CN114082765B - Equipment capable of sorting construction waste for multiple times based on environmental protection industry - Google Patents

Abstract

The invention relates to the field of construction waste recovery, in particular to a device capable of sorting construction waste for multiple times based on the environment-friendly industry, which comprises a bottom plate, a special-shaped support frame, a four-corner perforating frame, a motor support seat, a servo motor and the like; the top surface of the bottom plate is fixedly provided with a special-shaped support frame, the special-shaped support frame is fixedly provided with a quadrangular perforating frame, the special-shaped support frame is fixedly provided with a motor support seat, and the motor support seat is fixedly provided with a servo motor. Through the cooperation of abnormal shape support frame and first reset spring for when the filter belt carries building rubbish, the filter belt can control reciprocal shake, and then can shake building rubbish and scatter, make dust and impurity in the building rubbish fully drop in the frame is accomodate to the waste soil, realize the purpose of screening dust and impurity in the building rubbish off.

Description

Equipment capable of sorting construction waste for multiple times based on environmental protection industry

Technical Field

The invention relates to the field of construction waste recovery, in particular to equipment capable of sorting construction waste for multiple times based on the environment-friendly industry.

Background

Along with the acceleration of industrialization and urban processes, the building industry also rapidly develops, and the building rubbish generated is increased, wherein the building rubbish refers to the general name of dregs, waste, sludge and other wastes generated in the construction, construction units or individuals in the processes of construction, laying or dismantling, repairing and the like, and the materials are of no use for the building and need to be correspondingly treated.

At present, most of the construction waste in China is treated in a landfill mode, the construction waste is required to be screened before being landfilled, the construction waste is generally mixed with garbage with different volumes and substances, the construction waste contains a large amount of organic pollutants and also contains a large amount of metal and nonmetal pollutants, the construction waste is directly landfilled, serious pollution of surrounding surface water and underground water can be caused, great harm is caused to a human body, and the screening efficiency of the existing construction waste is low.

Disclosure of Invention

The invention aims to provide the equipment which can screen dust and impurities in the construction waste, screen metal materials in the construction waste and classify plastics and waste materials in the construction waste and is based on the environment-friendly industry and can separate the construction waste for multiple times, so as to solve the problems that the prior art provides that the construction waste is directly landfilled to cause serious pollution of surrounding surface water and underground water and the existing construction waste screening efficiency is low.

The technical proposal is as follows: the utility model provides a can select separately equipment of building rubbish many times based on environmental protection industry, includes bottom plate, abnormal shape support frame, four corners trompil frame, motor supporting seat, servo motor, waste soil storage frame, waste soil divides sieve subassembly, crushing subassembly and intermittent type transportation subassembly:

the special-shaped support frame is fixedly arranged on the top surface of the bottom plate, is long and is positioned on the whole production line, and triangular lugs are arranged on the special-shaped support frame in a circumferential distribution manner;

the special-shaped support frame is fixedly provided with a quadrangle perforating frame;

the special-shaped support frame is fixedly provided with a motor support seat;

the servo motor is fixedly arranged on the motor supporting seat and is used for providing driving power for equipment;

the waste soil storage frame is fixedly arranged on the special-shaped support frame;

the special-shaped support frame is provided with a waste soil screening assembly which is used for screening dust and impurities from the construction waste;

the crushing assembly is arranged at the top of the four-corner perforated frame and is used for crushing the construction waste from which dust and impurities are removed;

the intermittent transport assembly is arranged on the four-corner perforated frame and is used for intermittently transporting the crushed construction waste.

Further, the waste soil divides screen assembly to be including spline shaft, sliding gear, first reset spring, the chain cover, filter belt and arc baffle, rotation type is connected with two spline shafts on the abnormal shape support frame, sliding type is connected with two sliding gear on the spline shaft, sliding gear one side fixedly connected with first reset spring, first reset spring one end and spline shaft hookup, the transmission type is connected with the chain between two sliding gear of homonymy, be evenly distributed's mode connection with the chain cover on the chain, chain cover and abnormal shape support frame contact each other, be provided with the filter belt on the two chains jointly, be provided with arc baffle on the waste soil storage frame, filter belt and arc baffle contact each other.

Further, the crushing assembly comprises a special-shaped blanking frame, a first roller, a transmission gear and a second roller, wherein the special-shaped blanking frame is fixedly arranged at the top of the four-corner punching frame, the special-shaped blanking frame is in contact with the filter belt, the first roller is rotationally connected with the special-shaped blanking frame, the first roller is fixedly connected with the two transmission gears, the second roller is likewise rotationally connected with the special-shaped blanking frame, the first roller is in contact with the second roller, the second roller is likewise fixedly connected with the two transmission gears, and the two transmission gears on the same side are meshed with each other.

Further, the first roller and the second roller are cylindrical rollers, the cylindrical surfaces of the first roller and the second roller are conical surfaces, the first roller and the second roller rotate oppositely during operation, due to the friction effect between the conical surfaces of the first roller and the second roller, construction waste can be fully rolled into a crushing cavity formed by the first roller and the second roller and then crushed, and the size of a gap between the first roller and the second roller determines the maximum granularity of crushed construction waste.

Further, the intermittent transportation assembly comprises rolling shafts, a conveying belt, an L-shaped supporting frame, a first belt wheel, a first belt, intermittent gears and sector gears, wherein two rolling shafts are rotatably connected to the four-corner perforating frame, the conveying belt is commonly connected to the two rolling shafts in a transmission mode, the L-shaped supporting frame is fixedly connected to the special-shaped supporting frame, the first belt wheel is rotatably connected to the L-shaped supporting frame, the first belt wheel is fixedly connected to the second roller, the first belt wheel is fixedly connected to the spline shaft, the first belt wheel is commonly connected with the first belt wheel in a transmission mode, the intermittent gears are fixedly connected to the first rolling shaft, the sector gears are rotatably connected to the first belt wheel, the intermittent gears are rotatably connected to the first L-shaped supporting frame, the two intermittent gears are meshed with each other, and the sector gears are meshed with the intermittent gears.

The four-corner perforating frame is symmetrically provided with a magnetic separation assembly, the magnetic separation assembly comprises a special-shaped material frame, a special-shaped grooving frame, a special-shaped gear, a sliding rack frame, a second reset spring, a deflector rod sliding frame, a third reset spring, a deflector rod grooving frame, a fourth reset spring, a control switch, an electromagnet block and a fifth reset spring, the special-shaped material frame is fixedly arranged on the special-shaped material frame, the special-shaped grooving frame is symmetrically and rotatably connected with the special-shaped gear on the special-shaped blanking frame, the special-shaped gear is meshed with a transmission gear on the same side, the special-shaped grooving frame is connected with the sliding rack in a sliding mode, the sliding rack frame is meshed with the special-shaped gear in a sliding mode, a second reset spring is fixedly connected on the sliding rack frame, one end of the second reset spring is fixedly connected with the special-shaped grooving frame, a third reset spring is connected between the deflector rod sliding frame and the sliding rack frame, the deflector rod grooving frame is connected onto the deflector rod sliding frame in a lifting mode, the special-shaped grooving frame is matched with the deflector rod sliding frame and the fourth reset spring is connected with the deflector rod sliding frame in a sliding mode, and the top surface of the fifth reset spring is fixedly connected with the deflector rod sliding frame and the fourth reset spring is connected with the fourth reset spring.

The special-shaped water draining box is characterized by further comprising a water separating component, wherein the water separating component is arranged on the top surface of the bottom plate and comprises a special-shaped water draining box, an N-shaped supporting frame, a reciprocating screw, a push plate, a belt wheel II, a belt II, a small filter screen, a large filter screen, a sliding plate, a rectangular slotting frame and a sixth reset spring, the special-shaped water draining box is fixedly arranged on the top surface of the bottom plate, the special-shaped water draining box is in contact with a conveying belt, the N-shaped supporting frame is symmetrically arranged on a special-shaped blanking frame, the reciprocating screw is connected to the two N-shaped supporting frames in a rotating manner, the push plate is connected to the reciprocating screw in a threaded manner, the push plate is in contact with the special-shaped water draining box, the belt wheel II is fixedly connected to the reciprocating screw, the belt wheel II is fixedly connected to the other rolling shaft at the other position, the belt II is in a transmission manner connected to the belt II, the two small filter screens are arranged in the special-shaped water draining box, the rectangular slotting frame is fixedly arranged on the special-shaped water draining box, the sliding plate is connected to the rectangular slotting frame, the sliding plate is in sliding connection with the rectangular slotting frame, and the sixth reset spring is connected between the sliding plate and the rectangular slotting frame.

Further, the special-shaped drainage box is further provided with a backflow assembly, the backflow assembly comprises a special-shaped push rod, guide pipes, a special-shaped piston bar, a seventh reset spring and a one-way valve, the special-shaped push rod is fixedly connected to the sliding rack, two guide pipes are communicated to the special-shaped drainage box, one end of the special-shaped push rod is welded with the special-shaped piston bar, the special-shaped piston bar is connected with the two guide pipes in a sliding mode, the special-shaped piston bar is in contact with the special-shaped drainage box, the special-shaped piston bar is in contact with the sliding plate, the special-shaped piston bar is fixedly connected with a pair of seventh reset springs, one end of each seventh reset spring is fixedly connected with the guide pipe, and the one-way valve is arranged in the guide pipe.

Further, the water retaining frame is arranged on the special-shaped drainage box.

The beneficial effects are as follows:

through the cooperation of abnormal shape support frame and first reset spring for when the filter belt carries building rubbish, the filter belt can control reciprocal shake, and then can shake building rubbish and scatter, make dust and impurity in the building rubbish fully drop in the frame is accomodate to the waste soil, realize the purpose of screening dust and impurity in the building rubbish off.

Through the cooperation of the staggered rotation of the first roller and the second roller, the first roller and the second roller can crush the construction waste, and the conveyor belt intermittently conveys the crushed construction waste, so that the construction waste can be conveniently screened subsequently.

Through the effect of abnormal shape fluting frame for driving lever fluting frame and upper device down or upward movement, make the electromagnetism piece adsorb the metal material in the building rubbish, the rethread control switch control electromagnetism piece outage loses magnetic force and no longer adsorbs the metal material, and the metal material drops in the abnormal shape material frame, accomplishes the purpose of sieving out the metal material in the building rubbish.

Because plastics in the construction waste can float in abnormal shape drain tank, other waste materials can deposit in abnormal shape drain tank bottom, and the push pedal can scrape the plastics rubbish that abnormal shape drain tank surface was floated to abnormal shape drain tank both sides, realizes the purpose with plastics and waste material classification in the construction waste.

Drawings

Fig. 1 is a schematic perspective view of a first cross-section of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view, partly in section, of the present invention.

Fig. 4 is a schematic perspective view, partially in section, of a waste soil screening assembly of the present invention.

Fig. 5 is a schematic cross-sectional perspective view of the waste soil screening assembly of the present invention.

Fig. 6 is a schematic cross-sectional perspective view of a crushing assembly of the present invention.

Fig. 7 is a schematic view of a partial perspective view of an intermittent transport assembly according to the present invention.

FIG. 8 is a schematic perspective view of a first portion of a magnetic separation module according to the present invention.

FIG. 9 is a schematic perspective view of a second portion of a magnetic separation module according to the present invention.

FIG. 10 is a partially disassembled perspective view of the magnetic separation module of the present invention.

Fig. 11 is a schematic view of a first partial perspective view of a water separation module of the present invention.

Fig. 12 is a schematic view of a second partial perspective view of a water separation module of the present invention.

Fig. 13 is an enlarged schematic view of the structure of the present invention a.

Fig. 14 is a schematic partial perspective view of a reflow assembly of the present invention.

Fig. 15 is a schematic perspective view of the catheter and one-way valve of the present invention.

Fig. 16 is a schematic view showing a three-dimensional structure of the special-shaped drain tank and the water retainer of the present invention.

Part names and serial numbers in the figure: 1_floor, 21_profile support frame, 22_four corner opening frame, 23_motor support seat, 24_servo motor, 25_waste receiving frame, 3_waste screening assembly, 31_spline shaft, 32_slide gear, 33_first return spring, 34_chain, 35_link, 36_filter belt, 37_arc baffle, 4_crushing assembly, 41_profile blanking frame, 42_roller one, 43_drive gear, 44_roller two, 5_intermittent transport assembly, 51_roller, 52_conveyor belt, 53_L-shaped support frame, 54_pulley one, 55_belt one, 56_intermittent gear, 57_sector gear, 6_magnetic separation assembly, 61_profile frame, 62_profile grooving frame, 63_profile gear, 64_slide rack, 65_second return spring, 66_toggle lever slide rack, 67_third return spring, 68_toggle lever slotted rack, 69_fourth return spring, 610_control switch, 611_solenoid block, 612_fifth return spring, 7_water separation assembly, 71_profiled drain tank, 72_n type support frame, 73_shuttle screw, 74_push plate, 75_pulley two, 76_belt two, 77_small screen, 78_large screen, 79_slide plate, 710_rectangular slotted rack, 711_sixth return spring, 8_return assembly, 81_profiled push rod, 82_guide tube, 83_profiled piston rod, 84_seventh return spring, 85_check valve, 9_water stop rack.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides a can select separately equipment of building rubbish many times based on environmental protection industry, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, including bottom plate 1, abnormal shape support frame 21, four corners trompil frame 22, motor supporting seat 23, servo motor 24, waste soil accomodates frame 25, waste soil divides screen assembly 3, broken subassembly 4 and intermittent type transport subassembly 5, bottom plate 1 top surface fixed mounting has abnormal shape support frame 21, fixed mounting has four corners trompil frame 22 on the abnormal shape support frame 21, fixed mounting has motor supporting seat 23 on the abnormal shape support frame 21, fixed mounting has servo motor 24 on the motor supporting seat 23, waste soil accomodates frame 25 fixed mounting is on abnormal shape support frame 21, be provided with waste soil divides screen assembly 3 on the abnormal shape support frame 21, waste soil divides screen assembly 3 is arranged in separating dust and impurity in the building rubbish, broken subassembly 4 is located four corners trompil frame 22 top, be provided with on the trompil frame 22 and be used for carrying the intermittent type transport subassembly 5 of building rubbish.

The waste soil screening assembly 3 comprises a spline shaft 31, a sliding gear 32, a first return spring 33, a chain 34, a chain sleeve 35, a filter belt 36 and an arc-shaped baffle 37, wherein the two spline shafts 31 are rotatably connected to the special-shaped support frame 21, the two sliding gears 32 are slidably connected to the spline shaft 31, one side of the sliding gear 32 is fixedly connected with the first return spring 33, one end of the first return spring 33 far away from the sliding gear 32 is connected with the spline shaft 31, the two sliding gears 32 on the same side are in transmission connection with the chain 34, the chain sleeve 35 is connected to the chain 34 in a uniformly distributed mode, the chain sleeve 35 is in mutual contact with the special-shaped support frame 21, the filter belt 36 is jointly arranged on the two chains 34 and is used for conveying construction waste, the arc-shaped baffle 37 is arranged on the waste soil storage frame 25, and the filter belt 36 is in mutual contact with the arc-shaped baffle 37.

The crushing assembly 4 comprises a special-shaped blanking frame 41, a first roller 42, a transmission gear 43 and a second roller 44, wherein the special-shaped blanking frame 41 is fixedly arranged at the top of the four-corner perforating frame 22, the special-shaped blanking frame 41 is in contact with the filter belt 36, the first roller 42 is rotationally connected with the special-shaped blanking frame 41, the first roller 42 is fixedly connected with the two transmission gears 43, the second roller 44 is also rotationally connected with the special-shaped blanking frame 41, the first roller 42 is in contact with the second roller 44, the first roller 42 and the second roller 44 are used for crushing construction waste, the second roller 44 is also fixedly connected with the two transmission gears 43, and the two transmission gears 43 on the same side are meshed with each other.

The intermittent transport assembly 5 comprises a roller 51, a conveyor belt 52, an L-shaped support 53, a belt wheel I54, a belt I55, an intermittent gear 56 and a sector gear 57, wherein two rollers 51 are rotatably connected to the four-corner perforated frame 22, the conveyor belt 52 is connected to the two rollers 51 in a common transmission mode, the conveyor belt 52 is used for conveying crushed building wastes, the L-shaped support 53 is fixedly connected to the special-shaped support 21, the belt wheel I54 is rotatably connected to the L-shaped support 53, the belt wheel I54 is fixedly connected to the roller II 44, the belt wheel I54 is fixedly connected to the spline shaft 31, the belt I55 for transmitting power is fixedly connected to the three belt wheels I54 in a common transmission mode, the intermittent gear 56 is fixedly connected to the roller 51, the sector gear 57 is rotatably connected to the belt wheel I54, the intermittent gear 56 is also rotatably connected to the L-shaped support 53, the two intermittent gears 56 are meshed with each other, and the sector gear 57 is meshed with the intermittent gear 56.

When the construction waste is required to be sorted, the construction waste is conveyed to the filter belt 36 through external conveying equipment, a worker manually starts the servo motor 24, the output shaft of the servo motor 24 rotates clockwise to drive the spline shaft 31 and the upper device thereof to rotate, the sliding gear 32 drives the chain 34 and the upper device thereof to rotate clockwise, and the filter belt 36 conveys the construction waste, so that smaller dust and impurities in the construction waste can fall into the waste storage frame 25. Through the effect of abnormal shape support frame 21 and first reset spring 33 for chain cover 35 and device on it are reciprocal motion about, and the filter belt 36 is reciprocal about can tremble construction waste and scatter, makes dust and impurity in the construction waste fully drop in the waste storage frame 25.

The construction waste on the filter belt 36 is then conveyed into the special-shaped blanking frame 41, the spline shaft 31 rotates to drive the belt wheel I54 to rotate, the belt wheel I54 drives the roller II 44 and the sector gear 57 to rotate through the belt I55, the roller II 44 drives the roller I42 to rotate through the transmission gear 43, the roller I42 and the roller II 44 rotate alternately to crush the construction waste, and the crushed construction waste falls on the conveying belt 52. The sector gear 57 intermittently drives the intermittent gear 56 and one roller 51, where the roller 51 drives the other roller 51 to rotate through the conveyor belt 52, so that the conveyor belt 52 intermittently conveys the crushed construction waste.

Example 2

On the basis of the embodiment 1, as shown in fig. 8, 9 and 10, the four-corner hole frame 22 is symmetrically provided with a magnetic separation assembly 6, the magnetic separation assembly 6 is used for screening metal materials in construction waste, the magnetic separation assembly 6 comprises a special-shaped material frame 61, a special-shaped slotting frame 62, a special-shaped gear 63, a sliding rack 64, a second return spring 65, a deflector rod sliding rack 66, a third return spring 67, a deflector rod slotting frame 68, a fourth return spring 69, a control switch 610, an electromagnet block 611 and a fifth return spring 612, the four-corner hole frame 22 is symmetrically provided with a special-shaped material frame 61 for placing the metal materials, the special-shaped slotting frame 62 is fixedly arranged on the special-shaped material frame 61, the special-shaped blanking frame 41 is symmetrically and rotatably connected with the special-shaped gear 63, the special-shaped gear 63 is meshed with the same-side transmission gear 43, the special-shaped slotted frame 62 is connected with a sliding rack 64 in a sliding way, the sliding rack 64 is meshed with the special-shaped gear 63, a second return spring 65 is fixedly connected on the sliding rack 64, one end of the second return spring 65 far away from the sliding rack 64 is fixedly connected with the special-shaped slotted frame 62, the special-shaped slotted frame 62 is connected with a deflector rod sliding frame 66 in a sliding way, the deflector rod sliding frame 66 is contacted with the sliding rack 64 in a sliding way, a third return spring 67 is connected between the deflector rod sliding frame 66 and the special-shaped slotted frame 62, the deflector rod slotted frame 68 is connected on the deflector rod sliding frame 66 in a lifting way, the deflector rod slotted frame 68 is in limit fit with the special-shaped slotted frame 62, a fourth return spring 69 is connected between the deflector rod sliding frame 66 and the deflector rod slotted frame 68, a control switch 610 is fixedly arranged on the special-shaped slotted frame 62, the control switch 610 is contacted with the deflector rod sliding frame 66 in a lifting way, the deflector rod slotting frame 68 is connected with an electromagnet block 611 in a lifting manner, the control switch 610 is used for controlling the electromagnet block 611 to be powered off, the electromagnet block 611 is used for adsorbing metal materials in construction waste, the top surface of the electromagnet block 611 is fixedly connected with a fifth reset spring 612, and one end of the fifth reset spring 612 far away from the electromagnet block 611 is fixedly connected with the deflector rod slotting frame 68.

The transmission gear 43 rotates to drive the special gear 63 to rotate, the special gear 63 drives the sliding rack 64 to move away from the filter belt 36, the sliding rack 64 pushes the deflector rod sliding rack 66 and the upper device thereof to move in opposite directions, and the deflector rod slotting rack 68 and the upper device thereof move downwards under the action of the special slotting rack 62, so that the electromagnet block 611 adsorbs metal materials in the construction waste. When the special-shaped gear 63 is separated from the sliding rack 64, the compressed second reset spring 65 resets to drive the sliding rack 64 to move towards the direction approaching to the filter belt 36, the sliding rack 64 is separated from the deflector rod sliding rack 66, the compressed third reset spring 67 resets to drive the deflector rod sliding rack 66 and the upper device thereof to move relatively and reset, the deflector rod slotted rack 68 and the upper device thereof move upwards under the action of the special-shaped slotted rack 62, the deflector rod sliding rack 66 presses the control switch 610, the control switch 610 controls the electromagnet block 611 to be powered off, the electromagnet block 611 loses magnetic force to not adsorb metal materials any more, and the metal materials fall into the special-shaped material frame 61.

Example 3

On the basis of the embodiment 2, as shown in fig. 11, 12, 13, 14 and 16, the device further comprises a water separation component 7, the top surface of the bottom plate 1 is provided with the water separation component 7, the water separation component 7 is used for screening out plastic garbage, the water separation component 7 comprises a special-shaped drainage box 71, an N-shaped support frame 72, a reciprocating screw 73, a push plate 74, a belt pulley II 75, a belt II 76, a small filter screen 77, a large filter screen 78, a sliding plate 79, a rectangular slotted frame 710 and a sixth return spring 711, the top surface of the bottom plate 1 is fixedly provided with the special-shaped drainage box 71 for storing water, the special-shaped drainage box 71 is mutually contacted with the conveyor belt 52, the special-shaped blanking frame 41 is symmetrically provided with the N-shaped support frame 72, the two N-shaped support frames 72 are connected with the reciprocating screw 73 in a rotating manner, the reciprocating screw 73 is connected with the push plate 74 in a threaded connection manner, the push plate 74 is mutually contacted with the drainage box 71, the push plate 74 is used for scraping plastic garbage floating on the surface of the special-shaped drainage box 71 to two sides, the belt pulley II 75 is fixedly connected to the reciprocating screw 73, the belt pulley II 75 is fixedly connected to the other rolling shaft 51, the belt II 76 is connected between the belt pulleys II 75 in a driving mode, two small filter screens 77 are arranged in the special-shaped drainage box 71, the small filter screens 77 are used for filtering moisture in the plastic garbage, a large filter screen 78 is arranged in the special-shaped drainage box 71, the large filter screen 78 is used for filtering moisture in the waste, the rectangular slotting frame 710 is fixedly arranged on the special-shaped drainage box 71, the sliding plate 79 is connected to the rectangular slotting frame 710 in a sliding mode, the sliding plate 79 is connected with the special-shaped drainage box 71 in a sliding mode, the sliding plate 79 is used for blocking a discharge hole in the special-shaped drainage box 71, and a sixth reset spring 711 is connected between the sliding plate 79 and the rectangular slotting frame 710.

The special-shaped water drainage box 71 is internally provided with water, the conveyor belt 52 conveys construction waste into the special-shaped water drainage box 71, plastics in the construction waste float in the special-shaped water drainage box 71, other waste materials can be deposited at the inner bottom of the special-shaped water drainage box 71, the rolling shaft 51 rotates to drive the belt pulley II 75 to rotate, the belt pulley II 75 drives the belt pulley II 75 and the reciprocating screw 73 to rotate through the belt II 76, the reciprocating screw 73 drives the push plate 74 to reciprocate left and right, the push plate 74 reciprocates left and right to scrape the plastic waste floating on the surface of the special-shaped water drainage box 71, the plastic waste floating on the surface can be scraped to two sides of the special-shaped water drainage box 71, and the small filter screen 77 filters moisture in the plastic waste, so that the purpose of screening the plastic waste is achieved. When the waste above the special-shaped drain box 71 is fully piled up, a worker manually pulls the sliding plate 79 to move upwards, the sliding plate 79 does not block the discharge hole on the special-shaped drain box 71 any more, the waste slides downwards, and the large filter screen 78 filters the moisture in the waste.

Example 4

On the basis of embodiment 3, as shown in fig. 14 and 15, the special-shaped drainage tank 71 is further provided with a backflow component 8, the backflow component 8 is used for backflow of water in the special-shaped drainage tank 71, the backflow component 8 comprises a special-shaped push rod 81, a guide pipe 82, a special-shaped piston rod 83, a seventh return spring 84 and a one-way valve 85, the special-shaped push rod 81 is fixedly connected to one sliding rack 64, two guide pipes 82 are communicated to the special-shaped drainage tank 71, one end of the special-shaped push rod 81 far away from the sliding rack 64 is welded with the special-shaped piston rod 83, the special-shaped piston rod 83 is connected with the two guide pipes 82 in a sliding mode, the special-shaped piston rod 83 is in contact with the special-shaped drainage tank 71, the special-shaped piston rod 83 is in contact with the sliding plate 79, the special-shaped piston rod 83 is used for pushing the sliding plate 79 to move upwards, one end of the seventh return spring 84 far away from the special-shaped piston rod 83 is fixedly connected with the guide pipe 82, and the one-way valve 85 is arranged in the guide pipe 82.

When the sliding rack 64 moves away from the filter belt 36, the sliding rack 64 drives the special-shaped push rod 81 and the special-shaped piston bar 83 to move away from the filter belt 36, the special-shaped piston bar 83 pushes the sliding plate 79 to move upwards, the sliding plate 79 no longer blocks a discharge hole on the special-shaped drainage box 71, and the trouble of manually pulling the sliding plate 79 is omitted. When the sliding rack 64 moves towards the direction approaching the filter belt 36, the sliding rack 64 drives the special-shaped push rod 81 and the special-shaped piston bar 83 to move towards the direction approaching the filter belt 36, the special-shaped piston bar 83 is separated from the sliding plate 79, the compressed sixth return spring 711 resets to drive the sliding plate 79 to move downwards to reset, the sliding plate 79 blocks a discharge hole on the special-shaped drain tank 71, and in the process, the special-shaped piston bar 83 can pump water below the special-shaped drain tank 71 to the position above the special-shaped drain tank 71 through the guide pipe 82 and the one-way valve 85. After the work is finished, the servo motor 24 is manually turned off by a worker, so that the equipment stops operating.

Example 5

On the basis of the embodiment 4, as shown in fig. 16, the water blocking device further comprises a water blocking frame 9, wherein the water blocking frame 9 is arranged on the special-shaped water draining box 71, and the water blocking frame 9 is used for blocking water in the special-shaped water draining box 71.

When the push plate 74 scrapes the plastic garbage floating on the surface of the special-shaped water draining box 71, the water retaining frame 9 can block the water in the special-shaped water draining box 71, so that the water in the special-shaped water draining box 71 is prevented from being spilled out of the equipment.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a can select separately equipment of building rubbish many times based on environmental protection industry which characterized in that, including bottom plate (1), abnormal shape support frame (21), four corners trompil frame (22), motor supporting seat (23), servo motor (24), waste soil accomodate frame (25), waste soil divides screen assembly (3), crushing assembly (4) and intermittent type transport subassembly (5):

the special-shaped support frame (21) is fixedly arranged on the top surface of the bottom plate (1), the special-shaped support frame (21) is long, the special-shaped support frame (21) is positioned on the whole production line, and triangular lugs are arranged on the special-shaped support frame (21) in a circumferential distribution mode;

the four-corner perforating frame (22) is fixedly arranged on the special-shaped supporting frame (21);

the motor support seat (23) is fixedly arranged on the special-shaped support frame (21);

the servo motor (24) is fixedly arranged on the motor supporting seat (23), and the servo motor (24) is used for providing driving power for equipment;

the waste soil accommodating frame (25), the waste soil accommodating frame (25) is fixedly arranged on the special-shaped supporting frame (21);

the special-shaped support frame (21) is provided with a waste soil screening assembly (3), and the waste soil screening assembly (3) is used for screening dust and impurities in the construction waste;

the crushing assembly (4) is arranged at the top of the four-corner perforated frame (22), and the crushing assembly (4) is used for crushing the construction waste from which dust and impurities are removed;

the intermittent conveying assembly (5) is arranged on the four-corner perforated frame (22), and the intermittent conveying assembly (5) is used for intermittently conveying crushed building wastes;

the waste soil screening assembly (3) comprises a spline shaft (31), a sliding gear (32), a first return spring (33), a chain (34), a chain sleeve (35), a filter belt (36) and an arc-shaped baffle plate (37), wherein two spline shafts (31) are rotatably connected to the special-shaped support frame (21), two sliding gears (32) are connected to the spline shaft (31) in a sliding mode, the first return spring (33) is fixedly connected to one side of the sliding gear (32), one end of the first return spring (33) is connected with the spline shaft (31), the chain (34) is connected between the two sliding gears (32) on the same side in a transmission mode, the chain sleeve (35) is connected to the chain sleeve (34) in a uniformly distributed mode, the chain sleeve (35) is in mutual contact with the special-shaped support frame (21), the filter belt (36) is jointly arranged on the two chains (34), the arc-shaped baffle plate (37) is arranged on the waste soil storage frame (25), and the filter belt (36) is in mutual contact with the arc-shaped baffle plate (37);

the crushing assembly (4) comprises a special-shaped blanking frame (41), a first roller (42), a transmission gear (43) and a second roller (44), wherein the special-shaped blanking frame (41) is fixedly arranged at the top of the four-corner perforating frame (22), the special-shaped blanking frame (41) is in contact with the filter belt (36), the first roller (42) is rotationally connected to the special-shaped blanking frame (41), the first roller (42) is fixedly connected with the two transmission gears (43), the second roller (44) is likewise rotationally connected to the special-shaped blanking frame (41), the first roller (42) is in contact with the second roller (44), the second roller (44) is likewise fixedly connected with the two transmission gears (43), and the two transmission gears (43) on the same side are meshed with each other;

the intermittent conveying assembly (5) comprises rolling shafts (51), conveying belts (52), L-shaped supporting frames (53), belt wheels I (54), belt wheels I (55), intermittent gears (56) and sector gears (57), wherein two rolling shafts (51) are rotatably connected to a four-corner perforating frame (22), the conveying belts (52) are jointly connected to the two rolling shafts (51) in a transmission mode, the L-shaped supporting frames (53) are fixedly connected to the special-shaped supporting frames (21), belt wheels I (54) are rotatably connected to the L-shaped supporting frames (53), belt wheels I (54) are fixedly connected to the two rollers II (44), belt wheels I (55) are fixedly connected to the spline shaft (31) in the same mode, the belt wheels I (54) are jointly connected with the belt wheels I (55), the intermittent gears (56) are fixedly connected to the roller wheels I (51), the sector gears (57) are rotatably connected to the L-shaped supporting frames (53) in the same rotation mode, the two intermittent gears (56) are meshed with each other, and the sector gears (57) are meshed with the intermittent gears (56) in the same mode;

the magnetic separating assembly (6) is symmetrically arranged on the four-corner perforating frame (22), the magnetic separating assembly (6) comprises a special-shaped material frame (61), a special-shaped grooving frame (62), a special-shaped gear (63), a sliding rack (64), a second reset spring (65), a deflector rod sliding frame (66), a third reset spring (67), a deflector rod grooving frame (68), a fourth reset spring (69), a control switch (610), an electromagnet block (611) and a fifth reset spring (612), the special-shaped material frame (61) is symmetrically arranged on the four-corner perforating frame (22), the special-shaped grooving frame (62) is fixedly arranged on the special-shaped material frame (61), the special-shaped blanking frame (41) is symmetrically and rotatably connected with the special-shaped gear (63), the special-shaped gear (63) is meshed with the transmission gear (43) on the same side, the sliding rack (64) is connected with the special-shaped gear (64) in a sliding manner, the sliding rack (64) is fixedly connected with the second reset spring (65), one end of the special-shaped grooving frame (62) is fixedly connected with the deflector rod sliding frame (66), the driving lever sliding frame (66) is in contact with the sliding rack frame (64), a third reset spring (67) is connected between the driving lever sliding frame (66) and the special-shaped slotted frame (62), the driving lever slotted frame (68) is connected to the driving lever sliding frame (66) in a lifting mode, the driving lever slotted frame (68) is in limit fit with the special-shaped slotted frame (62), a fourth reset spring (69) is connected between the driving lever sliding frame (66) and the driving lever slotted frame (68), a control switch (610) is fixedly arranged on the special-shaped slotted frame (62), the control switch (610) is in contact with the driving lever sliding frame (66), an electromagnet block (611) is connected to the driving lever slotted frame (68) in a lifting mode, a fifth reset spring (612) is fixedly connected to the top surface of the electromagnet block (611), and one end of the fifth reset spring (612) is fixedly connected with the driving lever slotted frame (68).

The water separation device comprises a water separation assembly (7), the top surface of a bottom plate (1) is provided with the water separation assembly (7), the water separation assembly (7) comprises a special-shaped water drainage box (71), an N-type supporting frame (72), a reciprocating screw (73), a push plate (74), a belt pulley II (75), a belt II (76), a small filter screen (77), a large filter screen (78), a sliding plate (79), a rectangular slotting frame (710) and a sixth return spring (711), the special-shaped water drainage box (71) is fixedly arranged on the top surface of the bottom plate (1), the special-shaped water drainage box (71) is mutually contacted with a conveyor belt (52), the N-type supporting frame (72) is symmetrically arranged on the special-shaped blanking frame (41), the reciprocating screw (73) is connected with the push plate (74) in a threaded connection manner, the push plate (74) is mutually contacted with the special-shaped water drainage box (71), the belt pulley II (75) is fixedly connected with the other roller (51), the belt pulley II (75) is also fixedly connected with the belt pulley II (75) between the two belt pulleys (75), the special-shaped water drainage box (71) is internally provided with the belt II (71), the rectangular slotting frame (710) is fixedly arranged on the special-shaped drainage box (71), the sliding plate (79) is connected to the rectangular slotting frame (710) in a sliding mode, the sliding plate (79) is connected with the special-shaped drainage box (71) in a sliding mode, and a sixth reset spring (711) is connected between the sliding plate (79) and the rectangular slotting frame (710);

the special-shaped drainage box is characterized by further comprising a backflow assembly (8), wherein the backflow assembly (8) is arranged on the special-shaped drainage box (71), the backflow assembly (8) comprises a special-shaped push rod (81), a guide pipe (82), a special-shaped piston rod (83), a seventh reset spring (84) and a one-way valve (85), the special-shaped push rod (81) is fixedly connected to the sliding rack frame (64), two guide pipes (82) are communicated to the special-shaped drainage box (71), the special-shaped piston rod (83) is welded at one end of the special-shaped push rod (81), the special-shaped piston rod (83) is connected with the two guide pipes (82) in a sliding mode, the special-shaped piston rod (83) is in contact with the special-shaped drainage box (71), the special-shaped piston rod (83) is in contact with the sliding plate (79), the seventh reset spring (84) is fixedly connected to the guide pipe (82), and the one end of the seventh reset spring (84) is fixedly connected with the one-way valve (85) is arranged in the guide pipe (82).

2. The apparatus for multiple sorting of construction waste according to claim 1, wherein the first and second rollers (42, 44) are cylindrical rollers, the cylindrical surfaces of the first and second rollers (42, 44) are tapered surfaces, the first and second rollers (42, 44) rotate in opposite directions during operation, and the construction waste is fully caught in a crushing chamber formed by the first and second rollers (42, 44) due to friction between the tapered surfaces of the first and second rollers (42, 44) to be crushed, and the size of a gap between the first and second rollers (42, 44) determines the maximum size of the crushed construction waste.

3. The device capable of sorting construction waste for multiple times based on the environment-friendly industry as claimed in claim 1, further comprising a water blocking frame (9), wherein the water blocking frame (9) is arranged on the special-shaped drainage box (71).