the metalwork is carried the second crushing unit in through first conveying unit, accomplishes the breakage to the metalwork after the breakage is collected alone.

Preferably, be equipped with first vibration subassembly between first minute sieve board and the screening case, first vibration subassembly is used for driving about first minute sieve board shake.

Through adopting above-mentioned technical scheme to make the material on the first minute sieve board can be better divide sieve and the ejection of compact. Meanwhile, when the first sieve plate shakes, the first sieve plate can drive the construction waste to move in the vertical direction, so that the metal piece is adsorbed to the electromagnet module as far as possible, and the material separation effect is better.

Preferably, the first vibration assembly comprises sliding blocks arranged on two sides of the first sieve plate, cams rotatably connected to the sieving box, and a first driving motor driving the cams to rotate, the opposite side walls of the two sides of the first sieve plate correspond to at least one sliding block fixedly connected, the sliding blocks are slidably connected to the side walls of the sieving box, the cams are located below the first sieve plate, and the rotation frequency of the two cams is different.

Through adopting above-mentioned technical scheme, rotate through the cam and drive first branch sieve and sieve the case relative slip to realized the shake to first branch sieve. Meanwhile, due to the fact that the two cams rotate at different frequencies, the first sieve plate has vibration on the plane and an additional shaking force, and therefore materials are better sieved and discharged.

Preferably, the side wall of the screening box is provided with a sliding chute, the sliding block is embedded in the sliding chute and is connected with the sliding chute in a sliding manner, and a buffer spring is arranged between the end wall of the sliding chute and the sliding block.

Through adopting above-mentioned technical scheme, buffer spring can play the effect of buffering to make the more stable shake of first minute sieve board, reduced its damaged possibility.

Preferably, the electromagnet module comprises an electromagnetic roller rotatably connected in the first material storage cavity and a second driving motor for driving the electromagnetic roller to rotate, and the electromagnetic roller is provided with a plurality of electromagnetic rollers at intervals along the discharging direction of the first sieve plate.

Through adopting above-mentioned technical scheme to make the whole circumference of electromagnetism roller all can contact with the metalwork, make the adsorbable more metalworks of electromagnetism roller, conveniently adsorb the metalwork, separate out it from the building rubbish.

Preferably, screening case lateral wall is equipped with chain assembly, chain assembly includes and is the annular chain, the sprocket of tensioning in the chain and is used for driving sprocket pivoted third driving motor, the electromagnetic roller interval is installed on each link of chain.

Through adopting above-mentioned technical scheme, can drive the electromagnetism roller through the chain and can move in the space in first material chamber of depositing, make the adsorbable more metalworks of electromagnetism roller, conveniently adsorb the metalwork, separate out it from the building rubbish.

Preferably, the chain components are provided with two groups and are respectively positioned on the inner walls opposite to the two sides of the screening box, and the two ends of the electromagnetic roller are respectively connected to the chain links of the two chains.

Through adopting above-mentioned technical scheme to make the relative screening case motion that the electromagnetism roller can be more stable, realize the stable absorption to the metalwork.

Preferably, a second vibrating assembly for driving the second sub-sieve plate to shake is mounted on the second sub-sieve plate.

By adopting the technical scheme, the materials on the second sieve plate can be better sieved.

Preferably, the second vibration subassembly includes a plurality of driving cylinders, the piston rod of driving cylinder divides the sieve circumference interval along the second and installs on the second divides the sieve, the driving cylinder body is installed in screening case bottom surface, the driving cylinder piston rod ball connects in the second divides the sieve.

By adopting the technical scheme, the second sub-sieve plate integrally shows a curved surface oscillation state through the non-simultaneous movement of the piston rods of the driving cylinders, so that materials on the second sub-sieve plate can be better sieved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the metal garbage and the nonmetal garbage can be separated, and the subsequent treatment is convenient;

2. multi-layer screening is carried out, different materials are screened and classified as much as possible, and subsequent treatment is facilitated;

3. convenient operation and less manual participation.

Drawings

FIG. 1 is a schematic structural view of example 1.

FIG. 2 is a plan view of embodiment 1.

Fig. 3 is an enlarged view at a in fig. 1.

FIG. 4 is a schematic structural view of embodiment 2.

Description of reference numerals: 1. screening the box; 2. a first sieve plate; 3. a second sieve plate; 4. a first storage cavity; 5. a second storage cavity; 6. a third storage cavity; 7. a feed inlet; 8. a first discharge port; 9. a discharge channel; 10. a discharge pipe; 11. an electromagnetic roller; 12. a second drive motor; 13. a first conveying unit; 14. a second conveying unit; 15. a first conveyor; 16. a second conveyor; 17. a slider; 18. a cam; 19. a first drive motor; 20. a buffer spring; 21. a drive cylinder; 22. a chain; 23. a sprocket; 24. a third drive motor; 25. a chute; 26. a first crushing unit; 27. a second crushing unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses screening machine is smashed to building rubbish.

Example 1:

referring to fig. 1, a construction waste crushing and screening machine includes a sieving module, a transmission module, and a crushing module. Building rubbish is transmitted between the screening module and the crushing module through the transmission module, so that the building rubbish is classified and crushed, and subsequent treatment of rubbish is facilitated.

Specifically, the screening module includes screening case 1, and screening case 1 is interior from last to being equipped with first branch sieve 2 and second branch sieve 3 down in proper order, and first branch sieve 2 and second divide sieve 3 will screening case 1 divide into from last to the first material chamber 4, the second of depositing of arranging down deposits chamber 5 and third and deposits chamber 6.

Referring to fig. 1, a feed inlet 7 for feeding is formed at the upper end of the screening box 1. A magnetic attraction mechanism for attracting metal is arranged in the first material storage cavity 4. A first discharge hole 8 for discharging is formed in one side of the first material storage cavity 4. Be equipped with first vibration subassembly between first minute sieve 2 and the screening case 1, first vibration subassembly is used for ordering about the shake of first minute sieve 2. And a discharging channel 9 for discharging is arranged on one side of the second material storage cavity 5, and the discharging channel 9 is communicated with the outside of the screening box 1. The discharging channel 9 is provided with an opening and closing valve for opening and closing the discharging channel 9. And a second vibrating component for driving the second sub-sieve plate 3 to shake is arranged on the second sub-sieve plate 3. The lower end of the third material storage cavity 6 forms a hopper shape, and a discharge pipe 10 communicated with the third material storage cavity 6 and the outside is arranged at the lower end of the third material storage cavity 6. The discharging pipe 10 is provided with an opening and closing valve for opening and closing the discharging pipe 10.

Building rubbish enters into first material chamber 4 from feed inlet 7 in, and in the feeding process, building rubbish can inhale the mechanism through magnetism, then the metalwork is inhaled the mechanism by magnetism and is adsorbed the separation. The first sieve plate 2 vibrates to drive part of the construction waste to pass through the first sieve plate 2 and fall into the second material storage cavity 5, and the large construction waste is still stored in the first material storage cavity 4. In the screening process, the metal parts in the construction waste can be gradually dispersed with other construction waste due to the vibration force and then are adsorbed by the magnetic attraction mechanism. Thereby the vibration of second branch sieve plate 3 drives partial building rubbish and passes second branch sieve plate 3 and fall to third material storage chamber 6 in, but the small-size building rubbish of non-dust type still remains in second material storage chamber 5, through the ejection of compact of discharging channel 9 ejection of compact. The material in the third material storage cavity 6 is discharged through a discharge pipe 10.

Referring to fig. 1, the magnetic attraction mechanism includes an electromagnet module. The electromagnet module comprises an electromagnetic roller 11 rotationally connected in the first material storage cavity 4 and a second driving motor 12 used for driving the electromagnetic roller 11 to rotate, and the electromagnetic roller 11 is provided with a plurality of parts at intervals along the discharging direction of the first sieve plate 2. The electromagnetic roller 11 can be magnetized and demagnetized by electric control.

Referring to fig. 1 and 2, the transfer module includes a frame, a first conveying unit 13, and a second conveying unit 14. The crushing module comprises a first crushing unit 26 for crushing non-metallic waste and a second crushing unit 27 for crushing metallic waste. The first crushing unit 26 may be a jaw crusher or the like and the second crushing unit 27 may be a cutter or other melt forming equipment. The first conveying unit 13 includes a first conveyor 15 and a second conveyor 16. The first conveyor 15 is located in the first discharge chute and transports the material in the first storage chamber 4 to the first crushing unit 26. The feed end of the second conveyor 16 is located below the discharge end of the first conveyor 15 and the discharge end of the second conveyor 16 is located above the feed end of the first crushing unit 26. The second conveyor 16 is rotatably connected to the frame, and a driving force for rotating the second conveyor 16 relative to the frame may be a motor or a reducer or other power source. After the second conveyor 16 has been rotated 90 deg. relative to the frame, the feed end of the second conveyor 16 is still below the discharge end of the first conveyor 15, while the discharge end of the second conveyor 16 is above the feed end of the second crusher unit 27. The second conveying unit 14 is a conveyor, the feeding end of the second conveying unit 14 is located below the discharging end of the first crushing unit 26, and the discharging end of the second conveying unit 14 passes through the sieving and separating box 1 and is located above the second sieving plate 3.

When the construction waste is just in the first material storage cavity 4, the electromagnet modules are magnetic, at the moment, metal in the construction waste is adsorbed by the electromagnet modules, the screened material is conveyed into the first crushing unit 26 through the first conveying unit 13, and then conveyed into the second material storage cavity 5 after being crushed. After the screening of this batch of material finishes, the electro-magnet module loses magnetism, and second conveyer 16 rotates 90 relative to the frame, and first minute sieve board 2 drives the metalwork and falls on first conveying unit 13, and the metalwork is carried in second crushing unit 27 through first conveying unit 13, accomplishes the breakage to the metalwork to collect the metalwork after the breakage alone.

Optionally, referring to fig. 3, the first vibrating assembly includes sliding blocks 17 disposed on both sides of the first screening plate 2, a cam 18 rotatably connected to the screening box 1, and a first driving motor 19 driving the cam 18 to rotate. The relative lateral wall of 2 both sides of first minute sieve all corresponds two blocks of slider 17 of fixedly connected with, and slider 17 is cylindrical. The side wall of the screening box 1 is provided with a sliding chute 25. The sliding block 17 is embedded in the sliding groove 25 and is connected to the sliding groove 25 in a sliding mode, and the buffer spring 20 is installed between the end wall of the sliding groove 25 and the sliding block 17. The cams 18 are located below the first screening plate 2, and each cam 18 corresponds to a drive motor. The body of the first driving motor 19 is fixedly arranged on the screening box 1, and the output shaft of the first driving motor 19 is connected with the cam 18. The two cams 18 rotate at different frequencies.

Namely, in the rotating process of the two cams 18, the first sieve plate 2 is driven by the cams 18 to rotate and vibrate at the same time, so that the sieving is realized. In order to prevent the interference between the first sieve plate 2 and the sieving box 1 in the vibration process, the outer frame of the first sieve plate 2 is flexibly arranged, and the sliding groove 25 is arc-shaped. Thereby ensuring that the first sieve plate 2 can be shaken smoothly against the sieving box 1.

Referring to fig. 1, the second oscillating assembly comprises at least eight drive cylinders 21. The piston rods of the drive cylinders 21 are mounted on the second partial screen plate 3 at intervals in the circumferential direction of the second partial screen plate 3. The cylinder body of the driving cylinder 21 is arranged on the bottom surface of the screening box 1, and the piston rod of the driving cylinder 21 is in ball joint with the second screening plate 3. Through the non-simultaneous movement of each driving cylinder 21 piston rod, the second sub-sieve plate 3 is integrally in a curved surface oscillation state, so that the materials on the second sub-sieve plate 3 can be better sieved. In order to prevent the second sub-sieve plate 3 from interfering with the sieving box 1 in the vibration process, the outer frame of the second sub-sieve plate 3 is flexibly arranged.

The implementation principle of the construction waste crushing and screening machine in the embodiment of the application is as follows:

1. the construction waste enters the first material storage cavity 4 from the feeding hole 7, and in the feeding process, the construction waste passes through the magnetic attraction mechanism, and then the metal piece is adsorbed and separated by the magnetic attraction mechanism;

2. the first sieve plate 2 vibrates to drive part of the construction waste to pass through the first sieve plate 2 and fall into the second material storage cavity 5, and the large construction waste is still stored in the first material storage cavity 4;

3. meanwhile, the metal parts in the construction waste are gradually dispersed with other construction waste due to the vibration force and then are adsorbed by the magnetic attraction mechanism, and the electromagnetic roller 11 rotates, so that more metal parts can be adsorbed on the surface of the electromagnetic roller 11, and the electromagnetic roller 11 is fully utilized;

4. the large construction waste left in the first storage cavity 4 is conveyed into the first crushing unit 26 through the first conveying unit 13 to be crushed, and then conveyed into the second storage cavity 5 after being crushed;

5. the second sub-sieve plate 3 vibrates to drive part of the construction waste to pass through the second sub-sieve plate 3 and fall into the third material storage cavity 6, and the non-dust type small construction waste is still stored in the second material storage cavity 5 and is discharged through the discharge channel 9; the material in the third material storage cavity 6 is discharged through a discharge pipe 10;

6. after the screening of this batch of material finishes, the electro-magnet module loses magnetism, and second conveyer 16 rotates 90 relative to the frame, and first minute sieve board 2 drives the metalwork and falls on first conveying unit 13, and the metalwork is carried in second crushing unit 27 through first conveying unit 13, accomplishes the breakage to the metalwork to collect the metalwork after the breakage alone.

Example 2:

referring to fig. 4, the difference between embodiment 2 and embodiment 1 is that the side wall of the screening box 1 is provided with two sets of chain 22 assemblies, and the two sets of chain 22 assemblies are respectively positioned on the opposite inner walls of the two sides of the screening box 1. The chain 22 assembly includes a chain 22 in an endless form, a sprocket 23 tensioned in the chain 22, and a third driving motor 24 for driving the sprocket 23 to rotate. The electromagnetic rollers 11 are mounted at intervals on the respective links of the chain 22. The body of the second driving motor 12 is fixedly mounted on the chain link, and the output end of the second driving motor 12 is connected to the electromagnetic roller 11.

Can drive electromagnetism roller 11 through chain 22 and can move in the space of first material storage cavity 4, make electromagnetism roller 11 adsorbable more metalworks, conveniently adsorb the metalwork, separate it from the building rubbish.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a screening machine is smashed to construction waste which characterized in that: including screening module, transmission module and crushing module, the screening module includes screening case (1), from last to being equipped with first minute sieve (2) and second minute sieve (3) down in proper order in screening case (1), first minute sieve (2) and second minute sieve (3) will screening case (1) divide into from last to first deposit material chamber (4) of arranging down, second deposit material chamber (5) and third deposit material chamber (6), transmission module is including being used for carrying first conveying unit (13) of crushing module department with the material in first deposit material chamber (4) and being used for carrying second conveying unit (14) of second deposit material chamber (5) with the material of crushing module discharge gate department, be equipped with the magnetism of being used for adsorbing the metal in first deposit material chamber (4) and inhale the mechanism.

2. The construction waste crushing and screening machine according to claim 1, characterized in that: the mechanism is inhaled to magnetism includes the electro-magnet module, set up first discharge gate (8) of the first material chamber (4) of intercommunication on screening case (1), first screening board is the downward sloping setting towards first discharge gate (8), crushing module is including first crushing unit (26) that are used for broken non-metallic waste and second crushing unit (27) that are used for broken metallic waste, first conveying unit (13) rotate to be connected in screening case (1), first conveying unit (13) feed end is aimed at first discharge gate (8), first conveying unit (13) discharge end switches at the feed end of first crushing unit (26) and second crushing unit (27).

3. The construction waste crushing and screening machine according to claim 2, characterized in that: be equipped with first vibration subassembly between first minute sieve board (2) and screening case (1), first vibration subassembly is used for driving about first minute sieve board (2) shake.

4. The construction waste crushing and screening machine according to claim 3, characterized in that: the first vibrating assembly comprises sliding blocks (17) arranged on two sides of a first screening plate (2), cams (18) rotatably connected to the screening box (1) and a first driving motor (19) driving the cams (18) to rotate, the opposite side walls of the two sides of the first screening plate (2) at least correspond to the sliding blocks (17) fixedly connected with, the sliding blocks (17) are slidably connected to the side walls of the screening box (1), the cams (18) are located below the first screening plate (2), and the rotation of the cams (18) is different in frequency.

5. The construction waste crushing and screening machine according to claim 4, characterized in that: a sliding groove (25) is formed in the side wall of the screening box (1), the sliding block (17) is embedded in the sliding groove (25) and is connected to the sliding groove (25) in a sliding mode, and a buffer spring (20) is installed between the end wall of the sliding groove (25) and the sliding block (17).

6. The construction waste crushing and screening machine according to claim 2, characterized in that: the electromagnet module comprises an electromagnetic roller (11) which is rotatably connected in the first material storage cavity (4) and a second driving motor (12) which is used for driving the electromagnetic roller (11) to rotate, and a plurality of electromagnetic rollers (11) are arranged at intervals along the discharging direction of the first sieve plate (2).

7. The construction waste crushing and screening machine according to claim 6, characterized in that: screening case (1) lateral wall is equipped with chain (22) subassembly, chain (22) subassembly is including being annular chain (22), tensioning sprocket (23) in chain (22) and being used for driving sprocket (23) pivoted third driving motor (24), install on each chain link of chain (22) at the interval electromagnetic roller (11).

8. The construction waste crushing and screening machine according to claim 7, characterized in that: the chain (22) components are provided with two groups and are respectively positioned on the inner walls opposite to the two sides of the screening box (1), and the two ends of the electromagnetic roller (11) are respectively connected to chain links of the two chains (22).

9. The construction waste crushing and screening machine according to claim 1, characterized in that: and a second vibrating assembly used for driving the second sub-sieve plate (3) to shake is mounted on the second sub-sieve plate (3).

10. The construction waste crushing and screening machine according to claim 9, characterized in that: the second vibration subassembly includes a plurality of driving cylinders (21), the piston rod of driving cylinder (21) divides sieve (3) circumference interval along the second and installs on second divides sieve (3), driving cylinder (21) cylinder body is installed in screening case (1) bottom surface, driving cylinder (21) piston rod ball connects in second divides sieve (3).

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