CN111889491A

CN111889491A - High-efficient multi-functional useless processing apparatus admittedly

Info

Publication number: CN111889491A
Application number: CN202010785398.XA
Authority: CN
Inventors: 陈佑华; 孙玉浩; 郭宇竹
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2020-11-06

Abstract

The invention relates to the field of solid waste treatment, in particular to a high-efficiency multifunctional solid waste treatment device which comprises a first conveying mechanism, a scraping and sweeping mechanism, a filtrate mechanism, a lifting and feeding mechanism, a crushing mechanism and a screening mechanism, wherein the filtrate mechanism is arranged on the side part of the first conveying mechanism and is close to the output end of the first conveying mechanism and is used for conveying solid waste garbage and filtering out residual waste liquid in the solid waste garbage, the screening mechanism is arranged on the side part of the crushing mechanism and is close to the output end of the crushing mechanism and is used for screening the solid waste garbage according to the volume, the invention filters out the residual waste liquid in the solid waste garbage while conveying the solid waste garbage to the lifting and feeding mechanism through the filtrate mechanism, the screening mechanism is used for screening the solid waste garbage according to the volume and can adjust the aperture when screening holes are used for screening, and different treatment means can be adopted for the solid waste garbage with different volumes, saving a large amount of social resources.

Description

High-efficient multi-functional useless processing apparatus admittedly

Technical Field

The invention relates to the field of solid waste treatment, in particular to a high-efficiency multifunctional solid waste treatment device.

Background

The municipal domestic waste is mainly from general waste generated in the aspects of daily life and consumption of urban residents, including commercial and entertainment consumption activities, urban landscaping and leaf dropping, municipal construction and maintenance and the like, and also comprises solid substances such as human and animal excrement, kitchen waste, sludge for sewage treatment, residue and dust for garbage collection and treatment and the like. At present, the main treatment methods for municipal solid waste include the following methods:

1. landfill treatment, which is a common garbage treatment mode and a final disposal mode of solid residues which cannot be treated by other treatment modes, is wide in national soil area in China;

2. incineration, which is a high-temperature heat treatment method, is a treatment method that a certain amount of excess air and treated organic waste are oxidized and combusted in an incinerator to become inert residues, and is the most thorough treatment technology;

3. composting, which is a biostabilization process in which organic-containing waste is subjected to controlled conditions, and can achieve the reuse of waste.

Wherein before incineration disposal, the solid waste needs to be crushed, so that the solid waste can be incinerated later.

Chinese patent CN201610453184.6 discloses a distributed environment-friendly organic solid waste treatment method and system, which comprises the treatment of dry organic solid waste and wet organic solid waste, and specifically comprises: sorting, coarsely crushing and finely crushing dry organic solid wastes to prepare the refuse-derived fuel rods; and coarsely crushing, dehydrating, drying and finely crushing the wet organic solid waste to prepare the refuse-derived fuel rod; wherein, the dehydrated water is subjected to anaerobic fermentation, the biogas generated by fermentation is used for generating electricity by a biogas generator set, and the generated electric energy is used for electric energy consumption in the processes of sorting, dehydrating, drying, coarse crushing and fine crushing. The distributed environment-friendly organic solid waste treatment method and system provided by the patent can effectively utilize organic solid waste to produce the garbage fuel rods which can be used as carbonized materials, no three wastes are generated in the whole production process, the tail gas of the unit also reaches the national emission standard,

however, when the device is used, the removal effect of the device on the waste liquid in the solid waste garbage is poor, the content of the waste liquid in the solid waste garbage is high, the subsequent incineration treatment is not facilitated, and the practicability is low; and the crushing effect of the solid waste is poor, so that the use reliability is low.

Disclosure of Invention

For solving above-mentioned technical problem, a high-efficient multi-functional useless processing apparatus admittedly is provided, the relatively poor problem of effect of getting rid of the waste liquid in the useless rubbish admittedly of current useless processing apparatus admittedly has been solved to this technical scheme, this processing apparatus passes through filtrating mechanism and when carrying useless rubbish admittedly to promotion feeding mechanism, filter out remaining waste liquid in the useless rubbish admittedly, screening mechanism is used for screening useless rubbish admittedly according to the volume, and can adjust the aperture when screening the hole screening, the useless rubbish admittedly of different volumes can adopt different treatment methods afterwards, a large amount of social resources have been saved.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides a high-efficient multi-functional useless processing apparatus admittedly, sweep mechanism, filtrating mechanism, promotion feeding mechanism, rubbing crusher constructs and screening mechanism including first conveying mechanism, scraping, wherein:

the first conveying mechanism is used for conveying solid waste garbage;

the filtrate mechanism is arranged on the side part of the first conveying mechanism, is close to the output end of the first conveying mechanism, and is used for conveying solid waste garbage and filtering out waste liquid remained in the solid waste garbage;

the scraping and sweeping mechanism is arranged between the first conveying mechanism and the filtrate mechanism and used for connecting the first conveying mechanism and the filtrate mechanism, the input end of the scraping and sweeping mechanism is connected with the output end of the first conveying mechanism, and the output end of the scraping and sweeping mechanism is connected with the input end of the filtrate mechanism and used for transferring the solid waste on the first conveying mechanism to the filtrate mechanism;

the crushing mechanism is arranged on the side part of the filtrate mechanism, is close to the output end of the filtrate mechanism, and is used for executing a crushing process of solid waste garbage;

the lifting and feeding mechanism is arranged between the filtrate mechanism and the crushing mechanism and used for connecting the filtrate mechanism and the crushing mechanism, the output end of the lifting and feeding mechanism is connected with the output end of the filtrate mechanism, and the output end of the lifting and feeding mechanism can be connected with the input end of the crushing mechanism and used for receiving the solid waste garbage conveyed by the filtrate mechanism and lifting the solid waste garbage to the input end of the crushing mechanism;

screening mechanism sets up in rubbing crusher structure's lateral part, and is close to rubbing crusher structure's output setting for filter the solid useless rubbish according to the volume.

Optionally, filtrating mechanism includes base, conveyer belt, carries driving motor and first drive belt, the lateral part that first conveying mechanism level set up is equipped with the base is equipped with the conveyer belt that the tilt up set up in the base, and the low level and the first conveying mechanism looks parallel and level of conveyer belt are equipped with a plurality of filtrating holes on the conveyer belt, and the lateral part of base is equipped with carry driving motor, carry driving motor's output shaft to pass through first drive belt drive base rotates.

Optionally, the scraping and sweeping mechanism comprises a support frame, a rotating shaft, two mounting frames, a first shifting plate, a second transmission belt, a first transmission shaft, a third transmission belt, a second transmission shaft, a first bevel gear and a second bevel gear, wherein the two support frames are symmetrically arranged on the base, the support frame is arranged close to the input end of the conveying belt, one end of the support frame, far away from the base, is rotatably connected with the rotating shaft, the plurality of mounting frames are arranged on the rotating shaft, the mounting frames are distributed along the circumference of the axis of the rotating shaft, the first shifting plate is arranged on the mounting frames, the output shaft of the conveying driving motor is also in transmission connection with the second transmission belt, the other end of the second transmission belt is in transmission connection with the first transmission shaft, the first transmission shaft is rotatably connected with the base, the first transmission shaft is in transmission connection with the second transmission shaft through, the first bevel gears are coaxially arranged at the two ends of the second transmission shaft, the second bevel gears are coaxially arranged at the end part of one end of the rotating shaft and are in one-to-one correspondence with the first bevel gears, and the second bevel gears are meshed with the first bevel gears.

Optionally, promote feeding mechanism and include lifting machine, lifter plate, loading case, chamber door and chamber door switch driving motor, the lifting machine sets up the lateral part at the conveyer belt, and the output sliding connection of lifting machine has the lifter plate, lifter plate are the level setting, are equipped with on the lifter plate the loading case, the top of loading the case is equipped with the pan feeding mouth, and the interior bottom surface slope of loading case sets up, and the one end that the loading incasement bottom surface is close to the conveyer belt sets up higher than the one end of keeping away from the conveyer belt, and the one end terminal surface that the conveyer belt was kept away from to the loading case articulates there is the chamber door, and the lateral part of loading case is equipped with chamber door switch driving motor.

Optionally, the loading box is provided with a plurality of air holes, the lateral part of the loading box is also provided with a drying box, and the drying box is communicated with the inside of the loading box.

Optionally, a feeding driving motor is arranged at the top of the elevator, an output shaft of the feeding driving motor is in transmission connection with the feeding roller, a plurality of second shifting plates are arranged on the feeding roller, and the second shifting plates are distributed along the circumference of the axis of the feeding roller.

Optionally, the second is dialled the board and is set up to the type, and the second is dialled the board and is included first straight board and second straight board, first straight board with the second straight board sets up perpendicularly, and the one end and the feeding roller of first straight board are connected, and the other end and the second straight board of first straight board are connected.

Optionally, rubbing crusher constructs including smashing the box, smashing blade disc and transition slide, the top of smashing the box is equipped with crushing entry, the slope of transition slide sets up, and transition slide's high-order and the low phase parallel and level of loading incasement bottom surface under rising to highest position state are equipped with in pairs in the rubbing crusher box smashes the blade disc.

Optionally, the screening mechanism comprises a first box body, a second box body, a transmission driving motor, a spiral stirring shaft, a screening box body, screening holes, a blanking slideway and an aperture adjusting component, wherein a feeding port is arranged at the top end of the first box body, the feeding port is positioned at the bottom end of the crushing box body and is communicated with the output end of the crushing box body, the bottom end of the second box body is communicated with the second box body, at least one transmission driving motor is arranged at the side part of the second box body, the output shaft of the transmission driving motor is in transmission connection with one spiral stirring shaft, the spiral stirring shafts are rotatably connected inside the second box body and are arranged in parallel with each other, the first box body is arranged at one end of the second box body, the screening box body is arranged at the other end of the second box body, the screening box body is provided with at least two screening sections, and each screening section is, the screening holes are distributed along the axis of the screening box body, the side part of each screening section is provided with one blanking slideway, a certain distance is reserved between every two adjacent screening sections, each screening section is provided with one aperture adjusting assembly, the aperture adjusting assemblies are in one-to-one correspondence with the screening sections, and the aperture adjusting assemblies are used for controlling the aperture sizes of the screening box bodies on the corresponding screening sections.

Optionally, the screening box sets up to waist type hole, and aperture adjusting part is equipped with including adjusting driving motor, driving gear, rack, arc board, connecting plate and shielding plate in the bottom of screening box adjusting driving motor, adjusting driving motor's output shaft transmission is connected with the driving gear, the lateral part of driving gear is equipped with rack, rack and screening box sliding connection are equipped with a plurality of circles on the rack the arc board passes through between the arc board the connecting plate is connected, is equipped with a plurality of on the connecting plate the shielding plate, shielding plate and screening box phase-match.

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

the solid waste garbage screening machine is provided with a scraping and sweeping mechanism, the scraping and sweeping mechanism is positioned between a first conveying mechanism and a filtrate mechanism and is used for connecting the first conveying mechanism and the filtrate mechanism, solid waste garbage on the first conveying mechanism is transferred to the filtrate mechanism, the filtrate mechanism filters residual waste liquid in the solid waste garbage while conveying the solid waste garbage to a lifting and feeding mechanism, the lifting and feeding mechanism transfers the solid waste dehydrated on the filtrate mechanism into a crushing mechanism, the crushing mechanism performs a crushing process after executing, the screening mechanism is used for screening the solid waste garbage according to the volume and can adjust the aperture of screening holes, solid waste garbage with different volumes can adopt different treatment means later, for example, part of the solid waste garbage can be converted into high-quality organic fertilizer, the production and the use of most of inorganic fertilizer can be replaced, and the pollution of organic solid waste can be eliminated, but also can reduce the surface pollution caused by applying a large amount of chemical fertilizers, and part of solid waste is directly used for burning power generation, thereby saving a large amount of social resources.

Drawings

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

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the structure of the scraping mechanism and the filtrate mechanism of the present invention;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is an enlarged schematic view at B in FIG. 3;

FIG. 6 is a first schematic structural view of a lifting and feeding mechanism according to the present invention;

FIG. 7 is a second schematic structural view of the lifting and feeding mechanism of the present invention;

FIG. 8 is a schematic view of the structure of the crushing mechanism according to the present invention;

FIG. 9 is a side view of the present invention at the screening mechanism;

FIG. 10 is a first schematic view of the screening mechanism of the present invention;

FIG. 11 is a second schematic structural view of a screening mechanism according to the present invention.

Description of reference numerals:

1-a first conveying mechanism;

2-a sweeping mechanism; 2 a-a support frame; 2 b-a rotating shaft; 2 c-a mounting frame; 2 d-a first paddle; 2 e-a second drive belt; 2 f-a first drive shaft; 2 g-a third drive belt; 2 h-a second transmission shaft; 2 i-a first bevel gear; 2 j-second bevel gear;

3-a filtrate mechanism; 3 a-a base; 3 b-a conveyor belt; 3b 1-filtrate well; 3 c-a transport drive motor; 3 d-a first drive belt;

4-lifting the feeding mechanism; 4 a-a hoist; 4 b-a lifter plate; 4 c-a loading bin; 4c 1-vent; 4 d-a box door; 4 e-a door switch drive motor; 4 f-drying box; 4 g-a feeding driving motor; 4 h-a feeding roller; 4 i-a second dial plate;

5-a crushing mechanism; 5 a-a crushing box body; 5a 1-crushing inlet; 5 b-a crushing cutter head; 5 c-a transition chute;

6-screening mechanism; 6 a-a first box; 6a 1-inlet; 6 b-a second box; 6 c-driving the drive motor; 6 d-spiral stirring shaft; 6 e-screening box body; 6 f-screening wells; 6 g-a blanking slideway; 6 h-aperture adjusting component; 6h 1-adjusting the drive motor; 6h 2-drive gear; 6h 3-rack; 6h 4-arc plate; 6h 5-web; 6h 6-shutter.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 and 2, the processing apparatus includes a first conveying mechanism 1, a scraping mechanism 2, a filtrate mechanism 3, a lifting and feeding mechanism 4, a crushing mechanism 5, and a screening mechanism 6, wherein:

the first conveying mechanism 1 is used for conveying solid waste garbage;

the filtrate mechanism 3 is arranged on the side part of the first conveying mechanism 1, is close to the output end of the first conveying mechanism 1, and is used for conveying solid waste garbage and filtering out residual waste liquid in the solid waste garbage;

the scraping and sweeping mechanism 2 is arranged between the first conveying mechanism 1 and the filtrate mechanism 3 and is used for connecting the first conveying mechanism 1 and the filtrate mechanism 3, the input end of the scraping and sweeping mechanism 2 is connected with the output end of the first conveying mechanism 1, and the output end of the scraping and sweeping mechanism 2 is connected with the input end of the filtrate mechanism 3 and is used for transferring the solid waste garbage on the first conveying mechanism 1 to the filtrate mechanism 3;

the crushing mechanism 5 is arranged on the side part of the filtrate mechanism 3, is close to the output end of the filtrate mechanism 3, and is used for executing a crushing process of solid waste garbage;

the lifting and feeding mechanism 4 is arranged between the filtrate mechanism 3 and the crushing mechanism 5 and is used for connecting the filtrate mechanism 3 and the crushing mechanism 5, the output end of the lifting and feeding mechanism 4 is connected with the output end of the filtrate mechanism 3, the output end of the lifting and feeding mechanism 4 can be connected with the input end of the crushing mechanism 5 and is used for receiving the solid waste garbage conveyed by the filtrate mechanism 3 and lifting the solid waste garbage to the input end of the crushing mechanism 5, the solid waste dehydrated on the filtrate mechanism 3 is transferred into the crushing mechanism 5, and the subsequent crushing process is executed;

screening mechanism 6, set up the lateral part at rubbing crusher structure 5, and be close to the output setting of rubbing crusher structure 5, be used for according to the volume to solid useless rubbish screening, the solid useless rubbish of different volumes can adopt different treatment means afterwards, for example, part solid useless rubbish can be turned into high-quality organic fertilizer with it, can replace the production and the use of most inorganic chemical fertilizers, both can eliminate the pollution of organic solid useless thing itself, can alleviate the face pollution that causes because of using chemical fertilizer in a large number again, part solid useless rubbish is directly used for burning the electricity generation, can save a large amount of social resources.

Referring to fig. 3, the filtrate mechanism 3 includes a base 3a, a conveyor belt 3b, a conveying driving motor 3c and a first transmission belt 3d, the first conveying mechanism 1 is horizontally disposed, the side portion of the first conveying mechanism is provided with the base 3a, the conveyor belt 3b which is disposed in the base 3a and is inclined upward is disposed in the base, the lower position of the conveyor belt 3b is flush with the first conveying mechanism 1, the conveyor belt 3b is provided with a plurality of filtrate holes 3b1, the side portion of the base 3a is provided with the conveying driving motor 3c, and an output shaft of the conveying driving motor 3c drives the base 3a to rotate through the first transmission belt 3 d.

When carrying driving motor 3c during operation, rotate through first drive belt 3d drive conveyer belt 3b, when solid useless rubbish carries on conveyer belt 3b, just can continuously carry solid useless rubbish, be equipped with on conveyer belt 3b and be used for filtering out the filtrating hole 3b1 who remains the waste liquid in the solid useless rubbish, when conveyer belt 3b continuously carries solid useless rubbish promptly, can also carry out the dehydration to solid useless rubbish to a certain extent.

Referring to fig. 3, 4, 5, 6 and 7, the sweeping mechanism 2 includes a support frame 2a, a rotating shaft 2b, a mounting frame 2c, a first shifting plate 2d, a second transmission belt 2e, a first transmission shaft 2f, a third transmission belt 2g, a second transmission shaft 2h, a first bevel gear 2i and a second bevel gear 2j, two support frames 2a are symmetrically disposed on a base 3a, the support frames 2a are disposed near an input end of the transmission belt 3b, one end of the support frames 2a far from the base 3a is rotatably connected with the rotating shaft 2b, the rotating shaft 2b is provided with a plurality of mounting frames 2c, the mounting frames 2c are circumferentially distributed along an axis of the rotating shaft 2b, the mounting frames 2c are provided with a first shifting plate 2d, an output shaft of a transmission driving motor 3c is also in transmission connection with the second transmission belt 2e, the other end of the second transmission belt 2e is in transmission connection with the first, first transmission shaft 2f rotates with base 3a to be connected, first transmission shaft 2f is connected with second transmission shaft 2h through the transmission of third driving belt 2g, second transmission shaft 2h erects the top at two support frames 2a, the both ends of second transmission shaft 2h all are coaxial to be equipped with first bevel gear 2i, the coaxial second bevel gear 2j that is equipped with of one end tip of pivot 2b, second bevel gear 2j and first bevel gear 2i one-to-one, second bevel gear 2j and first bevel gear 2i meshing.

When the conveying driving motor 3c works, the second driving belt 2e can be driven to rotate, the second driving belt 2e can drive the third driving belt 2g to rotate through the first driving shaft 2f when rotating, when the first driving shaft 2f rotates, the third driving belt 2g is further arranged on the first driving shaft 2f, therefore, the third driving belt 2g can rotate, the third driving belt 2g can drive the second driving shaft 2h to rotate when rotating, the first bevel gears 2i are arranged at the two ends of the second driving shaft 2h, therefore, the first bevel gears 2i can rotate, and the first bevel gears 2i can drive the rotating shafts 2b to rotate through the second bevel gears 2j which are correspondingly meshed. When pivot 2b was rotatory, can drive mounting bracket 2c and the first board 2d of dialling on it and rotate, just so can sweep the input to conveyer belt 3b with the solid useless rubbish of 1 output of first conveying mechanism. In this process, since the rotation of the conveyor belt 3b and each of the rotating shafts 2b is controlled by the conveyor driving motor 3c, the cooperative engagement is realized.

Referring to fig. 6, 7 and 8, the lifting and feeding mechanism 4 includes a lifting machine 4a, a lifting plate 4b, a loading box 4c, a box door 4d and a box door switch driving motor 4e, the lifting machine 4a is disposed on a side portion of the conveying belt 3b, an output end of the lifting machine 4a is slidably connected with the lifting plate 4b, the lifting plate 4b is horizontally disposed, the loading box 4c is disposed on the lifting plate 4b, a feeding port is disposed at a top end of the loading box 4c, an inner bottom surface of the loading box 4c is inclined, one end of the inner bottom surface of the loading box 4c close to the conveying belt 3b is higher than one end of the loading box far away from the conveying belt 3b, a box door 4d is hinged to an end surface of the loading box 4c far away from the conveying belt 3b, the box door switch driving motor 4e is disposed on a side portion of the loading. The top of lifting machine 4a is equipped with pay-off driving motor 4g, and the output shaft transmission of pay-off driving motor 4g is connected with feeding drum 4h, is equipped with a plurality of second on feeding drum 4h and dials board 4i, and the second is dialled board 4i and is followed feeding drum 4 h's axis circumference and distribute. The second is dialled board 4i and is set up to the L type, and the second is dialled board 4i and is included first straight board and the straight board of second, and first straight board and the straight perpendicular setting of second, the one end and the feeding roller 4h of first straight board are connected, and the other end and the straight board of second of first straight board are connected.

When the hoister 4a works, the lifting plate 4b and the loading box 4c are lifted or lowered along the vertical direction, when solid waste garbage conveyed by the conveying belt 3b needs to be received, the loading box 4c is lowered, after the loading box 4c is filled with the solid waste garbage, the loading box 4c is lifted again, the box door switch driving motor 4e is started, the box door 4d is opened by the box door switch driving motor 4e, the feeding driving motor 4g is started, and when the feeding driving motor 4g works, the feeding roller 4h and the second shifting plate 4i are driven to rotate.

In this embodiment, the loading box 4c is provided with a plurality of ventilation holes 4c1, the side portion of the loading box 4c is further provided with a drying box 4f, and the drying box 4f is communicated with the inside of the loading box 4 c. The drying box 4f is used for drying the solid waste garbage contained in the loading box 4c and further removing the waste liquid on the surface of the solid waste garbage.

Referring to fig. 8, the crushing mechanism 5 includes a crushing box 5a, crushing cutter discs 5b and a transition slideway 5c, the top end of the crushing box 5a is provided with a crushing inlet 5a1, the transition slideway 5c is arranged obliquely, the high position of the transition slideway 5c is flush with the low position of the inner bottom surface of the loading box 4c when the transition slideway is lifted to the highest position, and the crushing cutter discs 5b arranged in pairs are arranged in the crushing box 5 a.

The obliquely arranged transition slide way 5c receives the solid waste garbage pulled out from the loading box 4c, the solid waste garbage can enter the crushing box body 5a from the crushing inlet 5a1 along the loading box 4c, and the crushing cutter head 5b crushes the solid waste garbage.

Referring to fig. 9, 10 and 11, the screening mechanism 6 includes a first box 6a, a second box 6b, a driving motor 6c, a spiral agitating shaft 6d, a screening box 6e, a screening hole 6f, a discharging slideway 6g and a hole diameter adjusting assembly 6h, the top of the first box 6a is provided with a feeding port 6a1, the feeding port 6a1 is located at the bottom of the crushing box 5a and is communicated with the output end of the crushing box 5a, the bottom of the second box 6b is communicated with the second box 6b, the side of the second box 6b is provided with at least one driving motor 6c, the output shaft of the driving motor 6c is connected with a spiral agitating shaft 6d, the spiral agitating shafts 6d are rotatably connected inside the second box 6b, the spiral agitating shafts 6d are arranged in parallel to each other, one end of the second box 6b is provided with the first box 6a, the other end of the second box 6b is provided with the screening box 6e, screening box 6e has two at least screening sections, all be equipped with a plurality of screening holes 6f on every screening section, screening holes 6f distributes along the axis of screening box 6e, the lateral part of every screening section all is equipped with a unloading slide 6g, a determining deviation has between the adjacent screening section, all be equipped with an aperture adjusting part 6h on every screening section, aperture adjusting part 6h and screening section one-to-one, aperture adjusting part 6h is used for controlling the aperture size of screening box 6e on the corresponding screening section.

Optionally, the screening box 6e is provided with a kidney-shaped hole, the aperture adjusting assembly 6h comprises an adjusting driving motor 6h1, a driving gear 6h2, a driving gear 6h2, a rack 6h3, an arc plate 6h4, a connecting plate 6h5 and a baffle plate 6h6, the bottom of the screening box 6e is provided with an adjusting driving motor 6h1, an output shaft of the adjusting driving motor 6h1 is connected with the driving gear 6h2, the side portion of the driving gear 6h2 is provided with the rack 6h3, the rack 6h3 is slidably connected with the screening box 6e, the rack 6h3 is provided with a plurality of circles of arc plates 6h4, the arc plates 6h4 are connected through the connecting plate 6h5, the connecting plate 6h5 is provided with a plurality of baffle plates 6h6, and the baffle plate 6h6 is matched with the screening.

Adjust driving motor 6h1 during operation, drive driving gear 6h2 rotates, driving gear 6h2 can drive rack 6h3 rather than the meshing and take place the displacement, arc 6h4, connecting plate 6h5 and shielding plate 6h6 just can take place the displacement with step-by-step this moment, during the displacement of shielding plate 6h6, just can adjust the aperture of screening hole 6f, the realization is to the screening of the solid useless rubbish of different volumes. When solid waste garbage needs to be screened, the aperture of the screening holes 6f closer to the first box 6a is smaller, and the aperture of the screening holes 6f farther from the first box 6a is larger. When the transmission driving motor 6c works, the spiral stirring shaft 6d corresponding to the transmission driving motor is driven to rotate, the dehydrated solid waste garbage is conveyed to the screening box 6e from one end, close to the first box 6a, of the second box 6b, the solid waste garbage is screened in the screening box 6e, and the solid waste garbage slides out from the discharging slideways 6 g.

The working principle of the invention is as follows:

the scraping and sweeping mechanism 2 is arranged, the scraping and sweeping mechanism 2 is positioned between the first conveying mechanism 1 and the filtrate mechanism 3 and is used for connecting the first conveying mechanism 1 and the filtrate mechanism 3, solid waste garbage on the first conveying mechanism 1 is transferred to the filtrate mechanism 3, the filtrate mechanism 3 filters out residual waste liquid in the solid waste garbage while conveying the solid waste garbage to the lifting and feeding mechanism 4, then the lifting and feeding mechanism 4 transfers the solid waste dehydrated on the filtrate mechanism 3 into the crushing mechanism 5, the crushing process after the crushing mechanism 5 executes, the screening mechanism 6 is used for screening the solid waste garbage according to the volume and can adjust the aperture of the screening hole 6f during screening, solid waste garbage with different volumes can adopt different treatment means later, for example, part of the solid waste garbage can be converted into organic fertilizer with high quality, and the production and use of most inorganic fertilizers can be replaced, the method can eliminate the pollution of organic solid wastes and reduce the surface pollution caused by applying a large amount of chemical fertilizers, and part of solid waste is directly used for burning power generation, so that a large amount of social resources can be saved.

The device realizes the functions of the invention through the following steps, thereby solving the technical problems provided by the invention:

step one, solid waste garbage is thrown onto a first conveying mechanism 1, the first conveying mechanism 1 is started, and the first conveying mechanism 1 continuously conveys the solid waste garbage to a scraping and sweeping mechanism 2;

step two, the conveying driving motor 3c is started, when the conveying driving motor 3c works, the second driving belt 2e is driven to rotate, the second driving belt 2e can drive the third driving belt 2g to rotate through the first driving shaft 2f when rotating, the third driving belt 2g can drive the second driving shaft 2h to rotate when rotating, the first bevel gear 2i can rotate, the first bevel gear 2i can drive each rotating shaft 2b to rotate through the corresponding meshed second bevel gear 2j, when the rotating shaft 2b rotates, the mounting frame 2c and the first shifting plate 2d on the rotating shaft can be driven to rotate, and solid waste at the output end of the first conveying mechanism 1 is scraped and swept to the input end of the conveying belt 3 b. The conveying belt 3b is driven to rotate by the first transmission belt 3d, when solid waste garbage is conveyed to the conveying belt 3b, the solid waste garbage can be continuously conveyed, and the conveying belt 3b is provided with a filtrate hole 3b1 for filtering residual waste liquid in the solid waste garbage;

step three, when the elevator 4a works, the lifting plate 4b and the loading box 4c are lifted or lowered along the vertical direction, when solid waste garbage conveyed by the conveying belt 3b needs to be received, the loading box 4c is lowered, after the loading box 4c is filled with the solid waste garbage, the loading box 4c is raised, meanwhile, a box door switch driving motor 4e is started, a box door 4d is opened by the box door switch driving motor 4e, a feeding driving motor 4g is started, and when the feeding driving motor 4g works, the feeding roller 4h and the second shifting plate 4i are driven to rotate to pull out the solid waste garbage in the loading box 4 c;

step four, the transition slide way 5c receives the solid waste garbage pushed out from the loading box 4c, the solid waste garbage can enter the crushing box body 5a from the crushing inlet 5a1 along the loading box 4c, the crushing cutter head 5b crushes the solid waste garbage, and the crushed solid waste garbage enters the first box body 6a from the feeding port 6a 1;

step five, when the driving motor 6c is driven to work, the corresponding spiral stirring shaft 6d is driven to rotate, the dehydrated solid waste garbage is conveyed to the screening box 6e from one end, close to the first box 6a, of the second box 6b, the solid waste garbage is screened in the screening box 6e, and the solid waste garbage slides out from each blanking slide way 6 g;

step six, when the driving motor 6h1 is adjusted to work, the driving gear 6h2 is driven to rotate, the driving gear 6h2 can drive the rack 6h3 meshed with the driving gear to displace, at the moment, the arc plate 6h4, the connecting plate 6h5 and the baffle plate 6h6 can displace in a stepping mode, when the baffle plate 6h6 displaces, the aperture of the screening hole 6f can be adjusted, and screening of solid waste garbage with different volumes is achieved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a high-efficient multi-functional useless processing apparatus admittedly, its characterized in that includes first conveying mechanism (1), scrapes and sweeps mechanism (2), filtrating mechanism (3), promotes feeding mechanism (4), rubbing crusher constructs (5) and screening mechanism (6), wherein:

the first conveying mechanism (1) is used for conveying solid waste garbage;

the filtrate mechanism (3) is arranged on the side part of the first conveying mechanism (1), is close to the output end of the first conveying mechanism (1), and is used for conveying solid waste garbage and filtering out residual waste liquid in the solid waste garbage;

the scraping and sweeping mechanism (2) is arranged between the first conveying mechanism (1) and the filtrate mechanism (3) and used for connecting the first conveying mechanism (1) and the filtrate mechanism (3), the input end of the scraping and sweeping mechanism (2) is connected with the output end of the first conveying mechanism (1), the output end of the scraping and sweeping mechanism (2) is connected with the input end of the filtrate mechanism (3) and used for transferring the solid waste garbage on the first conveying mechanism (1) to the filtrate mechanism (3);

the crushing mechanism (5) is arranged on the side part of the filtrate mechanism (3), is close to the output end of the filtrate mechanism (3), and is used for executing a crushing process of solid waste garbage;

the lifting and feeding mechanism (4) is arranged between the filtrate mechanism (3) and the crushing mechanism (5) and is used for connecting the filtrate mechanism (3) and the crushing mechanism (5), the output end of the lifting and feeding mechanism (4) is connected with the output end of the filtrate mechanism (3), and the output end of the lifting and feeding mechanism (4) can be connected with the input end of the crushing mechanism (5) and is used for receiving the solid waste garbage conveyed by the filtrate mechanism (3) and lifting the solid waste garbage to the input end of the crushing mechanism (5);

screening mechanism (6), the setting is at the lateral part of rubbing crusher structure (5), and is close to the output setting of rubbing crusher structure (5) for filter the rubbish useless admittedly according to the volume.

2. The efficient multifunctional solid waste treatment device according to claim 1, wherein the filtrate mechanism (3) comprises a base (3a), a conveying belt (3b), a conveying driving motor (3c) and a first transmission belt (3d), the first conveying mechanism (1) is horizontally arranged, the base (3a) is arranged on the side portion of the first conveying mechanism, the conveying belt (3b) which is obliquely arranged is arranged in the base (3a), the lower position of the conveying belt (3b) is flush with the first conveying mechanism (1), a plurality of filtrate holes (3b1) are formed in the conveying belt (3b), the conveying driving motor (3c) is arranged on the side portion of the base (3a), and an output shaft of the conveying driving motor (3c) drives the base (3a) to rotate through the first transmission belt (3 d).

3. The efficient multifunctional solid waste treatment device according to claim 2, wherein the scraping and sweeping mechanism (2) comprises a support frame (2a), a rotating shaft (2b), a mounting frame (2c), a first shifting plate (2d), a second transmission belt (2e), a first transmission shaft (2f), a third transmission belt (2g), a second transmission shaft (2h), a first bevel gear (2i) and a second bevel gear (2j), two support frames (2a) are symmetrically arranged on the base (3a), the support frames (2a) are arranged close to the input end of the conveying belt (3b), one end of each support frame (2a) far away from the base (3a) is rotatably connected with the rotating shaft (2b), the rotating shaft (2b) is provided with a plurality of mounting frames (2c), and the mounting frames (2c) are distributed along the circumference of the axis of the rotating shaft (2b), be equipped with on mounting bracket (2c) first group board (2d), the output shaft of carrying driving motor (3c) still transmission is connected with second drive belt (2e), the other end transmission of second drive belt (2e) is connected with first transmission shaft (2f), first transmission shaft (2f) rotate with base (3a) and be connected, first transmission shaft (2f) pass through third drive belt (2g) transmission is connected with second transmission shaft (2h), the top at two support frames (2a) is erect in second transmission shaft (2h), the both ends of second transmission shaft (2h) all coaxial be equipped with first bevel gear (2i), the coaxial second bevel gear (2j) that is equipped with of one end tip of pivot (2b), second bevel gear (2j) and first bevel gear (2i) one-to-one, second bevel gear (2j) and first bevel gear (2i) meshing.

4. The efficient multifunctional solid waste treatment device according to claim 3, wherein the lifting and feeding mechanism (4) comprises a lifting machine (4a), a lifting plate (4b), a loading box (4c), a box door (4d) and a box door switch driving motor (4e), the lifting machine (4a) is arranged at the side part of the conveying belt (3b), the output end of the lifting machine (4a) is connected with the lifting plate (4b) in a sliding manner, the lifting plate (4b) is horizontally arranged, the loading box (4c) is arranged on the lifting plate (4b), a feeding port is arranged at the top end of the loading box (4c), the inner bottom surface of the loading box (4c) is obliquely arranged, one end of the inner bottom surface of the loading box (4c) close to the conveying belt (3b) is higher than one end of the loading box (4c) far away from the conveying belt (3b), and the end surface of the loading box (4c) far away from the conveying belt (3b), the side part of the loading box (4c) is provided with the box door switch driving motor (4e), and the output shaft of the box door switch driving motor (4e) is in transmission connection with the box door (4 d).

5. The efficient multifunctional solid waste treatment device as claimed in claim 4, wherein the loading box (4c) is provided with a plurality of air vents (4c1), the side part of the loading box (4c) is further provided with a drying box (4f), and the drying box (4f) is communicated with the inside of the loading box (4 c).

6. The efficient multifunctional solid waste treatment device according to claim 5, wherein a feeding driving motor (4g) is arranged at the top of the elevator (4a), an output shaft of the feeding driving motor (4g) is in transmission connection with the feeding roller (4h), a plurality of second shifting plates (4i) are arranged on the feeding roller (4h), and the second shifting plates (4i) are circumferentially distributed along the axis of the feeding roller (4 h).

7. The efficient multifunctional solid waste treatment device according to claim 6, wherein the second shifting plate (4i) is L-shaped, the second shifting plate (4i) comprises a first straight plate and a second straight plate, the first straight plate and the second straight plate are vertically arranged, one end of the first straight plate is connected with the feeding roller (4h), and the other end of the first straight plate is connected with the second straight plate.

8. The utility model discloses a high-efficient multi-functional useless processing apparatus admittedly, according to claim 7, rubbing crusher constructs (5) including smashing box (5a), smashing blade disc (5b) and transition slide (5c), the top of smashing box (5a) is equipped with smashes entry (5a1), transition slide (5c) slope sets up, the high-order of transition slide (5c) with rise to the low phase parallel and level of loading box (4c) bottom surface under the highest position state, be equipped with in crushing box (5a) and set up in pairs smash blade disc (5 b).

9. The efficient multifunctional solid waste treatment device according to claim 8, wherein the screening mechanism (6) comprises a first box body (6a), a second box body (6b), a transmission driving motor (6c), a spiral stirring shaft (6d), a screening box body (6e), a screening hole (6f), a blanking slideway (6g) and a hole diameter adjusting component (6h), the top end of the first box body (6a) is provided with a feeding port (6a1), the feeding port (6a1) is positioned at the bottom end of the crushing box body (5a) and communicated with the output end of the crushing box body (5a), the bottom end of the second box body (6b) is communicated with the second box body (6b), the side part of the second box body (6b) is provided with at least one transmission driving motor (6c), the output shaft of the transmission driving motor (6c) is in transmission connection with one spiral stirring shaft (6d), spiral stirring shaft (6d) rotate to be connected inside second box (6b), and mutual parallel arrangement between spiral stirring shaft (6d), the one end of second box (6b) is equipped with first box (6a), and the other end of second box (6b) is equipped with screening box (6e), screening box (6e) have two at least screening sections, every all be equipped with a plurality ofly on the screening section screening hole (6f), screening hole (6f) distribute along the axis of screening box (6e), and the lateral part of every screening section all is equipped with one unloading slide (6g), have a determining deviation between the adjacent screening section, all be equipped with one on every screening section aperture adjusting part (6h), aperture adjusting part (6h) and screening section one-to-one, aperture adjusting part (6h) are used for controlling the aperture size of screening box (6e) on the corresponding screening section.

10. The efficient multifunctional solid waste treatment device according to claim 9, wherein the screening box (6e) is provided with a kidney-shaped hole, the aperture adjusting assembly (6h) comprises an adjusting driving motor (6h1), a driving gear (6h2), a driving gear (6h2), a rack (6h3), an arc plate (6h4), a connecting plate (6h5) and a baffle plate (6h6), the bottom of the screening box (6e) is provided with the adjusting driving motor (6h1), an output shaft of the adjusting driving motor (6h1) is in transmission connection with the driving gear (6h2), the side of the driving gear (6h2) is provided with the rack (6h3), the rack (6h3) is in sliding connection with the screening box (6e), a plurality of circles of the arc plate (6h4) are arranged on the rack (6h3), and the arc plates (6h4) are connected through the connecting plate (6h5), the connecting plate (6h5) is provided with a plurality of shielding plates (6h6), and the shielding plates (6h6) are matched with the screening box body (6 e).