CN116889919B - Cement kiln solid waste treatment device and application method thereof - Google Patents

Abstract

The invention relates to the technical field of solid waste treatment devices, in particular to a cement kiln solid waste treatment device and a use method thereof, which solve the problems that when solid waste is crushed by utilizing crushing equipment, only a single crushing procedure can be carried out, crushing is carried out by crushing by using crushing rollers, some plastics or rubber can only be extruded and flattened without crushing, repeated crushing operation is needed, and the time consumption and the working efficiency are low. The utility model provides a cement kiln solid waste treatment device and application method thereof, includes the device casing, the top of device casing is equipped with two feed hopper, two the bottom of feed hopper all is fixed with the inlet pipe, the inside of device casing is equipped with preliminary crushing storehouse. The invention utilizes the first crushing cutter net and the second crushing cutter net which are formed by a plurality of spiral cutter bar circular arrays, and the spiral directions and the rotation directions of the first crushing cutter net and the second crushing cutter net are opposite, so that the solid waste can be sheared and crushed well, and the crushed particles are more uniform.

Description

Cement kiln solid waste treatment device and application method thereof

Technical Field

The invention relates to the technical field of solid waste treatment devices, in particular to a cement kiln solid waste treatment device and a use method thereof.

Background

The cement kiln is a device for cooperatively disposing solid wastes such as hazardous wastes, municipal industrial sewage treatment sludge, animal and plant processing wastes, polluted soil emergency event wastes, household garbage and the like, wherein the household garbage comprises waste plastics, waste rubber, waste paper, waste tires and the like;

the solid waste needs to be pretreated before entering the cement kiln, otherwise, the solid waste is directly put into the cement kiln to be burnt, which leads to the cement kiln to be out of order, the pretreatment of the solid waste comprises a plurality of procedures such as sorting, crushing and the like of the solid waste, and the device for treating the solid waste is collectively called as a solid waste treatment device.

When crushing solid waste by using crushing equipment, only a single crushing procedure can be performed, crushing is performed by using crushing rollers for crushing, some plastics or rubber can be only extruded and flattened and cannot be crushed, repeated crushing operation is required, and the time consumption and the working efficiency are low; therefore, the existing requirements are not met, and a cement kiln solid waste treatment device and a use method thereof are provided.

Disclosure of Invention

The invention aims to provide a cement kiln solid waste treatment device and a use method thereof, which are used for solving the problems that in the background art, when solid waste is crushed by utilizing crushing equipment, only a single crushing procedure can be carried out, crushing is carried out by using crushing rollers for crushing, some plastics or rubber can be only extruded and flattened without crushing, repeated crushing operation is needed, and the time consumption and the working efficiency are low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a cement kiln solid waste treatment device and application method thereof, includes the device casing, the top of device casing is equipped with two feed hoppers, two the bottom of feed hoppers all is fixed with the inlet pipe, the inside of device casing is equipped with preliminary crushing storehouse, the below of preliminary crushing storehouse is equipped with crushing play feed bin, two symmetrical distribution's crushed aggregates conveying channel has been seted up to the centre of crushing play feed bin and preliminary crushing storehouse, two the bottom of inlet pipe all runs through the top of device casing and extends to preliminary crushing storehouse inside;

the inner side of the preliminary crushing bin is provided with a crushing module, the crushing module comprises two rotary discs, the two rotary discs are respectively rotatably arranged at the outer sides of the bottom ends of the two feeding pipes, the edges of the two rotary discs are respectively fixed with a synchronous gear, the upper parts of the two synchronous gears are respectively engaged with and provided with a driving gear, the two driving gears are movably arranged in the inner wall of the device shell and axially penetrate through and are fixedly provided with a synchronous shaft lever, and the end parts of the two synchronous shaft levers, which are close to each other, are respectively fixed with a transmission bevel gear;

the driving bevel gears are installed in the middle of the two driving bevel gears in a meshed mode, the driving motor is installed above the driving bevel gears, the driving motor is fixed inside the device shell, the end portion of an output shaft is connected with the driving bevel gears, one side surface of the rotating disc is fixedly provided with a first smashing cutter mesh, one side surface of the rotating disc is fixedly provided with a second smashing cutter mesh, the first smashing cutter mesh is located on the outer side of the second smashing cutter mesh, and an auxiliary smashing module is arranged below the first smashing cutter mesh and the second smashing cutter mesh.

Preferably, the first crushing cutter mesh and the second crushing cutter mesh are respectively formed by a plurality of cutter bars, the cutter bars forming the first crushing cutter mesh and the second crushing cutter mesh are distributed around the axis circular arrays of the two rotating discs, the cutter bars are spiral, and the spiral directions of the cutter bars forming the first crushing cutter mesh and the cutter bars forming the second crushing cutter mesh are completely opposite.

Preferably, the bottom surface of inlet pipe is provided with a plurality of circular array distribution's stopper, the stopper is located the rotary disk both sides in inlet pipe bottom outside.

Preferably, the auxiliary crushing module comprises a plurality of crushing rings which are distributed up and down, an auxiliary crushing cutter mesh is fixed on the inner side of the crushing rings, an auxiliary gear ring is rotatably clamped in the inner wall of the crushing discharging bin and fixed on the outer surface of the crushing rings, an auxiliary transmission gear is installed on one side of the auxiliary gear ring in a meshed mode, a third transmission rotating shaft is fixedly penetrated through the axis of the auxiliary transmission gear, a conversion bevel gear is fixed on the outer side of the bottom end of the third transmission rotating shaft, an auxiliary bevel gear is installed on one side of the conversion bevel gear in a meshed mode, a second transmission rotating shaft is fixed on one end of the auxiliary bevel gear, a synchronous pulley is fixed on the outer side of the other end of the second transmission rotating shaft, an auxiliary pulley is installed above the synchronous pulley, a first transmission rotating shaft is fixedly penetrated through the axial direction of the auxiliary pulley, one end of the first transmission rotating shaft is located below the synchronous gear, an auxiliary gear is fixedly arranged on the end of the auxiliary gear, and the auxiliary gear is meshed with the synchronous gear located above the synchronous gear.

Preferably, the outside of the synchronous belt pulley and the auxiliary belt pulley positioned right above the synchronous belt pulley is sleeved with a transmission belt, and the synchronous belt pulley and the auxiliary belt pulley are transmitted through the transmission belt.

Preferably, the auxiliary crushing cutter net comprises three layers of combined cutters which are distributed at equal intervals up and down, the combined cutters comprise a plurality of blades, the blades are distributed around the circular array of the circle center of the crushing ring, the cutter tips are in contact with each other, and the directions of the cutting edges of the blades on the inner sides of the upper adjacent auxiliary crushing cutter net and the lower adjacent auxiliary crushing cutter net are completely opposite.

Preferably, the middle of the preliminary crushing bin is provided with a V-shaped bulge, and the top end of the V-shaped bulge is a round corner.

Preferably, the inner side of the top end of the crushing discharging bin is slidably provided with a pressing piston, an electric telescopic rod is mounted on the upper surface of the pressing piston, and the electric telescopic rod is fixed inside the device shell.

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

1. according to the invention, the first crushing cutter net and the second crushing cutter net which are formed by a plurality of spiral cutter bar circular arrays are utilized, the spiral directions and the rotation directions of the first crushing cutter net and the second crushing cutter net are opposite, so that the solid waste can be sheared and crushed well, the crushed particles are more uniform, and plastic and rubber solid waste can be cut without omission, and the working efficiency is effectively improved;

2. according to the invention, the multi-layer auxiliary crushing cutter nets capable of synchronously rotating are additionally arranged below the first crushing cutter net and the second crushing cutter net, and the directions of the blade edges in the upper and lower adjacent auxiliary crushing cutter nets are opposite to the rotating directions, so that the primarily crushed solid wastes can be secondarily crushed, the crushing of the solid wastes is more uniform and finer, secondary or multiple crushing is not needed, the operation time is shortened, and the working efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the device housing of the present invention;

FIG. 3 is a schematic view of the pulverizing module according to the present invention;

FIG. 4 is an enlarged view of a partial structure of the pulverizing module of the present invention;

FIG. 5 is a schematic view of the structure of the first crushing cutter wire of the present invention;

FIG. 6 is a schematic view of a partial structure of an auxiliary crushing module according to the present invention;

fig. 7 is a schematic structural view of an auxiliary crushing cutter net according to the present invention.

In the figure: 1. a device housing; 2. a feed hopper; 3. a feed pipe; 4. crushing and discharging a storage bin; 5. a crushing module; 501. a driving motor; 502. a synchronizing shaft; 503. a drive gear; 504. a synchronizing gear; 505. a rotating disc; 506. a first comminuting blade web; 507. a second comminuting blade web; 508. driving a bevel gear; 509. a drive bevel gear; 6. an auxiliary crushing module; 601. an auxiliary gear; 602. an auxiliary pulley; 603. a first transmission shaft; 604. a drive belt; 605. a pulverizing ring; 606. an auxiliary crushing knife net; 607. a synchronous pulley; 608. a second transmission shaft; 609. an auxiliary bevel gear; 610. a conversion bevel gear; 611. a third transmission shaft; 612. an auxiliary transmission gear; 613. an auxiliary gear ring; 7. a preliminary crushing bin; 8. a scrap conveying passage; 9. pressing down the piston; 10. an electric telescopic rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The drive motor (model 130 ST-M15025) and the electric telescopic rod (model ZWMD 0030) mentioned in the present invention are available from market purchase or private customization.

As shown in fig. 1-5: the utility model provides a cement kiln solid waste treatment device and application method thereof, including device casing 1, device casing 1's top is equipped with two feed hopper 2, and the bottom of two feed hopper 2 all is fixed with inlet pipe 3, and device casing 1's inside is equipped with preliminary crushing storehouse 7, and preliminary crushing storehouse 7's below is equipped with crushing play feed bin 4, and crushing play feed bin 4 has offered two symmetrical distribution's crushed aggregates conveying channel 8 with preliminary crushing storehouse 7's centre, and the top of device casing 1 is all run through to two inlet pipe 3's bottom and extends to preliminary crushing storehouse 7 inside.

The crushing module 5 is installed to the inboard of preliminary crushing storehouse 7, crushing module 5 includes two rotary disks 505, two rotary disks 505 are rotatory to be installed respectively in the bottom outside of two inlet pipes 3, the edge of two rotary disks 505 all is fixed with synchronizing gear 504, drive gear 503 is all installed to the top of two synchronizing gear 504 meshing, two drive gear 503 movable mounting just runs through in the inner wall of device casing 1 and is fixed with synchronizing shaft rod 502 axially, the tip that two synchronizing shaft rods 502 are close to each other all is fixed with transmission bevel gear 509.

The driving bevel gears 508 are installed in a meshed manner in the middle of the two transmission bevel gears 509, the driving motor 501 is installed above the driving bevel gears 508, the driving motor 501 is fixed in the device shell 1, the end of an output shaft is connected with the driving bevel gears 508, a first crushing cutter net 506 is fixed on one side surface of one rotary disk 505, a second crushing cutter net 507 is fixed on one side surface of the other rotary disk 505, the first crushing cutter net 506 is positioned on the outer side of the second crushing cutter net 507, an auxiliary crushing module 6 is arranged below the first crushing cutter net 506 and the second crushing cutter net 507, the first crushing cutter net 506 and the second crushing cutter net 507 are utilized to do high-speed circular motion with opposite rotation directions, and when solid waste slides out from the bottom end of the feed pipe 3 and falls down through gaps of the first crushing cutter net 506 and the second crushing cutter net 507, the crushing operation can be completed on the material, and soft solid waste such as plastic, rubber and the like can be fully crushed.

The first crushing cutter mesh 506 and the second crushing cutter mesh 507 are respectively formed by a plurality of cutter bars, the cutter bars forming the first crushing cutter mesh 506 and the second crushing cutter mesh 507 are distributed around the circular arrays of the axes of the two rotating discs 505, the cutter bars are spiral, the spiral directions of the cutter bars forming the first crushing cutter mesh 506 and the cutter bars forming the second crushing cutter mesh 507 are completely opposite, the first crushing cutter mesh 506 and the second crushing cutter mesh 507 formed by the spiral cutter bars are staggered inside and outside to form a cylindrical cutter mesh, the spiral directions of the first crushing cutter mesh 506 and the second crushing cutter mesh 507 are opposite, and when the first crushing cutter mesh 506 and the second crushing cutter mesh 507 rotate, substances passing through gaps between the first crushing cutter mesh 506 and the second crushing cutter mesh 507 are sheared and crushed, and the crushed particles are uniform in size.

The stopper that a plurality of circular arrays distributed is provided with to the bottom surface of inlet pipe 3, and the stopper is located the rotary disk 505 both sides in the inlet pipe 3 bottom outside, can guarantee that rotary disk 505 can not appear the position and remove along its self axis direction when the rotary disk 505 is rotatory in inlet pipe 3 bottom.

The inside of top of smashing out feed bin 4 slides and is equipped with pushes down piston 9, pushes down piston 9's upper surface mounting has electric telescopic handle 10, and electric telescopic handle 10 is fixed inside device casing 1, can push down piston 9 downwards through electric telescopic handle 10 for push down piston 9 extrudees the solid waste that gets into smashing out feed bin 4, makes the better crushing ring 605 and the supplementary crushing cutter wire 606 of passing in rotatory of solid waste.

The middle of the preliminary crushing bin 7 is provided with a V-shaped bulge, the top end of the V-shaped bulge is a round angle, and solid waste which slides into the preliminary crushing bin 7 from the feeding pipe 3 and is crushed is guided, so that the crushed solid waste smoothly enters the crushed aggregate conveying channel 8 and is scratched into the crushing discharging bin 4.

As shown in fig. 3, fig. 6 and fig. 7, the auxiliary crushing module 6 includes a plurality of crushing rings 605 distributed up and down, the inboard of crushing rings 605 is fixed with auxiliary crushing cutter net 606, crushing rings 605 rotary joint is in the inner wall of crushing feed bin 4 and the surface is fixed with auxiliary gear ring 613, auxiliary transmission gear 612 is installed to one side meshing of auxiliary gear ring 613, the axis of auxiliary transmission gear 612 runs through and is fixed with third transmission pivot 611, the bottom outside of third transmission pivot 611 is fixed with conversion bevel gear 610, auxiliary bevel gear 609 is installed to one side meshing of conversion bevel gear 610, one end of auxiliary bevel gear 609 is fixed with second transmission pivot 608, the other end outside of second transmission pivot 608 is fixed with synchronizing pulley 607, auxiliary pulley 602 is installed to the top of synchronizing pulley 607, auxiliary pulley 602 axial run through is fixed with first transmission pivot 603, one end of first transmission pivot 603 is located the below synchronizing gear 504 and the tip is fixed with auxiliary gear 601, auxiliary gear 601 meshes with synchronizing gear 504 that is located its top, grind cutter net 506 and second crushing cutter net 507 rotate and smash the material, a plurality of rings are rotated simultaneously, the first crushing cutter net 506 and the second crushing cutter net 507 are evenly distributed, the second crushing cutter net is smashed the material is more evenly, and the second crushing material is crushed.

The synchronous pulley 607 and the auxiliary pulley 602 located right above the synchronous pulley 607 are sleeved with a driving belt 604, the synchronous pulley 607 and the auxiliary pulley 602 are driven by the driving belt 604, the auxiliary crushing cutter net 606 comprises three layers of combined cutters which are distributed at equal intervals up and down, the combined cutters comprise a plurality of blades, the blades are distributed around the circular array of the circle center of the crushing ring 605, the cutter tips are mutually contacted, the directions of the blades on the inner sides of the two upper and lower adjacent auxiliary crushing cutter nets 606 are completely opposite, the auxiliary crushing cutter nets 606 are formed by a plurality of circular arrays of the blades, the directions of the blades on the inner sides of the upper and lower adjacent crushing rings 605 are opposite, and when the upper and lower adjacent crushing rings 605 rotate, waste passing through the middle of the crushing ring 605 can be crushed, so that the solid waste is crushed more finely.

When the solid waste entering the cement kiln is treated by the solid waste treatment device, firstly, a device power supply is connected, after the power supply is connected, a worker adds the solid waste to be treated into the feeding funnel 2, the solid waste enters the feeding pipe 3 along the feeding funnel 2 and slides into the middle of the two rotating disks 505, at the moment, the driving motor 501 is electrified and drives the driving bevel gears 508 to rotate at a high speed, the driving bevel gears 508 can drive the two transmission bevel gears 509 engaged with the driving bevel gears to synchronously rotate when rotating, the rotating directions of the two transmission bevel gears 509 are opposite, the two synchronous shaft rods 502 drive the two driving gears 503 and the synchronous gears 504 engaged with the driving gears 503 to synchronously rotate, at the moment, the two rotating disks respectively drive the first crushing cutter net 506 and the second crushing cutter net 507 to do high-speed circular motion with opposite rotation directions, the solid waste can fall downwards due to gravity after entering the two rotating disks 505, the first crushing cutter net 506 and the second crushing cutter net 507 in the middle of the rotating, the first crushing cutter net 506 and the second crushing cutter net 507 rotating at the high speed can cut the penetrated solid waste, soft solid waste can be crushed smoothly, and the solid waste can be crushed evenly, and the solid waste can be crushed completely;

the crushed waste enters the crushing discharging bin 4 along the crushed material conveying channel 8, the waste entering the crushing discharging bin 4 continuously slides downwards, in the process that the waste falls downwards, the rotating synchronous gear 504 drives the auxiliary gear 601 meshed with the waste to rotate, the auxiliary gear 601 drives the auxiliary pulley 602 and the synchronous pulley 607 to synchronously rotate through the first transmission rotating shaft 603, the synchronous pulley 607 drives the second transmission rotating shaft 608 to rotate, the auxiliary bevel gear 609 drives the conversion bevel gear 610, the third transmission rotating shaft 611 and the auxiliary transmission gear 612 to synchronously rotate, the auxiliary transmission gear 612 drives the auxiliary gear ring 613 meshed with the auxiliary transmission gear 612 to synchronously rotate, the crushing ring 605 and the auxiliary crushing cutter net 606 synchronously rotate, and because the rotating directions of the two rotating disks 505 are opposite, the rotating directions of the adjacent crushing rings 605 are also opposite at the moment, the waste after preliminary crushing passes through the middle of the adjacent crushing rings 605 rotating in opposite directions, the waste is crushed for the second time by the auxiliary crushing cutter net 606 at the inner side of the adjacent crushing ring 605, so that the waste is crushed thoroughly, the waste is crushed without repeated crushing, the crushing time is shortened, and the working efficiency is effectively improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a cement kiln solid waste treatment device, includes device casing (1), its characterized in that: the device comprises a device shell (1), and is characterized in that two feeding hoppers (2) are arranged above the device shell (1), feeding pipes (3) are fixed at the bottom ends of the two feeding hoppers (2), a preliminary crushing bin (7) is arranged inside the device shell (1), a crushing discharging bin (4) is arranged below the preliminary crushing bin (7), two symmetrically distributed crushed aggregates conveying channels (8) are formed between the crushing discharging bin (4) and the preliminary crushing bin (7), and the bottom ends of the two feeding pipes (3) penetrate through the top end of the device shell (1) and extend into the preliminary crushing bin (7); the inner side of the preliminary crushing bin (7) is provided with a crushing module (5), the crushing module (5) comprises two rotary discs (505), the two rotary discs (505) are respectively rotatably arranged at the outer sides of the bottom ends of the two feeding pipes (3), the edges of the two rotary discs (505) are respectively fixed with a synchronous gear (504), the upper parts of the two synchronous gears (504) are respectively meshed with a driving gear (503), the two driving gears (503) are movably arranged in the inner wall of the device shell (1) and axially penetrate and are fixedly provided with a synchronous shaft lever (502), and the end parts of the two synchronous shaft levers (502) close to each other are respectively fixedly provided with a transmission bevel gear (509); the middle meshing of two transmission bevel gears (509) is installed drive bevel gear (508), driving motor (501) is installed to driving bevel gear (508)'s top, driving motor (501) is fixed in the inside of device casing (1) and output shaft tip and driving bevel gear (508) are connected, one of them one side fixed surface of rotary disk (505) has first crushing cutter mesh (506), another one side fixed surface of rotary disk (505) has second crushing cutter mesh (507), first crushing cutter mesh (506) are located the outside of second crushing cutter mesh (507), the below of first crushing cutter mesh (506) and second crushing cutter mesh (507) is equipped with supplementary crushing module (6).

2. The cement kiln solid waste treatment device according to claim 1, wherein: the first crushing cutter mesh (506) and the second crushing cutter mesh (507) are respectively formed by a plurality of cutter bars, and the cutter bars forming the first crushing cutter mesh (506) and the second crushing cutter mesh (507) are distributed in a circular array around the axes of the two rotating discs (505).

3. The cement kiln solid waste treatment device according to claim 2, wherein: the cutter bars are spiral, and the spiral directions of the cutter bars forming the first crushing cutter mesh (506) and the cutter bars forming the second crushing cutter mesh (507) are completely opposite.

4. The cement kiln solid waste treatment device according to claim 1, wherein: the outer surface of the bottom end of the feeding pipe (3) is provided with a plurality of circular array distributed limiting blocks, and the limiting blocks are positioned on two sides of a rotating disc (505) outside the bottom end of the feeding pipe (3).

5. The cement kiln solid waste treatment device according to claim 1, wherein: the utility model provides an auxiliary crushing module (6) includes a plurality of crushing rings (605) that distribute from top to bottom, the inboard of crushing ring (605) is fixed with supplementary crushing sword net (606), rotatory joint of crushing ring (605) is in the inner wall of crushing play feed bin (4) and the surface is fixed with supplementary gear ring (613), supplementary transmission gear (612) are installed in the one side meshing of supplementary gear ring (613), the axis of supplementary transmission gear (612) runs through and is fixed with third transmission pivot (611), the bottom outside of third transmission pivot (611) is fixed with conversion bevel gear (610), auxiliary bevel gear (609) are installed in one side meshing of conversion bevel gear (610), the one end of auxiliary bevel gear (609) is fixed with second transmission pivot (608), supplementary pulley (607) are fixed with in the other end outside of second transmission pivot (608), supplementary pulley (602) are installed to the top of synchronous pulley (607), the axial of supplementary pulley (602) runs through and is fixed with first transmission pivot (603), the one end of first transmission pivot (603) is located below synchronous gear (504) and is located supplementary gear (601) and is located its top.

6. The cement kiln solid waste treatment device according to claim 5, wherein: the outside of the synchronous belt pulley (607) and the auxiliary belt pulley (602) which is positioned right above the synchronous belt pulley is sleeved with a transmission belt (604), and the synchronous belt pulley (607) and the auxiliary belt pulley (602) are transmitted through the transmission belt (604).

7. The cement kiln solid waste treatment device according to claim 5, wherein: the auxiliary crushing cutter net (606) comprises three layers of combined cutters which are distributed at equal intervals up and down, the combined cutters comprise a plurality of blades, the blades are distributed around the circle center of the crushing ring (605) in a circular array, and the cutter points are in contact with each other.

8. The cement kiln solid waste treatment device according to claim 7, wherein: the blade edges of the blades inside the two upper and lower adjacent auxiliary crushing blade nets (606) are completely opposite.

9. The cement kiln solid waste treatment device according to claim 1, wherein: the middle of the preliminary crushing bin (7) is provided with a V-shaped bulge, and the top end of the V-shaped bulge is a round corner.

10. The cement kiln solid waste treatment device according to claim 1, wherein: the inside of top of smashing out feed bin (4) slides and is equipped with pushes down piston (9), the upper surface of pushing down piston (9) installs electric telescopic handle (10), electric telescopic handle (10) are fixed inside device casing (1).