CN112122300A

CN112122300A - Building engineering refuse treatment equipment

Info

Publication number: CN112122300A
Application number: CN202010763160.7A
Authority: CN
Inventors: 林宇
Original assignee: 林宇
Current assignee: Tianjia Construction Group Co.,Ltd.
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-12-25
Anticipated expiration: 2040-07-31
Also published as: CN112122300B

Abstract

The invention discloses a construction engineering garbage treatment device, which structurally comprises a feeding box, a control box, a shredding box, a conveying box, a treatment box, a handle, a drawing box and a storage box, wherein the feeding box is arranged in front of the shredding box, the control box is fixedly connected with the shredding box, the conveying box is arranged on the right side of the shredding box, the treatment box is arranged on the side surface of the conveying box, the storage box is fixedly connected with the treatment box, the treatment box is in sliding connection with the drawing box, and the drawing box and the handle are of an integrated structure. And an opening is arranged to allow dust to enter the dust cavity.

Description

Building engineering refuse treatment equipment

Technical Field

The invention relates to the field of garbage treatment, in particular to a garbage treatment device for constructional engineering.

Background

The construction waste is waste generated in the construction industries of demolition, construction, decoration and the like, generally is waste such as waste concrete, old masonry and the like, and is waste with higher hardness individual ratio, so people generally select targeted waste treatment equipment such as waste treatment equipment of construction engineering;

in the prior art, the building rubbish is firstly ground by the rubbish treatment equipment of the building engineering and then treated, a lot of dust scraps can be generated after the building rubbish is ground, the rubbish treatment equipment conveys the ground building rubbish through a transmission belt, the transmission shaft is generally arranged at a high position, the ground building rubbish can freely fall to the ground, the dust scraps mixed with the building rubbish are light in weight and can float around to cause dust storm due to the influence of factors such as air resistance in the falling process.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a construction engineering garbage treatment device structurally comprises a feeding box, a control box, a reaming and crushing box, a conveying box, a treatment box, a handle, a drawing box and a storage box, wherein the feeding box is arranged in front of the reaming and crushing box, the control box is fixedly connected with the reaming and crushing box, the conveying box is arranged on the right side of the reaming and crushing box, the treatment box is arranged on the side surface of the conveying box, the storage box is fixedly connected with the treatment box, the treatment box is connected with the drawing box in a sliding mode, and the drawing box and the handle are of an integrated structure;

the processing box is provided with a box body, a processor, a material guide pipe, a discharging cavity, a conveying shaft, a spring block and a conveying belt, the box body is mechanically connected with the processor, the material guide pipe is arranged below the processor, the conveying shaft is movably connected with the box body through a connecting shaft, the conveying shaft is connected with the conveying belt in a sliding mode, the spring block is arranged at the middle of the conveying belt, and the box body is fixedly connected with the discharging cavity.

As a further optimization of the technical scheme, the conveying surface of the conveying belt is of a net-shaped structure, the tops of the spring blocks are arc-shaped surfaces, the tops of the spring blocks are respectively propped against the conveying belt, and the vibration springs are arranged inside the spring blocks.

As a further optimization of the technical scheme, the processor is provided with a screw rod, a side rotating fan, a sliding wall, a rotating fan, a fixed plate, a movable plate, a supporting arc, a blocking block, a rotating thread, a closing plate, a device body, a material smashing device, a blocking block, a filter screen, a movable block and a buckle device, wherein the screw rod is arranged above the device body and is in sliding connection with the movable block, the other end of the movable block is mechanically connected with the sliding wall, the rotating fan is arranged above the movable block, the side rotating fan is fixedly connected with the rotating fan, the fixed plate is arranged at the bottom of the device body, the movable plate and the fixed plate are movably connected through a connecting shaft, the supporting arc is arranged at the connecting junction of the fixed plate and the movable plate, the buckle device is arranged on the movable plate, the rotating thread is in sliding connection with the closing plate, and the closing plate is movably connected, smash glassware and ware mechanical connection, the bend department at the ware body is established to the filter screen, it is connected with the filter screen block to block the piece, block piece and ware body fixed connection, the cylinder structure of hob is the helicoid structure to the left side knob, the support arc is half round spring arc axle, the centre of supporting the arc is equipped with the support column, the support column of support arc passes through pulley and spring arc axle sliding connection, the screw bolt that rotates the screw thread front end passes through loose axle and connecting block swing joint, the connection fretwork mouth of rotatory fan is unanimous with the fretwork mouth of movable block.

As a further optimization of the technical scheme, the filter screen is of a net structure with a hemispherical structure, arc-shaped grooves are formed in the two sides of the filter screen, the grooves extend out of the inclined edges, and the grooves and the inclined edges of the filter screen are matched with the blocking blocks.

As a further optimization of the technical scheme, the front end of the rotating fan is provided with an arc-shaped fan blade, the side face of the rotating fan is provided with a side rotating fan, the fan blade of the side rotating fan faces the sliding wall, and the blade above the side rotating fan is twice larger than the blade below the side rotating fan.

As a further optimization of this technical scheme, the buckle ware is equipped with the support bar, supports post, block wall, sliding chamber, slider, the buckle body, the support bar passes through connecting axle swing joint with supporting the post, support the top and the buckle body fixed connection of post, slider and sliding chamber sliding connection, the support bar has been connected on the slider, be equipped with sliding chamber on the block wall, the block wall is the protruding piece extension structure of fly leaf, the block wall of fly leaf juncture is anastomotic mutually, the top of support bar, the buckle body and supporting the post all is divided into two parts swing joint with it by a loose axle.

As a further optimization of the technical scheme, the moving block is provided with a sliding shaft, a ring shaft and a lifting block, the sliding shaft is provided with the ring shaft, the ring shaft is connected with the lifting block in a sliding manner, the ring shaft is a circular ring body, the ring shaft is arranged on the side surface of the lifting block, a hollowed-out opening is formed in the center of the lifting block, two sides of the hollowed-out opening of the lifting block are of semi-circular arc structures, and the middle connection position is an inward concave arc edge.

As a further optimization of the technical scheme, the material smashing device is provided with a net ball body, a closing shaft, a spring shaft, a sliding arc, a clamping shaft, a connecting cavity, a transition block, a rotating shaft, a vibrating clamping block and a pressing shaft, wherein the pressing shaft and the vibrating clamping block are movably connected through the connecting shaft, the rotating shaft and the pressing shaft are in sliding connection, the transition block and the rotating shaft are fixedly connected, the rotating shaft and the connecting cavity are mechanically connected, the net ball body is arranged on the connecting cavity, the closing shaft and the clamping shaft are respectively connected to two ends of the connecting cavity, the sliding arc is in sliding connection with the closing shaft, the spring shaft is respectively and fixedly connected with the front ends of the sliding arc and the clamping shaft, the transition block is of an arched cambered surface structure, the radian of the transition block is downward, the front end of the pressing shaft is provided with a sliding rail, and the ends of the closing shaft and.

As a further optimization of the technical scheme, the net ball body is of a ball net structure, the outer ring of the center of the net ball body is surrounded by the connecting cavity, the center of the other side of the net ball body is connected with the rotating shaft, the outlet of the net ball body is provided with the buffer slope, and the connecting cavity is internally provided with the vibration spring block.

Advantageous effects

Compared with the prior art, the construction engineering garbage treatment equipment has the following advantages:

1. the conveying surface of the conveying belt is of a net structure, when the crushed stone blocks are conveyed at last, the residual garbage on the conveying belt can fall onto the drawing box through the net structure, the spring block can realize the complete falling of dust through vibration shaking, the top of the spring block is of an arc surface, the dust can slide along the arc edge and cannot be buckled in the cavity to cause equipment blockage.

2. The support arc is a semicircular spring arc shaft, the support column is arranged in the middle of the semicircular spring arc shaft, a triangular arc buckling column is formed between the support column and the fixed plate and between the support column and the movable plate, and the triangular arc buckling column and the arc buckling column have stability in structure with an arc shape, so that the connection between the fixed plate and the movable plate can be reinforced, and the phenomenon of collapse caused by excessive dust accumulation can be prevented.

3. The filter screen is of a mesh structure with a hemispherical structure, the hemispherical body is of an arched structure, the arched structure has the characteristic of compression resistance, when crushed stones fall, some stones can be ejected to impact the filter screen, the filter screen can resist the impact force of the stones, the grooves and the inclined edges of the filter screen are matched with the blocking blocks, the blocking blocks can be perfectly combined together, the space is saved, and openings are formed to allow dust to enter the dust cavity.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the overall structure of a construction engineering waste treatment device.

FIG. 2 is a schematic view of the structure of the treatment tank of the present invention.

FIG. 3 is a diagram of a processor according to the present invention.

Fig. 4 is a diagram of the operation state of fig. 3.

Fig. 5 is a schematic structural view of the fastener of the present invention.

Fig. 6 is a schematic diagram of a moving block structure according to the present invention.

Fig. 7 is a schematic structural diagram of the ramming device of the present invention.

In the figure: the feeding box 1, the control box 2, the shredding box 3, the conveying box 4, the processing box 5, the handle 6, the drawing box 7, the storage box 8, the box body 50, the processor 51, the guide pipe 52, the discharging cavity 53, the conveying shaft 54, the spring block 55, the conveying belt 56, the screw rod 511, the side rotating fan 512, the sliding wall 513, the rotating fan 514, the fixed plate 515, the movable plate 516, the supporting arc 517, the blocking block 518, the rotating thread 519, the closing plate 51a, the box body 51b, the material pounding device 51c, the blocking block 51d, the filtering net 51e, the moving block 51f, the fastener A, the supporting bar a1, the prop a2, the fastening wall a3, the sliding cavity a4, the sliding block a6, the fastener a7, the sliding shaft 1f1, the ring shaft 1f2, the lifting block 1f3, the ring shaft 1f2, the tennis ball 1c0, the closing shaft 1c1, the rotating shaft 1c2, the sliding shaft 1c 38, the ring 4, the transition block 1c 26, the transition block 2, the transition block 1c2, the vibration clamping block 1c8 and the pressing shaft 1c 9.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-6, the invention provides a construction engineering garbage treatment device, which structurally comprises a feeding box 1, a control box 2, a shredding box 3, a conveying box 4, a treatment box 5, a handle 6, a drawing box 7 and a storage box 8, wherein the feeding box 1 is installed in front of the shredding box 3, the control box 2 is fixedly connected with the shredding box 3, the conveying box 4 is arranged on the right side of the shredding box 3, the treatment box 5 is arranged on the side surface of the conveying box 4, the storage box 8 is fixedly connected with the treatment box 5, the treatment box 5 is slidably connected with the drawing box 7, and the drawing box 7 and the handle 6 are of an integrated structure;

the treatment box 5 is provided with a box body 50, a processor 51, a material guide pipe 52, a discharge cavity 53, a conveying shaft 54, a spring block 55 and a conveyor belt 56, the box body 50 is mechanically connected with the processor 51, the material guide pipe 52 is arranged below the processor 51, the conveying shaft 54 is movably connected with the box body 50 through a connecting shaft, the conveying shaft 54 is slidably connected with the conveyor belt 56, the spring block 55 is arranged in the middle of the conveyor belt 56, and the box body 50 is fixedly connected with the discharge cavity 53, so that dust mixed with stones is ground.

The conveying surface of the conveying belt 56 is of a net-shaped structure, the top of the spring block 55 is of an arc-shaped surface, the top of the spring block 55 is respectively supported on the conveying belt 56, and the spring block 55 is internally provided with a vibration spring to realize the final conveying of stones.

The processor 51 is provided with a screw rod 511, a side rotating fan 512, a sliding wall 513, a rotating fan 514, a fixed plate 515, a movable plate 516, a supporting arc 517, a blocking block 518, a rotating thread 519, a closing plate 51a, a device body 51b, a material smashing device 51c, a blocking block 51d, a filter screen 51e, a moving block 51f and a fastener A, wherein the screw rod 511 is arranged above the device body 51b, the screw rod 511 is connected with the moving block 51f in a sliding manner, the other end of the moving block 51f is mechanically connected with the sliding wall 513, the rotating fan 514 is arranged above the moving block 51f, the side rotating fan 512 is fixedly connected with the rotating fan 514, the fixed plate 515 is arranged at the bottom of the device body 51b, the movable plate 516 and the fixed plate 515 are movably connected through a connecting shaft, the supporting arc 517 is arranged at the junction of the fixed plate 515 and the movable plate 516, the fastener A is arranged on the movable plate, the rotary screw thread 519 is slidably connected with the closed plate 51a, the closed plate 51a is movably connected with the container body 51b through a movable shaft, the material smashing device 51c is mechanically connected with the container body 51b, the filter screen 51e is arranged at the bending position of the container body 51b, the blocking block 51d is connected with the filter screen 51e in a clamping manner, the blocking block 518 is fixedly connected with the container body 51b, the cylinder structure of the screw rod 511 is a spiral surface structure of a left-side knob, the supporting arc 517 is a semicircular spring arc-shaped shaft, a supporting column is arranged in the middle of the supporting arc 517, the supporting column of the supporting arc 517 is slidably connected with the spring arc-shaped shaft through a pulley, a threaded bolt at the front end of the rotary screw thread 519 is movably connected with a connecting block through the movable shaft, a connecting hollow opening of the rotary fan 514 is consistent with a hollow opening of the movable block 51f, and suction force is generated in the dust cavity through, and (5) sucking dust.

The filter screen 51e is of a net structure with a hemispherical structure, arc-shaped grooves are formed in two sides of the filter screen 51e, the grooves extend out of the inclined edges, and the grooves of the filter screen 51e are matched with the inclined edges and the blocking blocks 51d to block stones from entering the cavity.

The front end of rotatory fan 514 is equipped with the arc flabellum, be equipped with sideslip fan 512 on the side of rotatory fan 514, the flabellum of sideslip fan 512 is towards smooth wall 513, the blade of sideslip fan 512 top is twice more than the blade of below, further increases the suction in the intracavity.

The buckle device A is provided with a supporting strip a1, a resisting column a2, a clamping wall a3, a sliding cavity a4, a sliding block a6 and a buckle body a7, the supporting strip a1 and the resisting column a2 are movably connected through a connecting shaft, the top of the resisting column a2 is fixedly connected with the buckle body a7, the sliding block a6 is in sliding connection with the sliding cavity a4, the supporting strip a1 is connected to the sliding block a6, the sliding cavity a4 is arranged on the clamping wall a3, the clamping wall a3 is a protruding block extending structure of the movable plate 516, the clamping wall a3 at the junction of the movable plate 516 is matched, and the tops of the supporting strip a1, the buckle body a7 and the resisting column a2 are all movably connected by a movable shaft into two parts, so that the bottom plate of the dust cavity is closed.

The moving block 51f is provided with a sliding shaft 1f1, an annular shaft 1f2 and a lifting block 1f3, the sliding shaft 1f1 is provided with an annular shaft 1f2, the annular shaft 1f2 is in sliding connection with the lifting block 1f3, the annular shaft 1f2 is a circular ring body, the annular shaft 1f2 is arranged on the side face of the lifting block 1f3, a hollow opening is formed in the center of the lifting block 1f3, two sides of the hollow opening of the lifting block 1f3 are in a semi-arc structure, and the middle connection part is an inward-recessed arc edge, so that the rotation of the fan blades is realized.

Building rubbish is thrown into the feeding box 1 by means of bulldozer equipment, a power supply is started, the feeding box 1 crushes the building rubbish, the building rubbish enters the processing box 5 under the matching of the conveying box 4, at the moment, the closing plate 51a is in a closed state, the closing plate is fixed with the fixed plate 515 through the movement of the connecting shaft of the rotating thread 519 and the rotation of the bolt at the front end, the movable plate 516 in the dust cavity is also in a closed state, the clamping wall a3 is clamped with the clamping body a7, in the clamping state, the supporting bar a1, the abutting column a2 and the clamping body a7 form a clamping arc structure, the connection among the clamping wall a3 and the clamping body a7 forms a plurality of triangular structures, the closing firmness of the movable plate 516 when the closing is improved, then the blocking block 51d is attached to the groove of the filter screen 51e through the rotation of the connecting shaft, so that the filter screen 51e has a feeding hole, the sliding shaft 1f1 connected with the, the special structure of the hollowed-out opening of the lifting block 1f3 can be attached to the spiral structure of the spiral rod 511, the lifting block 1f3 is movably connected with the ring shaft 1f2, when the moving block 51f rises, the lifting block 1f3 takes the ring shaft 1f2 as the moving shaft, the lifting block 1f3 rotates and rises along the spiral structure of the spiral rod 511, the hollowed-out opening of the rotating fan 514 which falls on the lifting block 1f3 is consistent with the lifting block 1f3, under the action of the pushing force at the rear end, the rotating fan 514 rotates upwards, and the spiral radian of the spiral rod 511 is leftward, so that the rotating fan 514 rotates upwards in the counterclockwise direction, the counterclockwise rotation can generate reverse air flow, so that sufficient suction force is provided in the cavity to suck dust on the device body 51b, and when the rotating fan 514 moves upwards, the side rotating fan 512 can be influenced by the air resistance above the cavity due to make the side rotating fan 512 rotate, further increase the suction, at this moment the filter screen 51e can block the stone, has realized stone and dust separation, when the movable block 51f slips down, the rotating fan 514 is rotated clockwise, can produce wind-force, slider a6 slides along sliding chamber a4 at this moment, because the top of support bar a1, buckle body a7 and support post a2 are divided into two parts by a movable shaft and are connected movably, under the pulling force effect, support bar a1, buckle body a7 and support post a2 all will take the clamping and overturn, the clamping angle diminishes, buckle ware A releases the buckle, the movable plate 516 turns over downwards, support arc 517 is extruded to one side, and the support column that support arc 517 is connected with sliding, combine the characteristic that the radius of circle is all unanimous, the support column will be slided to one side too, thus the dust chamber will have the opening, the dust will all slide to the storage box 8 through the guide tube 52, the wind power generated by the falling of the rotating fan 514 blows the dust in the cavity to the material guide pipe 52, in the process, as the rotating fan 514 generates the wind power, the blocking block 51d is blown to turn over outwards under the influence of the acting force generated by the wind power and is propped and buckled by the blocking block 518, the turning angle is prevented from being too large, so that the blocking block 51d completely blocks the outlet of the filter screen 51e, and the dust is prevented from running out of the cavity again.

Example two

Referring to fig. 1-7, the invention provides a construction engineering garbage treatment device, which structurally comprises a feeding box 1, a control box 2, a shredding box 3, a conveying box 4, a treatment box 5, a handle 6, a drawing box 7 and a storage box 8, wherein the feeding box 1 is installed in front of the shredding box 3, the control box 2 is fixedly connected with the shredding box 3, the conveying box 4 is arranged on the right side of the shredding box 3, the treatment box 5 is arranged on the side surface of the conveying box 4, the storage box 8 is fixedly connected with the treatment box 5, the treatment box 5 is slidably connected with the drawing box 7, and the drawing box 7 and the handle 6 are of an integrated structure;

The stoker 51c is provided with a net ball 1c0, a closing shaft 1c1, a spring shaft 1c2, a sliding arc 1c3, a buckling shaft 1c4, a connecting cavity 1c5, a transition block 1c6, a rotating shaft 1c7, a vibrating fixture block 1c8 and a pressing shaft 1c9, wherein the pressing shaft 1c9 and the vibrating fixture block 1c8 are movably connected through a connecting shaft, the rotating shaft 1c7 is slidably connected with the pressing shaft 1c7, the transition block 1c7 is fixedly connected with the rotating shaft 1c7, the rotating shaft 1c7 is mechanically connected with the connecting cavity 1c7, the net ball 1c7 is arranged on the connecting cavity 1c7, two ends of the connecting cavity 1c7 are respectively connected with the closing shaft 1c7 and the buckling shaft 1c7, the sliding arc 1c7 is slidably connected with the closing shaft 1c7, the spring shaft 1c7 is fixedly connected with the front end of the buckling shaft 1c7, and the transition block 7 is of an arc 7 structure, its radian is downward, the front end of last axle 1c9 is equipped with the slide rail, close axle 1c1 and buckle axle 1c4 port department establish by identical notch, further realize the separation of stone and dust.

The net ball body 1c0 is a ball net structure, the center outer ring of the net ball body 1c0 is surrounded by a connecting cavity 1c5, the center of the other side of the net ball body 1c0 is connected with a rotating shaft 1c7, a buffering slope is arranged at the outlet of the net ball body 1c0, and a vibration spring block is arranged in the connecting cavity 1c5, so that the fallen dust can be separated from the net structure.

In the first embodiment, a stoker 51c is installed on the left side of the body 51b, when the crushed stone enters the body 51b, the closing shaft 1c1 and the fastening shaft 1c4 are separated, so that the stoker 51c is provided with an opening, the rotating shaft 1c7 moves upward along the slide rail of the pressing shaft 1c9, the net ball 1c0 rotates along the connecting shaft of the rotating shaft 1c7 by a certain angle under the cooperation of the control box 2, so that the fallen stone falls into the net ball 1c0, when the stone falls into the net ball 1c0 completely, the closing shaft 1c1 and the fastening shaft 1c4 extend forward to be fastened with each other, and the spring shaft 1c2 on the closing shaft 1c1 and the fastening shaft 1c4 is pulled during the extension process to seal the connecting gap, reduce the discharge port, since the front end of the closing shaft 1c1 is fastened inside the fastening shaft 4, so that the diameter of the fastening shaft 1 is smaller than that of the fastening shaft 4, the spring shaft 1c2 makes the spring shaft 1c2 and the spring body of the snap shaft 1c4 level by means of the sliding arc 1c3 to better seal the opening, then the net ball body 1c0 rotates along the connecting shaft at the rotating shaft 1c7, in the rotating process, the stone in the cavity of the tennis ball body 1c0 collides, the dust attached to the stone falls off by the force of the collision, the spring in the connecting cavity 1c5 vibrates, and under the cooperation of the vibration fixture block 1c8, the tennis ball body 1c0 is subjected to the vibration force, further the dust falls off more completely, the pressing shaft 1c9 rotates back and forth along the movable shaft, the vibration force is generated, the vibration force is increased, the dust falling off from the tennis ball body 1c0 slides down along the transition block 1c6, due to the arched cambered surface structure during the transition block, the rotating shaft 1c7 can be covered, the phenomenon that the dust is accumulated at the clamped corner of the rotating shaft 1c7 can not occur, when the dust completely falls off, the connecting shaft of the rotating shaft 1c7 rotates downwards along the movable shaft, the closed shaft 1c1 and the buckle shaft 1c4 face downwards, at the moment, the closed shaft 1c1 and the buckle shaft 1c4 are retracted, the cavity opening is opened, the stone inside slides down, the buffer slope on the net ball body 1c0 plays a role in buffering when the stone falls, the impact force for preventing the falling of the stone is too large, the equipment is damaged, when the stone falls, the closing plate 51a is in an opened state, the stone falls onto the conveyor belt 56, the stone is conveyed out from the discharge cavity 53 under the cooperation of the conveying shaft 54, the dust falls onto the drawing box 7 of the storage box 8, after the equipment works, the drawing box 7 is pulled out from the storage box 8 through the handle 6, the powder is sorted out, and the powder is cleaned.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a building engineering refuse treatment equipment which characterized in that: the structure of the device comprises a feeding box (1), a control box (2), a reaming and crushing box (3), a conveying box (4), a processing box (5), a handle (6), a drawing and pulling box (7) and a storage box (8), wherein the feeding box (1) is installed in front of the reaming and crushing box (3), the control box (2) is fixedly connected with the reaming and crushing box (3), the conveying box (4) is arranged on the right side of the reaming and crushing box (3), the processing box (5) is arranged on the side surface of the conveying box (4), the storage box (8) is fixedly connected with the processing box (5), the processing box (5) is slidably connected with the drawing and pulling box (7), and the drawing and pulling box (7) and the handle (6) are of an integrated structure;

handle case (5) and be equipped with box (50), treater (51), passage (52), ejection of compact chamber (53), conveying axle (54), spring block (55), conveyer belt (56), box (50) and treater (51) mechanical connection, passage (52) are established in treater (51) below, conveying axle (54) and box (50) are through connecting axle swing joint, conveying axle (54) and conveyer belt (56) sliding connection, the middle part at conveyer belt (56) is installed in spring block (55), box (50) and ejection of compact chamber (53) fixed connection.

2. The construction engineering waste disposal apparatus according to claim 1, wherein: the conveying surface of the conveying belt (56) is of a net structure, the top of each spring block (55) is of an arc-shaped surface, and the top of each spring block (55) is respectively propped against the conveying belt (56).

3. The construction engineering waste disposal apparatus according to claim 2, wherein: the processor (51) is provided with a screw rod (511), a side rotating fan (512), a sliding wall (513), a rotating fan (514), a fixed plate (515), a movable plate (516), a support arc (517), a blocking block (518), a rotating thread (519), a closing plate (51a), a device body (51b), a material smashing device (51c), a blocking block (51d), a filter screen (51e), a moving block (51f) and a buckle device (A), the screw rod (511) is arranged above the device body (51b), the screw rod (511) is in sliding connection with the moving block (51f), the other end of the moving block (51f) is in mechanical connection with the sliding wall (513), the rotating fan (514) is arranged above the moving block (51f), the side rotating fan (512) is fixedly connected with the rotating fan (514), the fixed plate (515) is arranged at the bottom of the device body (51b), and the movable plate (516) is movably connected with the fixed plate (515) through a connecting shaft, support arc (517) and establish the connection juncture at fixed plate (515) and fly leaf (516), buckle ware (A) is established on fly leaf (516), rotate screw thread (519) and closing plate (51a) sliding connection, closing plate (51a) are through loose axle and ware body (51b) swing joint, smash glassware (51c) and ware body (51b) mechanical connection, the department of bending at ware body (51b) is established in filter screen (51e), it is connected with filter screen (51e) block to hinder piece (51d), block piece (518) and ware body (51b) fixed connection, the cylinder structure of hob (511) is the helicoidal surface structure to the left side knob, support arc (517) is semicircle spring arc axle.

4. A construction waste disposal device according to claim 3, wherein: the filter screen (51e) is of a net structure with a hemispherical structure, arc-shaped grooves are formed in two sides of the filter screen (51e), and the grooves extend out of the inclined edge.

5. A construction waste disposal device according to claim 3, wherein: the front end of rotatory fan (514) is equipped with the arc flabellum, be equipped with sideslip fan (512) on the side of rotatory fan (514).

6. A construction waste disposal device according to claim 3, wherein: buckle ware (A) is equipped with support bar (a1), supports post (a2), block wall (a3), sliding chamber (a4), slider (a6), the buckle body (a7), support bar (a1) and support post (a2) are through connecting axle swing joint, the top and the buckle body (a7) fixed connection of support post (a2), slider (a6) and sliding chamber (a4) sliding connection, support bar (a1) has been connected on slider (a6), be equipped with sliding chamber (a4) on block wall (a 3).

7. A construction waste disposal device according to claim 3, wherein: the moving block (51f) is provided with a sliding shaft (1f1), a ring shaft (1f2) and a lifting block (1f3), the sliding shaft (1f1) is provided with the ring shaft (1f2), and the ring shaft (1f2) is connected with the lifting block (1f3) in a sliding mode.

8. A construction waste disposal device according to claim 3, wherein: the stoker (51c) is provided with a net ball body (1c0), a closing shaft (1c1), a spring shaft (1c2), a sliding arc (1c3), a buckle shaft (1c4), a connecting cavity (1c5), a transition block (1c6), a rotating shaft (1c7), a vibrating fixture block (1c8) and a pressing shaft (1c9), wherein the pressing shaft (1c 365) and the vibrating fixture block (1c 57323) are movably connected through a connecting shaft, the rotating shaft (1c7) is slidably connected with the pressing shaft (1c9), the transition block (1c6) is fixedly connected with the rotating shaft (1c7), the rotating shaft (1c7) is mechanically connected with a connecting cavity (1c5), the connecting cavity (1c5) is provided with the net ball body (1c0), two ends of the connecting cavity (1c5) are respectively connected with the closing shaft (1c1) and the buckle shaft (1c4), and the sliding arc (1) is slidably connected with the closing shaft (1), the spring shaft (1c2) is fixedly connected with the front ends of the sliding arc (1c3) and the buckle shaft (1c4) respectively.

9. The construction engineering waste disposal apparatus of claim 8, wherein: the net ball body (1c0) is a ball net structure, the central outer ring of the net ball body (1c0) is surrounded by the connecting cavity (1c5), and the other side center of the net ball body (1c0) is connected with the rotating shaft (1c 7).