CN208894383U - Waste material crushing and screening device and waste material screening plant - Google Patents

Abstract

The utility model provides a kind of waste material crushing and screening device and waste material screening plant, is related to the technical field of screening plant.Waste material crushing and screening device includes mounting rack, broken portion, press section, screening portion and discharging portion；One end of mounting rack is equipped with feed pipe, and the discharge port of the feed inlet and feed pipe that are crushed portion connects, and the feed inlet of the discharge port and press section that are crushed portion connects, and the discharge port of press section is connect with the feed inlet in screening portion；The other end of mounting rack is equipped with discharge nozzle, and screening portion is connected at discharge nozzle, and the feed inlet of discharging portion is connect with the discharge port in screening portion.The technical issues of solving crusher, structure is complicated, and crushing effect is poor, consuming longevity of service, waste of resource.The broken portion, press section, screening portion and discharging portion of the utility model are connected in turn on mounting rack, are crushed abandoned building gradually, crush, are sieved, and are crushed, good crushing effect, can timely be recycled after crushing, save resource.

Description

Waste material crushing and screening device and waste material screening plant

Technical field

The utility model relates to the technical fields of screening plant, more particularly, to a kind of waste material crushing and screening device and waste material Screening plant.

Background technique

During building field, construction, need to dismantle some discarded buildings, to build new building.? When dismantling abandoned building, to avoid the influence caused by ambient enviroment of these wastes, need to carry out brokenly these wastes It is broken, to recycle.

When being crushed to waste, crusher is mainly used, crusher structure in the prior art is more complicated, and Waste can only be carried out simply being crushed, the crushing effect of crusher is poor；Once encountering durable waste, crusher It just needs to expend long time, broken work could be completed, reduce working efficiency；The crushing effect of crusher is poor, causes To some wastes that can also be reused again, cannot timely recycling and reusing, cause the serious waste of resource.

Utility model content

It is existing in the prior art to solve the purpose of this utility model is to provide a kind of waste material crushing and screening device, Structure is complicated for crusher, and crushing effect is poor；It is crushed complicated waste and expends longevity of service；Resource is caused in shattering process The technical issues of waste.

The utility model also provides a kind of waste material screening plant, to solve the work of waste material screening plant in the prior art Time is long, ineffective technical problem.

A kind of waste material crushing and screening device provided by the utility model, including mounting rack, broken portion, press section, screening portion And discharging portion；

One end of the mounting rack is equipped with feed pipe, and the feed inlet in the broken portion and the discharge port of the feed pipe connect It connects, the discharge port in the broken portion is connect with the feed inlet of the press section, the discharge port of the press section and the screening portion Feed inlet connection；

The other end of the mounting rack is equipped with discharge nozzle, and the screening portion is connected at the discharge nozzle, the discharging portion Feed inlet connect with the discharge port in the screening portion；

The screening portion includes filter screen, the second link block, the second elastic component and fixed block；

The filter screen is connected in the discharge nozzle, and the discharge nozzle is equipped with connecting hole, second link block One end is connected on the filter screen, and the other end of second link block is connected in the connecting hole, in the connecting hole It is connected with sealing ring；

The fixed block is connected to the lateral wall of the discharge nozzle, and one end of second elastic component is connect with described second Block connection, the other end of second elastic component are connect with the fixed block；

Vibrator is connected on second link block.

Further, the broken portion includes crushing shell and broken roller；

The feed inlet of the crushing shell is connect with the discharge port of the feed pipe, and the broken roller is connected by rotary shaft It connects in the crushing shell, the discharge port of the crushing shell is connect with the feed inlet of the press section.

Further, the press section includes the first driver, telescopic component, squeezes hammer body, is hemispherical shell, wear-resisting Layer, curved support plate and driving assembly；

The discharge port of the crushing shell is connect with the feed inlet of the hemispherical shell, first driver with it is described One end of telescopic component connects, and the other end of the telescopic component is connect with the extruding hammer body, and the extruding hammer body is connected to In the hemispherical shell body, the wearing layer is connected to the inner wall of the hemispherical shell；

The curved support plate is connected to the discharge outlet of the hemispherical shell, the driving component and the arc branch Fagging connection, and the curved support plate is driven, so that the abandoned building in the curved support plate is fallen into the screening portion Feed inlet.

Further, the telescopic component includes fixes sleeve, guide rod, the first elastic component and block；

The output axis connection of one end of the fixes sleeve and first driver, the other end of the fixes sleeve with One end of the guide rod connects, and the other end of the guide rod connects the extruding hammer body；

First elastic component, block are successively socketed on the guide rod, and one end of first elastic component is connected to institute The other end of fixes sleeve is stated, the other end of first elastic component is connected on the block.

Further, the internal perisporium of the fixes sleeve is equipped with sliding slot, and the periphery wall of the guide rod is equipped with the first link block；

First link block and the sliding slot are cooperatively connected, and are connected to the guide rod in the fixes sleeve.

Further, the driving component includes connecting rod, crank disc, the second driver and support frame；

One end of the connecting rod is connect with the curved support plate, and the other end of the connecting rod connects the crank disc, institute State the output axis connection of crank disc Yu second driver；

Second driver is connected to one end of support frame as described above, and the other end of support frame as described above is connected to the hemisphere On shape shell.

Further, the discharging portion includes third driver and rewinding case；

The output shaft of the third driver is connect with the rewinding case, and is able to drive the rewinding case in 0-90 ° of model Enclose interior rotation；

The feed inlet of the rewinding case is corresponding with the discharge port of the discharge nozzle.

The utility model also provides a kind of waste material screening plant, including body and the waste material crushing and screening device；

The body is equipped with mounting base, and the waste material crushing and screening device is connected in the mounting base, the body Lower end be equipped with idler wheel.

The upper end of a kind of waste material crushing and screening device provided by the utility model, the mounting rack is equipped with feed pipe, utilizes The feed pipe feeds abandoned building；The feed inlet in the broken portion is connect with the discharge port of the feed pipe, is made After abandoned building enters along the feed pipe, the broken portion can be directly entered and carry out crushing operation；The broken portion Discharge port connect with the feed inlet of the press section, enable the broken abandoned building in broken portion along it is described squeeze Splenium carries out squeeze job, so that it is more fine to squeeze abandoned building；The discharge port of the press section and the sieve The feed inlet of branch connects, and so that the press section is directly entered the screening portion by abandoned building after extruding and is sieved Point；The lower end of the mounting rack is equipped with discharge nozzle, and the screening portion is connected at the discharge nozzle, utilizes the discharge nozzle It is discharged outward to the abandoned building after screening portion screening；The feed inlet of the discharging portion goes out with the screening portion Material mouth connection, the abandoned building after being sieved using the discharging portion to the screening portion carry out rewinding, so that it is guaranteed that discarded The specified place of building flow direction.The mounting rack upper end of the utility model be equipped with feed pipe, lower end be equipped with discharge nozzle, be crushed portion, Press section, screening portion and discharging portion are connected in turn on mounting rack, are crushed abandoned building gradually, crush, are sieved, and are broken Broken, good crushing effect can be recycled timely after crushing, save resource.

The utility model also provides a kind of waste material screening plant, and above-mentioned waste material crushing and screening device is connected on body, It is fixed using body, the crushing operation of whole equipment is high-efficient, has saved resource.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of waste material crushing and screening device provided by the embodiment of the utility model；

Fig. 2 is the portion A enlarged drawing in Fig. 1；

Fig. 3 is the structural schematic diagram of fixes sleeve provided by the embodiment of the utility model；

Fig. 4 is the structural schematic diagram of guide rod provided by the embodiment of the utility model；

Fig. 5 is the portion B enlarged drawing in Fig. 1.

Icon: 100- mounting rack；200- is crushed portion；300- press section；400- screening portion；500- discharging portion； 101- feed pipe；102- discharge nozzle；103- connecting hole；104- sealing ring；201- crushing shell；202- is crushed roller； The first driver of 301-；302- telescopic component；303- squeezes hammer body；304- hemispherical shell；305- wearing layer；306- Curved support plate；307- fixes sleeve；308- guide rod；The first elastic component of 309-；310- block；311- sliding slot；312- First link block；313- connecting rod；314- crank disc；The second driver of 315-；316- support frame；401- filter screen； The second link block of 402-；The second elastic component of 403-；404- fixed block；405- vibrator；501- third driver；502- Rewinding case.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Fig. 1 is the structural schematic diagram of waste material crushing and screening device provided by the embodiment of the utility model.

As shown in Figure 1, a kind of waste material crushing and screening device provided by the utility model, including mounting rack 100, broken portion 200, press section 300, screening portion 400 and discharging portion 500；

One end of the mounting rack 100 is equipped with feed pipe 101, the feed inlet and the feed pipe 101 in the broken portion 200 Discharge port connection, the discharge port in the broken portion 200 connect with the feed inlet of the press section 300, the press section 300 Discharge port is connect with the feed inlet in the screening portion 400；

The other end of the mounting rack 100 is equipped with discharge nozzle 102, and the screening portion 400 is connected to the discharge nozzle 102 Place, the feed inlet of the discharging portion 500 are connect with the discharge port in the screening portion 400.

In Fig. 1, be crushed portion 200, press section 300, screening portion 400 and discharging portion 500 in mounting rack 100 by up to Under be sequentially connected.

The upper end of mounting rack 100 connects feed pipe 101, the feed inlet of the discharge port of 101 lower end of feed pipe and broken portion 200 Connection carries out primary crushing to abandoned building using broken portion 200, so that abandoned building is fractured into lesser bulk, break The discharge port in broken portion 200 is connect with the feed inlet of press section 300, using 300 pairs of press section by broken abandoned building into Row squeezes, and abandoned building is made to be squeezed into fine granularity.

The lower end of mounting rack 100 connects discharge nozzle 102, and the discharge port of press section 300 and the feed inlet of discharge nozzle 102 connect It connecing, screening portion 400 is connected in discharge nozzle 102, it is sieved by abandoned building after extruding for 400 pairs using screening portion, Granular abandoned building is filtered, drops out the abandoned building of powdery downwards along discharge nozzle 102.

The feed inlet of discharging portion 500 is connect with the discharge port of discharge nozzle 102, is built using discharging portion 500 to the discarded of powdery Object is built to be recycled.

Further, the broken portion 200 includes crushing shell 201 and broken roller 202；

The feed inlet of the crushing shell 201 is connect with the discharge port of the feed pipe 101, and the broken roller 202 is logical It crosses rotary shaft to be connected in the crushing shell 201, the charging of the discharge port of the crushing shell 201 and the press section 300 Mouth connection.

In Fig. 1, feed pipe 101 is two, and being crushed portion 200 is two corresponding with feed pipe 101.Actual use When, feed pipe 101, broken portion 200 or other quantity.

The feed inlet of 201 upper end of crushing shell is connect with the discharge port of 101 lower end of feed pipe, and the both ends of rotary shaft connect respectively It connects in crushing shell 201, is crushed the connection of roller 202 on the rotary shaft, the quantity of rotary shaft and broken roller 202 in Fig. 1 It is two, two broken rollers 202 are rotated each along the direction of inside, make abandoned building along two broken rollers 202 Centre fall into, using the rotary squeezing power of two broken rollers 202, primary crushing is carried out to abandoned building；It is broken Abandoned building enters press section 300 along the discharge port of crushing shell 201 and carries out squeeze job.

Further, the press section 300 includes the first driver 301, telescopic component 302, squeezes hammer body 303, hemisphere Shape shell 304, wearing layer 305, curved support plate 306 and driving assembly；

The discharge port of the crushing shell 201 is connect with the feed inlet of the hemispherical shell 304, first driver 301 connect with one end of the telescopic component 302, and the other end of the telescopic component 302 is connect with the extruding hammer body 303, The extruding hammer body 303 is connected in the hemispherical shell 304, and the wearing layer 305 is connected to the hemispherical shell 304 inner wall；

The curved support plate 306 is connected to the discharge outlet of the hemispherical shell 304, the driving component with it is described Curved support plate 306 connects, and drives the curved support plate 306, falls the abandoned building in the curved support plate 306 Enter the feed inlet in the screening portion 400.

In Fig. 1, the first driver 301 is driving motor, and telescopic component 302 carries out stretching motion along vertical direction.

The discharge port of 201 lower end of crushing shell is connect with the feed inlet of 304 upper end of hemispherical shell, and driving motor is connected to The lower end connection of the upper end of telescopic component 302, telescopic component 302 squeezes hammer body 303, and squeezes hammer body 303 and be connected to hemisphere In shape shell 304, after broken abandoned building enters hemispherical shell 304, using extruding hammer body 303 to discarded building Object carries out squeeze job.

Curved support plate 306 is connected to the discharge outlet of 304 lower end of hemispherical shell, and the arc of curved support plate 306 It spends identical as the radian of hemispherical shell 304.

Wearing layer 305 is made of 65Mn steel, keeps the wearability of wearing layer 305 high, can be good at protecting hemispherical shell Body 304 is not extruded the abrasion of hammer body 303.

Fig. 2 is the portion A enlarged drawing in Fig. 1.

Further, the telescopic component 302 includes fixes sleeve 307, guide rod 308, the first elastic component 309 and block 310；

The output axis connection of one end of the fixes sleeve 307 and first driver 301, the fixes sleeve 307 The other end connect with one end of the guide rod 308, the other end of the guide rod 308 connects the extruding hammer body 303；

First elastic component 309, block 310 are successively socketed on the guide rod 308, first elastic component 309 One end is connected to the other end of the fixes sleeve 307, and the other end of first elastic component 309 is connected to the block 310 On.

In Fig. 2, the upper end of the output axis connection of the upper end of fixes sleeve 307 and the first driver 301, guide rod 308 connects It connects in the lower end of fixes sleeve 307, the lower end connection of guide rod 308 squeezes hammer body 303.

First elastic component 309 uses spring.First elastic component 309, block 310 are from top to bottom successively socketed in guide rod 308 On, the upper end of the first elastic component 309 is connected to the lower end of fixes sleeve 307, and the lower end of the first elastic component 309 is connected to block On 310, so that guide rod 308 is done stretching motion along vertical direction using the first elastic component 309, exists to drive and squeeze hammer body 303 Squeeze job is carried out to abandoned building in hemispherical shell 304.

Fig. 3 is the structural schematic diagram of fixes sleeve provided by the embodiment of the utility model；Fig. 4 is the utility model implementation The structural schematic diagram for the guide rod that example provides.

Further, the internal perisporium of the fixes sleeve 307 is equipped with sliding slot 311, and the periphery wall of the guide rod 308 is equipped with First link block 312；

First link block 312 is cooperatively connected with the sliding slot 311, and the guide rod 308 is made to be connected to the fixing sleeve In cylinder 307.

As shown in figure 3, the inner wall in fixes sleeve 307 is equipped with multiple sliding slots 311, as shown in Fig. 4, in the outer of guide rod 308 Multiple first link blocks 312 are arranged in peripheral wall, and the first link block 312 is bar blocks, and the first link block 312 can engage company It connects in sliding slot 311, is fixed in fixes sleeve 307 so that guide rod 308 is connected together.

Further, the driving component includes connecting rod 313, crank disc 314, the second driver 315 and support frame 316；

One end of the connecting rod 313 is connect with the curved support plate 306, described in the other end connection of the connecting rod 313 Crank disc 314, the output axis connection of the crank disc 314 and second driver 315；

Second driver 315 is connected to one end of support frame as described above 316, the other end connection of support frame as described above 316 On the hemispherical shell 304.

In Fig. 1, the upper end of connecting rod 313 and curved support plate 306 are hinged, and the lower end of connecting rod 313 and crank disc 314 are cut with scissors It connects.

Second driver 315 is driving motor, and crank disc 314 is connected on driving motor.

Support frame 316 is the frame of diamond shape, and the second driver 315 is connected to the lower end of frame, and the upper end of frame is connected to The lower end of hemispherical shell 304.

Fig. 5 is the portion B enlarged drawing in Fig. 1.

Further, the screening portion 400 includes filter screen 401, the second link block 402, the second elastic component 403 and fixes Block 404；

The filter screen 401 is connected in the discharge nozzle 102, and the discharge nozzle 102 is equipped with connecting hole 103, described One end of second link block 402 is connected on the filter screen 401, and the other end of second link block 402 is connected to described In connecting hole 103, sealing ring 104 is connected in the connecting hole 103；

The fixed block 404 is connected to the lateral wall of the discharge nozzle 102, one end of second elastic component 403 and institute The connection of the second link block 402 is stated, the other end of second elastic component 403 is connect with the fixed block 404.

As shown in Figure 1, shown in Figure 5, the second elastic component 403 is spring, and the second link block 402, fixed block 404 are all made of iron block. Sealing ring 104 is rubber seal.

The lower end of second elastic component 403 connects the second link block 402, the upper end connection fixing block of the second elastic component 403 404。

Further, vibrator 405 is connected on second link block 402.

Filter screen 401 is driven to vibrate using vibrator 405, to carry out screening filtering to abandoned building.

Further, the discharging portion 500 includes third driver 501 and rewinding case 502；

The output shaft of the third driver 501 is connect with the rewinding case 502, and is able to drive the rewinding case 502 It is rotated within the scope of 0-90 °；

The feed inlet of the rewinding case 502 is corresponding with the discharge port of the discharge nozzle 102.

In Fig. 1, third driver 501 is driving motor, and the upper end opening of rewinding case 502 forms receiving vat, receiving vat It is corresponding with the discharge port of discharge nozzle 102.

The output shaft of driving motor is connect with rewinding case 502, when the abandoned building in rewinding case 502 is collected completely, is opened Dynamic driving motor, makes output shaft that rewinding case 502 be driven to be rotated by 90 ° forward, the abandoned building in rewinding case 502 is poured out.

In one embodiment of the utility model, usage mode includes the following steps:

A, by construction site remove abandoned building be put into feed pipe 101, abandoned building from feed pipe 101 into Enter into crushing shell 201, abandoned building is quickly broken into fritter by the coarse crushing through its internal broken roller 202 Abandoned building fragment, in next step be ready；

B, the roller 202 that is broken are broken into the abandoned building fragment of fritter, enter by the discharge port of crushing shell 201 To the inside of hemispherical shell 304, then, start the power switch of the first driver 301, the first driver 301, which drives, to be fixed Sleeve 307 rotates, and fixes sleeve 307 drives guide rod 308 to rotate, guide rod by the cooperation of the first link block 312 and sliding slot 311 308 drive extruding hammer body 303 to rotate, and due to the effect of the first elastic component 309 of compression, squeeze hammer body 303 and remain and half Wearing layer 305 on spherical shell 304 is in contact, and since wearing layer 305 is made by 65Mn, wearability is higher, can be very well Protect hemispherical shell 304 be not extruded hammer body 303 abrasion, in hemispherical shell 304 smashing waste building carry out It rolls and grinds；In addition, curved support plate 306 is in identical position with wearing layer 305 always during crushing, guarantee The contact of itself and extruding hammer body 303；

C, after a period of time, abandoned building roll it is more broken when, open the second driver 315 power switch, Second driver 315 drives crank disc 314 to rotate, and crank disc 314 drives the lower end of connecting rod 313, makes the upper end band of connecting rod 313 Dynamic curved support plate 306 is moved up and down along the discharge port inner wall of hemispherical shell 304, in this way, curved support plate 306 heads on It when squeezing hammer body 303 to extreme higher position, squeezes the disengaging wearing layer 305 of hammer body 303 and there are certain gap, and be crushed Abandoned building powder the lower part of support frame 316 can be entered along this gap, enter filter screen by discharge nozzle 102 In 401；

D, when by discharge nozzle 102, the top of discharge nozzle 102 is connect with the bottom end of support frame 316, in discharge nozzle 102 Equipped with filter screen 401,401 two sides of filter screen are fixedly connected with the second link block 402, and the second link block 402 is pierced by discharge nozzle 102 Two sidewalls are fixedly connected with vibrator 405, and the second link block 402 is fixed with sealing ring 104 with 102 contact position of discharge nozzle, out 102 lateral wall of expects pipe is equipped with fixed block 404, and the second elastic component 403 is equipped between fixed block 404 and the second link block 402, The feeding inlet on 502 top of discharge port face rewinding case of discharge nozzle 102；During screening, when starting vibrator 405, mistake Screen 401 is able to carry out filtering screening；

E after screening, starts third driver 501, and third driver 501 drives rewinding case 502 to rotate, and rotates 90 ° When, good abandoned building screened inside rewinding case 502 is inverted away, completing the broken of abandoned building is had The screening of effect is recycled, and ensure that the utilization rate of resource.

The utility model also provides a kind of waste material screening plant, including body and the waste material crushing and screening device；

The body is equipped with mounting base, and the waste material crushing and screening device is connected in the mounting base, the body Lower end be equipped with idler wheel.

Waste material screening plant provided by the utility model is successively crushed, is squeezed, is sieved and is gone out to abandoned building Material, is not only able to be crushed abandoned building, additionally it is possible to be sieved, crushing effect is good, and the operating efficiency of screening is high.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (8)

1. a kind of waste material crushing and screening device, which is characterized in that including mounting rack (100), broken portion (200), press section (300), screening portion (400) and discharging portion (500)；

One end of the mounting rack (100) is equipped with feed pipe (101), the feed inlet and the feed pipe of the broken portion (200) (101) discharge port connection, the discharge port of the broken portion (200) is connect with the feed inlet of the press section (300), described to squeeze The discharge port of splenium (300) is connect with the feed inlet of the screening portion (400)；

The other end of the mounting rack (100) is equipped with discharge nozzle (102), and the screening portion (400) is connected to the discharge nozzle (102) at, the feed inlet of the discharging portion (500) is connect with the discharge port of the screening portion (400)；

The screening portion (400) includes filter screen (401), the second link block (402), the second elastic component (403) and fixed block (404)；

The filter screen (401) is connected in the discharge nozzle (102), and the discharge nozzle (102) is equipped with connecting hole (103), One end of second link block (402) is connected on the filter screen (401), the other end of second link block (402) It is connected in the connecting hole (103), is connected with sealing ring (104) in the connecting hole (103)；

The fixed block (404) is connected to the lateral wall of the discharge nozzle (102), one end of second elastic component (403) with Second link block (402) connection, the other end of second elastic component (403) are connect with the fixed block (404)；

Vibrator (405) are connected on second link block (402).

2. waste material crushing and screening device according to claim 1, which is characterized in that the broken portion (200) includes broken Shell (201) and broken roller (202)；

The feed inlet of the crushing shell (201) is connect with the discharge port of the feed pipe (101), the broken roller (202) It is connected in the crushing shell (201) by rotary shaft, the discharge port and the press section of the crushing shell (201) (300) feed inlet connection.

3. waste material crushing and screening device according to claim 2, which is characterized in that the press section (300) includes first Driver (301), squeezes hammer body (303), hemispherical shell (304), wearing layer (305), curved support at telescopic component (302) Plate (306) and driving assembly；

The discharge port of the crushing shell (201) is connect with the feed inlet of the hemispherical shell (304), first driver (301) it is connect with one end of the telescopic component (302), the other end and the extruding hammer body of the telescopic component (302) (303) it connects, the extruding hammer body (303) is connected in the hemispherical shell (304), and the wearing layer (305) is connected to The inner wall of the hemispherical shell (304)；

The curved support plate (306) is connected to the discharge outlet of the hemispherical shell (304), the driving component with it is described Curved support plate (306) connection, and drives the curved support plate (306), and make in the curved support plate (306) discarded builds Build the feed inlet that object falls into the screening portion (400).

4. waste material crushing and screening device according to claim 3, which is characterized in that the telescopic component (302) includes solid Determine sleeve (307), guide rod (308), the first elastic component (309) and block (310)；

The output axis connection of one end of the fixes sleeve (307) and first driver (301), the fixes sleeve (307) the other end is connect with the one end of the guide rod (308), and the other end of the guide rod (308) connects the extruding hammer body (303)；

First elastic component (309), block (310) are successively socketed on the guide rod (308), first elastic component (309) one end is connected to the other end of the fixes sleeve (307), and the other end of first elastic component (309) is connected to On the block (310).

5. waste material crushing and screening device according to claim 4, which is characterized in that the inner circumferential of the fixes sleeve (307) Wall is equipped with sliding slot (311), and the periphery wall of the guide rod (308) is equipped with the first link block (312)；

First link block (312) and the sliding slot (311) are cooperatively connected, and the guide rod (308) is made to be connected to the fixation In sleeve (307).

6. waste material crushing and screening device according to claim 3, which is characterized in that the driving component includes connecting rod (313), crank disc (314), the second driver (315) and support frame (316)；

One end of the connecting rod (313) is connect with the curved support plate (306), and the other end of the connecting rod (313) connects institute It states crank disc (314), the output axis connection of the crank disc (314) and second driver (315)；

Second driver (315) is connected to one end of support frame as described above (316), and the other end of support frame as described above (316) connects It connects on the hemispherical shell (304).

7. waste material crushing and screening device according to claim 1, which is characterized in that the discharging portion (500) includes third Driver (501) and rewinding case (502)；

The output shaft of the third driver (501) is connect with the rewinding case (502), and is able to drive the rewinding case (502) it is rotated within the scope of 0-90 °；

The feed inlet of the rewinding case (502) is corresponding with the discharge port of the discharge nozzle (102).

8. a kind of waste material screening plant, which is characterized in that including body and such as waste material of any of claims 1-7 Crushing and screening device；

The body is equipped with mounting base, and the waste material crushing and screening device is connected in the mounting base, under the body End is equipped with idler wheel.