CN210994574U

CN210994574U - Screening plant is smashed to environment-friendly construction waste

Info

Publication number: CN210994574U
Application number: CN201921295362.2U
Authority: CN
Inventors: 孙勇
Original assignee: Guangdong Xinruilong Ecological Building Materials Co ltd
Current assignee: Guangdong Xinruilong Ecological Building Materials Co ltd
Priority date: 2019-08-09
Filing date: 2019-08-09
Publication date: 2020-07-14
Anticipated expiration: 2029-08-09

Abstract

The utility model provides an environment-friendly building rubbish smashes screening plant, including first fixed station, the second fixed station, the telescopic link, first barrel, the second barrel, rabbling mechanism and motor, put into between first barrel and the second barrel with building rubbish, the output shaft through the motor drives whole (mixing) shaft and rotates, and then smash the stirring well to building rubbish, the stirring is smashed and is accomplished the back, open the door body that is closest to the motor, promote whole second fixed station through the telescopic link, make the slope of whole second fixed station, and then pour out the building rubbish that will smash, then close behind the door body that is closest to the motor, two door bodies above reopening, all pour out the remaining building rubbish in the teeter chamber the inside, then stir once more according to specific crushing demand and smash remaining building rubbish and smash or direct segregation. That is to say, stir crushing to building rubbish through three agitator chamber, can make crushing effect better, can sieve building rubbish again.

Description

Screening plant is smashed to environment-friendly construction waste

Technical Field

The utility model relates to a construction equipment technical field especially relates to a screening plant is smashed to environment-friendly construction waste.

Background

Along with the acceleration of the industrialization and urbanization processes, the construction industry is rapidly developed at the same time, the quantity of the Chinese construction waste is increased more than 1/3 of the total quantity of the municipal waste, the solid construction waste can be better used for the post processing of brick making and the like after being smashed and screened, and the construction waste needs to be screened in order to obtain better raw material classification. As 2011, the stock of solid domestic garbage in China reaches 70 hundred million tons, the total quantity of construction garbage can be calculated to be 21 hundred million to 28 hundred million tons, and more than 3 hundred million tons of construction garbage are newly generated every year. If a simple stacking mode is adopted for treatment, the newly added construction waste occupies 1.5 to 2 hundred million square meters of land each year. China is in the period of high-speed development of economic construction, and hundreds of millions of tons of construction wastes are inevitably generated every year. Most of the construction wastes are not treated at present and are randomly buried and stacked by construction units, so that the environment is influenced, and renewable energy is wasted. At present, the construction waste is smashed by adopting the smashing roller directly, and the construction waste often contains metals such as steel bars and steel bars, so that the metals can not be separated from the smashed waste, and the smashing of the construction waste is not fine enough.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model adopts the following technical scheme: the utility model provides an environment-friendly construction waste smashes screening plant, includes: the stirring device comprises a first fixed table, a second fixed table, a telescopic rod, a first barrel, a second barrel, a stirring mechanism and a motor, wherein one end of the first fixed table is provided with a rotating seat, the other end of the first fixed table is provided with an installation seat, a fixed seat is arranged on one side surface of the second fixed table, one end of the telescopic rod is fixedly connected with the installation seat, the other end of the telescopic rod is fixedly connected with the fixed seat, and the other side surface of the second fixed table is connected with the first fixed table through the rotating seat;

a first sliding rail, a fixed block and a second sliding rail are arranged on one surface of the second fixed table, a cavity is formed in the fixed block, a connecting plate is movably arranged on the fixed block, a rotating hole is formed in the connecting plate, the connecting plate movably covers the cavity, and the motor is arranged in the cavity;

the stirring mechanism comprises a stirring shaft and a plurality of stirring blades, the stirring blades are fixedly connected with the stirring shaft, and an output shaft of the motor penetrates through the rotating hole and is fixedly connected with one end of the stirring shaft;

the first sliding rail is provided with a first sliding block, the first sliding block is provided with a first support frame, the first support frame is connected with the outer side wall of the first barrel, the inner side wall of the first barrel is provided with a first screen, a second screen and a first bottom plate, the first screen, the second screen and the first bottom plate are all provided with first semicircular grooves, the outer side wall of the first barrel is also provided with three door bodies, the three door bodies are all hinged with the first barrel, one end of the first barrel, far away from the first bottom plate, is provided with a first opening, and the first bottom plate is provided with a first connecting groove;

the second sliding rail is provided with a second sliding block, the second sliding block is provided with a second supporting frame, the second supporting frame is connected with the outer side wall of the second cylinder body, the inner side wall of the second cylinder body is provided with a third screen, a fourth screen and a second bottom plate, the third screen, the fourth screen and the second bottom plate are all provided with second semicircular grooves, the third screen is movably abutted against the first screen, the fourth screen is movably abutted against the second screen, the second bottom plate is movably abutted against the first bottom plate, the outer side wall of the second cylinder body is provided with three accommodating grooves, each door body is movably abutted against the side wall of one accommodating groove, one end of the second cylinder body, far away from the second bottom plate, is provided with a second opening, the first opening is movably communicated with the second opening, and the second bottom plate is provided with a second communicating groove, the first communicating groove is movably communicated with the second communicating groove;

the first cylinder is movably connected with the second cylinder.

Further, the rotation seat includes first backup pad, second backup pad and dwang, first backup pad with first fixed station is connected perpendicularly, the second backup pad with first fixed station is connected perpendicularly, first rotation groove has been seted up in the first backup pad, the second rotation groove has been seted up in the second backup pad, the one end of dwang is rotated and is set up in first rotation inslot, and the other end is rotated and is set up in the second rotation inslot.

Furthermore, a first air cylinder is arranged on the second fixing table, and an output shaft of the first air cylinder is in driving connection with the first sliding block.

Furthermore, a second air cylinder is arranged on the second fixing table, and an output shaft of the second air cylinder is in driving connection with the second sliding block.

Further, an output shaft of the motor is fixedly connected with one end of the stirring shaft through a coupler.

Furthermore, the first support frame is perpendicular to one surface of the first sliding block, and the first support frame is provided with a first connecting block which is fixedly connected with the first cylinder.

Furthermore, the second support frame is perpendicular to one surface of the second sliding block, the second support frame is provided with a second connecting block, and the second connecting block is fixedly connected with the second cylinder.

Further, the first screen and the second screen are detachably connected with the inner side wall of the first cylinder respectively.

Further, the third screen and the fourth screen are detachably connected with the inner side wall of the second cylinder respectively.

Furthermore, each door body movable cover integrates the first opening and the second opening.

The utility model has the advantages that: when needs smash building rubbish, put into between first barrel and the second barrel with building rubbish, then open the motor, the output shaft through the motor drives whole (mixing) shaft and rotates, and then make the epaxial stirring leaf of stirring smash the stirring well building rubbish, stir and smash the completion back, open the door body nearest to the motor, then promote whole second fixed station through the telescopic link, make the slope of whole second fixed station, and then pour out the building rubbish that has smashed, then close behind the door body nearest to the motor, open two door bodies above-mentioned again, all pour out the remaining building rubbish in the teeter chamber, then stir once more according to specific crushing demand and smash or direct segregation to remaining building rubbish. That is to say, stir crushing to building rubbish through three agitator chamber, can make crushing effect better, can sieve building rubbish again.

Drawings

The figures further illustrate the invention, but the embodiments in the figures do not constitute any limitation of the invention.

FIG. 1 is a schematic view illustrating an exemplary embodiment of an environment-friendly construction waste crushing and screening apparatus;

FIG. 2 is a sectional view of an environment-friendly construction waste crushing and screening device according to an embodiment;

FIG. 3 is a cross-sectional view of the first barrel and the second barrel in one embodiment;

fig. 4 is a schematic view of a direction of the rotary base.

Detailed Description

The following will combine the drawings of the embodiments of the present invention to further describe the technical solution of the present invention, and the present invention is not limited to the following specific embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

As shown in fig. 1 to 4, an environment-friendly construction waste crushing and screening device comprises: first fixed station 100, second fixed station 200, telescopic link 300, first barrel 400, second barrel 500, rabbling mechanism and motor 700, one of first fixed station 100 is served and is provided with rotation seat 110, and the other end is provided with mount pad 120, be provided with fixing base 210 on the side of second fixed station 200, the one end of telescopic link 300 with mount pad 120 fixed connection, the other end with fixing base 210 fixed connection, the another side of second fixed station 200 passes through rotation seat 110 with first fixed station 100 is connected. That is, one end of the telescopic rod 300 is rotatably installed on the installation base 120, so that one end of the entire second stationary stage 200 is pushed to be inclined when the telescopic rod 300 is extended, and since the other end of the second stationary stage 200 is rotatably connected to the first stationary stage 100, the entire second stationary stage 200 has an inclined angle by the telescopic rod 300. Specifically, the rotating base 110 includes a first supporting plate 111, a second supporting plate 112 and a rotating rod 113, the first supporting plate 111 is vertically connected to the first fixing table 100, the second supporting plate 112 is vertically connected to the first fixing table 100, a first rotating groove (not shown) has been formed in the first supporting plate 111, a second rotating groove (not shown) has been formed in the second supporting plate 112, one end of the rotating rod 113 is rotatably disposed in the first rotating groove, and the other end is rotatably disposed in the second rotating groove. That is, by providing the rotating rod 113, when the telescopic rod 300 is pushed, one end of the second fixing stage 200 can be well connected to the first fixing stage 100, so that the entire second fixing stage 200 has an inclined angle.

Be provided with first slide rail 800, fixed block 220 and second slide rail 900 on the one side of second fixed station 200, the inside of fixed block 220 has the cavity, just the activity sets up a connecting plate 221 on the fixed block 220, the last rotation hole (not shown) of having seted up of connecting plate 221, just connecting plate 221 movable cover closes the cavity, motor 700 set up in the cavity. Specifically, the inside wall in rotation hole is provided with the sealing washer (not shown), rabbling mechanism includes (mixing) shaft 610 and a plurality of stirring leaf 620, and is a plurality of stirring leaf 620 with (mixing) shaft 610 fixed connection, the output shaft of motor 700 pass rotation hole with the one end fixed connection of (mixing) shaft 610. That is to say, the sealing ring is sleeved on the output shaft of the motor 700 and is fixedly connected with the rotating hole, and it is worth mentioning that the sealing ring is only abutted against the output shaft of the motor 700, so that the output shaft of the motor 700 can rotate in the sealing ring. Further, an output shaft of the motor 700 is fixedly connected to one end of the stirring shaft 610 through a coupling.

The first slide rail 800 is provided with a first slide block 810, the first slide block 810 is provided with a first support frame 820, the first support frame 820 is connected with the outer side wall of the first cylinder 400, the inner side wall of the first cylinder 400 is provided with a first screen 410, a second screen 420 and a first bottom plate 430, the first screen 410, the second screen 420 and the first bottom plate 430 are all provided with a first semicircular groove 450, the outer side wall of the first cylinder 400 is further provided with three door bodies 440, the three door bodies 440 are all hinged to the first cylinder 400, one end of the first cylinder 400 far away from the first bottom plate 430 is provided with a first opening 460, and the first bottom plate 430 is provided with a first connecting groove 431. Specifically, a first air cylinder 230 is disposed on the second fixing table 200, and an output shaft of the first air cylinder 230 is drivingly connected to the first slider 810. Further, the first support frame 820 is perpendicular to one surface of the first slider 810, and the first support frame 820 has a first connection block 821, and the first connection block 821 is fixedly connected to the first cylinder 400.

A second slide block 910 is disposed on the second slide rail 900, a second support frame 920 is disposed on the second slide block 910, the second support frame 920 is connected to the outer side wall of the second cylinder 500, a third screen 510, a fourth screen 520 and a second bottom plate 530 are disposed on the inner side wall of the second cylinder 500, second semicircular grooves 550 are disposed on the third screen 510, the fourth screen 520 and the second bottom plate 530, the third screen 510 is movably abutted to the first screen 410, the fourth screen 520 is movably abutted to the second screen 420, the second bottom plate 530 is movably abutted to the first bottom plate 430, three accommodating grooves 540 are disposed on the outer side wall of the second cylinder 500, each door 440 is movably abutted to the side wall of one of the accommodating grooves 540, and a second opening 560 is disposed at one end of the second cylinder 500 far from the second bottom plate 530, the first opening 460 is movably communicated with the second opening 560, the second bottom plate 530 is provided with a second communicating groove 531, and the first communicating groove 431 is movably communicated with the second communicating groove 531. Specifically, a second air cylinder 240 is disposed on the second fixing table 200, and an output shaft of the second air cylinder 240 is in driving connection with the second slider 910. That is, the first cylinder 230 can drive the first slider 810 to move back and forth in a direction toward the second slider 910, and the second cylinder 240 can drive the second slider 910 to move back and forth in a direction toward the first slider 810. Further, the second support frame 920 is perpendicular to one surface of the second sliding block 910, the second support frame 920 has a second connection block 921, and the second connection block 921 is fixedly connected to the second cylinder 500. It is worth mentioning that, a plurality of first sieve meshes (not shown) have all been seted up to first screen cloth 410 and third screen cloth 510, and the equidistance setting of a plurality of first sieve meshes, and a plurality of second sieve meshes (not shown) have all been seted up to second screen cloth 420 and fourth screen cloth 520, and a plurality of equidistance setting of second sieve meshes, further, the aperture of first sieve mesh is greater than the aperture of second sieve mesh.

The first cylinder 400 is movably connected with the second cylinder 500.

Specifically, in order to prevent the first cylinder 400 and the second cylinder 500 from being separated from each other due to the collision of the wastes during the processing, the first cylinder 400 is provided with a first fixing buckle and a second fixing buckle, and the second cylinder 500 is provided with a first fixing ring and a second fixing ring. When the first barrel 400 and the second barrel 500 are connected, the first fixing buckle is buckled on a first fixing ring, and the second fixing buckle is buckled on a second fixing ring, so that the first barrel 400 and the second barrel 500 can be stably connected. Further, after the first cylinder 400 and the second cylinder 500 are connected, the whole stirring shaft 610 and the plurality of stirring blades 620 are all located inside the first cylinder 400 and the second cylinder 500, and because the first screen 410 is abutted with the third screen 510, the second screen 420 is abutted with the fourth screen 520, and the first bottom plate 430 is abutted with the second bottom plate 530, so that three stirring chambers are formed between the first cylinder 400 and the second cylinder 500, and the stirring shaft 610 is directly inserted into the three stirring chambers, that is, the stirring shaft 610 passes through a first communicating hole formed by the first connecting groove and the second connecting groove, then passes through a second communicating hole formed by the first semicircular groove 450 of the second screen 420 and the second semicircular groove 550 of the fourth screen 520, and then passes through a third communicating hole formed by the first semicircular groove 450 of the first screen 410 and the second semicircular groove 550 of the third screen 510, and the short stirring blades 620 are sequentially arranged on the stirring shaft 610 in each stirring chamber from top to bottom, The long agitating blades 620, the downward-inclined agitating blades 620, and the upward-inclined agitating blades 620, and thus the number of the agitating blades 620 is twelve in total. It should be noted that an umbrella-shaped baffle (not shown) is disposed at an end of the stirring shaft 610 far away from the motor 700, and the umbrella-shaped baffle is fixedly connected to the stirring shaft 610.

When the construction waste needs to be crushed, the construction waste is placed between the first cylinder 400 and the second cylinder 500, the construction waste falls down around the stirring shaft 610 due to the effect of the umbrella-shaped baffle, then the motor 700 is turned on, the whole stirring shaft 610 is driven to rotate through the output shaft of the motor 700, further the stirring blades 620 on the stirring shaft 610 well crush and stir the construction waste, the construction waste stirred in the uppermost stirring chamber enters the next stirring chamber through the first sieve holes, then the construction waste is continuously crushed and stirred by the stirring blades 620 on the stirring shaft 610 in the falling process, then the construction waste enters the next stirring chamber through the second sieve holes and is stirred and crushed, after the stirring and crushing are completed, the door body 440 closest to the motor 700 is opened, then the whole second fixing platform 200 is pushed through the telescopic rod 300, so that the whole second fixing platform 200 inclines, and then pouring out the construction waste crushed in the stirring chamber, closing the door body 440 closest to the motor 700, opening the two door bodies 440 above, pouring out all the residual construction waste in the stirring chamber, and then stirring and crushing the residual construction waste again or directly separating the residual construction waste according to specific crushing requirements. That is to say, stir crushing to building rubbish through three agitator chamber, can make crushing effect better, can sieve building rubbish through first sieve mesh and second sieve mesh again.

In one embodiment, the first screen 410 and the second screen 420 are detachably coupled to the inner sidewall of the first cylinder 400, respectively, and the third screen 510 and the fourth screen 520 are detachably coupled to the inner sidewall of the second cylinder 500, respectively. Specifically, when the construction waste in the first cylinder 400 and the second cylinder 500 is crushed and poured cleanly without stirring and crushing, the first fixing buckle and the second fixing buckle are opened, and then the first slider 810 is driven by the first air cylinder 230 to slide in a direction away from the second slider 910, and the second air cylinder 240 drives the second slider 910 to slide in a direction away from the first slider 810. The first, second, third, and

fourth screens

410, 420, 510, 520 may then be disassembled to facilitate the disassembly and washing or replacement of the first, second, third, and

fourth screens

410, 420, 510, 520. Specifically, how the first and

second screens

410 and 420 are detachably connected to the first cylinder 400 may be implemented by a conventional technique, for example, the first and

second screens

410 and 420 are both threadedly connected to the first cylinder 400, and how the third and

fourth screens

510 and 520 are detachably connected to the second cylinder 500 may be implemented by a conventional technique, for example, the third and

fourth screens

510 and 520 are both threadedly connected to the second cylinder 500. It is worth mentioning that the stirring shaft 610 and the stirring blades 620 can be cleaned when the first barrel 400 and the second barrel 500 are separated.

As described above, the above embodiments are not limiting embodiments of the present invention, and modifications or equivalent variations made by those skilled in the art based on the substance of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides an environment-friendly building rubbish smashes screening plant which characterized in that includes: the stirring device comprises a first fixed table, a second fixed table, a telescopic rod, a first barrel, a second barrel, a stirring mechanism and a motor, wherein one end of the first fixed table is provided with a rotating seat, the other end of the first fixed table is provided with an installation seat, a fixed seat is arranged on one side surface of the second fixed table, one end of the telescopic rod is fixedly connected with the installation seat, the other end of the telescopic rod is fixedly connected with the fixed seat, and the other side surface of the second fixed table is connected with the first fixed table through the rotating seat;

the first cylinder is movably connected with the second cylinder.

2. The environment-friendly construction waste crushing and screening device of claim 1, wherein: the rotating seat comprises a first supporting plate, a second supporting plate and a rotating rod, the first supporting plate is perpendicularly connected with the first fixed station, the second supporting plate is perpendicularly connected with the first fixed station, a first rotating groove is formed in the first supporting plate, a second rotating groove is formed in the second supporting plate, one end of the rotating rod is rotatably arranged in the first rotating groove, and the other end of the rotating rod is rotatably arranged in the second rotating groove.

3. The environment-friendly construction waste crushing and screening device of claim 1, wherein: and a first air cylinder is arranged on the second fixing table, and an output shaft of the first air cylinder is in driving connection with the first sliding block.

4. The environment-friendly construction waste crushing and screening device of claim 3, wherein: and a second cylinder is arranged on the second fixing table, and an output shaft of the second cylinder is in driving connection with the second sliding block.

5. The environment-friendly construction waste crushing and screening device of claim 1, wherein: and an output shaft of the motor is fixedly connected with one end of the stirring shaft through a coupler.

6. The environment-friendly construction waste crushing and screening device of claim 1, wherein: the first support frame is perpendicular to one surface of the first sliding block, the first support frame is provided with a first connecting block, and the first connecting block is fixedly connected with the first cylinder.

7. The environment-friendly construction waste crushing and screening device of claim 1, wherein: the second support frame is perpendicular to one surface of the second sliding block, the second support frame is provided with a second connecting block, and the second connecting block is fixedly connected with the second cylinder body.

8. The environment-friendly construction waste crushing and screening device of claim 1, wherein: the first screen and the second screen are detachably connected with the inner side wall of the first cylinder respectively.

9. The environment-friendly construction waste crushing and screening device of claim 1, wherein: the third screen and the fourth screen are detachably connected with the inner side wall of the second barrel respectively.

10. The environment-friendly construction waste crushing and screening device of claim 1, wherein: each door body movable cover is combined with the first opening and the second opening.