CN113145439A

CN113145439A - Marble crushed aggregates screening sieve

Info

Publication number: CN113145439A
Application number: CN202110556766.8A
Authority: CN
Inventors: 王春艳
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2021-07-23
Anticipated expiration: 2041-05-21
Also published as: CN113145439B

Abstract

For solving above-mentioned technical problem, a marble crushed aggregates screening sieve, including installation fixed plate, power transmission controlling means, screening plant, branch material discharging equipment, through installing other device of fixed plate installation, power transmission controlling means provides the power of screening and changes the mode of screening and the mode that the crushed aggregates discharged, and screening plant sieves the crushed aggregates and has the form of two kinds of screenings, divides functions such as the condition that material discharging equipment controlled the crushed aggregates according to the form of screening and discharges, its characterized in that: the power transmission control device is fixedly installed on the installation fixing plate, the screening device is fixedly installed on the installation fixing plate, and the material distribution and discharge device is rotatably installed on the power transmission control device.

Description

Marble crushed aggregates screening sieve

Technical Field

The invention relates to a crushed aggregate screening sieve plate, in particular to a marble crushed aggregate screening sieve plate.

Background

The marble is mainly applied to daily decoration, and the decoration style is luxurious, but the natural marble cannot be directly used and needs to be processed by a factory, but a certain amount of defective scraps are generated after the processing, and in order to enable the crushed aggregates to be reused, the crushed aggregate screening sieve plate is invented.

Disclosure of Invention

The invention relates to a screening sieve plate for crushed marble, in particular to a screening sieve plate for crushed marble, which is characterized in that other devices are installed through installing a fixing plate, a power transmission control device provides screening power and changes a screening mode and a crushed aggregate discharging mode, the screening device screens the crushed aggregates and has two screening modes, and a material distributing and discharging device controls the crushed aggregate discharging condition according to the screening modes.

As a further optimization of the technical scheme, the invention discloses a marble crushed aggregate screening sieve plate, wherein a power transmission control device comprises a fixed mounting plate, a driving input cross hole shaft, a fixed sliding seat, a sliding groove, a pulling groove, a screening mode I control groove, a screening mode II control groove, a sliding mounting seat, a control limit bolt, a transmission shaft, a cross connecting strip, a gear I, a gear II, a fixed shaft, a transmission gear and a limit sliding groove, wherein the fixed mounting plate is fixedly mounted on a mounting fixed plate, the driving input cross hole shaft is rotatably mounted on the fixed mounting plate, the fixed sliding seat is fixedly mounted on the mounting fixed plate, the sliding groove is arranged on the fixed sliding seat, the pulling groove is arranged on the fixed sliding seat, the screening mode I control groove is arranged on the fixed sliding seat, the screening mode II control groove is arranged on the fixed sliding seat, the sliding mounting seat is slidably mounted in the sliding groove, the control limiting bolt is slidably mounted inside the limiting sliding groove, the transmission shaft is rotatably mounted on the sliding mounting seat, the cross connecting strip is fixedly mounted on the transmission shaft, the first gear is fixedly mounted on the transmission shaft, the second gear is fixedly mounted on the transmission shaft, the fixed shaft is fixedly mounted on the sliding mounting seat, the transmission gear is rotatably mounted on the fixed shaft, the transmission gear is meshed with the first gear, and the limiting sliding groove is formed in the sliding mounting seat.

As a further optimization of the technical scheme, the invention relates to a screening sieve plate for marble crushed aggregates, which comprises a mounting and fixing frame, a feeding cylinder, a supporting and mounting plate, a transmission cylinder, a transmission belt wheel, a transmission belt, a transmission shaft II, a receiving gear I, a receiving gear II, an output belt wheel, an internal rotating cylinder, a discharge hole, a sliding column, a rotating internal threaded ring, a moving threaded column, a limit baffle ring, a friction block, a regulating and controlling threaded bolt, a screening cylinder II, a discharge hole I, a discharge hole II and a matching sliding groove, wherein the mounting and fixing frame is mounted and fixed on a mounting and fixing plate, the feeding cylinder is mounted and fixed on the mounting and fixing plate, the transmission cylinder is rotatably mounted on the feeding cylinder, the transmission belt wheel is mounted and fixed on the transmission belt wheel and the output belt wheel, the transmission shaft II is rotatably mounted on the supporting and mounting plate, a first receiving gear is fixedly installed on a second transmission shaft, a second receiving gear is fixedly installed on the second transmission shaft, an output belt wheel is fixedly installed on the second transmission shaft, an internal rotating cylinder is fixedly installed on the transmission cylinder, the internal rotating cylinder is rotatably installed on a feeding cylinder, a discharge hole is formed in the internal rotating cylinder, a sliding column is fixedly installed on the internal rotating cylinder, the sliding column is slidably installed in a matching sliding groove, a rotating internal threaded ring is rotatably installed on a supporting installation plate, a moving threaded column is installed on a rotating internal threaded ring, the moving threaded column is in threaded matching with the rotating internal threaded ring, a limiting baffle ring is fixedly installed on the moving threaded column, a friction block is slidably installed in the supporting installation plate, a regulating threaded bolt is rotatably installed on the friction block, the regulating threaded bolt is installed on the supporting installation plate, the regulating threaded bolt is in threaded matching with the supporting installation plate, and a second screening cylinder is fixedly installed on the moving threaded column, and the second screening cylinder is slidably mounted on the transmission cylinder, the first discharge hole is formed in the second screening cylinder, the second discharge hole is formed in the second screening cylinder, and the sliding groove is matched with the second screening cylinder.

As a further optimization of the technical scheme, the invention discloses a screening sieve plate for crushed marble materials, wherein a sinking material discharging device comprises a limiting plate, a mounting shaft, a discharging box, a crushed material limiting block and a first outlet, export two, bevel gear one, mount pad two, straight face double-sided bevel gear two, the pulling pinion rack, the limiting plate installation is fixed on supporting the mounting panel, installation hub rotation is installed on supporting the mounting panel, arrange the magazine erection and fix on installation hub, crushed aggregates stopper installation is fixed inside row magazine, export one sets up on row magazine, export two sets up on row magazine, bevel gear one installation is fixed on installation hub, mount pad two installation are fixed on supporting the mounting panel, straight face double-sided bevel gear two rotates and installs on mount pad two, straight face double-sided bevel gear two meshes with bevel gear one and pulling pinion rack respectively, the installation of pulling pinion rack is fixed on sliding installation seat.

As a further optimization of the technical scheme, the marble crushed material screening sieve plate is characterized in that a matching motor is arranged on a driving input cross hole shaft of the power transmission control device.

As a further optimization of the technical scheme, the screening device for the crushed marble comprises two mounting fixing frames, the crushing device is arranged at the upper end of the feeding cylinder to crush the crushed marble again, and the two supporting mounting plates are arranged.

The screening sieve plate for the marble crushed aggregates has the beneficial effects that:

the invention relates to a screening sieve plate for crushed marble, in particular to a screening sieve plate for crushed marble, which realizes the functions of installing other devices through installing a fixing plate, providing screening power and changing a screening mode and a crushed aggregate discharging mode through a power transmission control device, screening crushed aggregates through a screening device, controlling the crushed aggregate discharging condition according to the screening mode through a material distributing and discharging device and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the power transmission control device of the invention.

Fig. 5 is a schematic structural diagram of a power transmission control device according to the present invention.

Fig. 6 is a third schematic structural diagram of the power transmission control device of the present invention.

Fig. 7 is a schematic view of the screening device of the present invention.

Figure 8 is a second schematic view of the screening device of the present invention.

Figure 9 is a third schematic view of the screening device of the present invention.

Figure 10 is a fourth schematic view of the screening device of the present invention.

Figure 11 is a schematic illustration of a screening device of the present invention.

Fig. 12 is a schematic view of the distributor discharge device of the present invention.

In the figure: mounting the fixed plate 1; a power transmission control device 2; fixing the mounting plate 2-1; actively inputting a cross hole shaft 2-2; fixing a sliding seat 2-3; 2-4 of a sliding groove; 2-5 of a pulling groove; a screening mode one control groove 2-6; a second screening mode controls the grooves 2-7; 2-8 of a sliding mounting seat; controlling the limit bolt 2-9; 2-10 parts of a transmission shaft; 2-11 parts of a cross connecting strip; 2-12 parts of a first gear; 2-13 parts of a second gear; 2-14 parts of a fixed shaft; transmission gears 2-15; 2-16 of limiting sliding grooves; a screening device 3; mounting a fixed frame 3-1; 3-2 of a feeding cylinder; supporting the mounting plate 3-3; 3-4 of a transmission cylinder; 3-5 of a transmission belt wheel; 3-6 parts of a transmission belt; 3-7 parts of a second transmission shaft; receiving a first gear 3-8; receiving a second gear 3-9; 3-10 of an output belt wheel; an inner rotary drum 3-11; discharge ports 3-12; 3-13 of a sliding column; rotating the inner threaded ring 3-14; moving the threaded columns 3-15; 3-16 parts of a limit stop ring; 3-17 parts of friction block; 3-18 parts of a regulating threaded bolt; 3-19 parts of a second screening cylinder; 3-20 parts of a first discharge hole; 3-21 parts of a second discharge hole; matching sliding grooves 3-22; a material distributing and discharging device 4; a limiting plate 4-1; installing a shaft 4-2; 4-3 of a discharge box; 4-4 of crushed aggregate limiting blocks; an outlet I is 4-5; an outlet II 4-6; 4-7 parts of a first bevel gear; 4-8 parts of a second mounting seat; 4-9 parts of a straight-sided double-sided bevel gear II; pulling the toothed plates 4-10.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and includes an installation fixing plate 1, a power transmission control device 2, a sieving device 3, a material distribution and discharge device 4, and other devices are installed through the installation fixing plate, the power transmission control device provides sieving power and changes a sieving mode and a material distribution mode, the sieving device sieves the material and has two sieving forms, and the material distribution and discharge device controls the material distribution according to the sieving form, and the present embodiment is characterized in that: the power transmission control device 2 is fixedly installed on the installation fixing plate 1, the screening device 3 is fixedly installed on the installation fixing plate 1, and the material distribution and discharge device 4 is rotatably installed on the power transmission control device 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and the embodiment further describes the first embodiment, wherein the power transmission control device 2 comprises a fixed mounting plate 2-1, a driving input cross-hole shaft 2-2, a fixed sliding seat 2-3, a sliding groove 2-4, a pulling groove 2-5, a first screening mode control groove 2-6, a second screening mode control groove 2-7, a sliding mounting seat 2-8, a control limit bolt 2-9, a transmission shaft 2-10, a cross connecting bar 2-11, a first gear 2-12, a second gear 2-13, a fixed shaft 2-14, a transmission gear 2-15, and a limit sliding groove 2-16, wherein the crushed aggregates treated by the crushing device enter an inner rotating cylinder 3-11 through a feeding cylinder 3-2, then, a control limit bolt 2-9 of the power transmission control device 2 drives a sliding installation seat 2-8 to slide to the upper end of a screening mode one control groove 2-6 in a sliding groove 2-4 of a fixed sliding seat 2-3, then the control limit bolt 2-9 slides to the screening mode one control groove 2-6, meanwhile, the sliding installation seat 2-8 drives a transmission shaft 2-10 and a cross connecting strip 2-11, a gear I2-12, a gear II 2-13, a fixed shaft 2-14 and a transmission gear 2-15 on the transmission shaft to move, then the gear II 2-13 is meshed with a receiving gear II 3-9, then an active input cross hole shaft 2-2 rotates under the action of a matched motor, the active input cross hole shaft 2-2 drives the transmission shaft 2-10 to rotate through the cross connecting strip 2-11, the control limit bolts 2-9 are placed in the control grooves 2-7 of the second screening mode by pulling the sliding installation seats 2-8 outwards, the sliding installation seats 2-8 drive the transmission gears 2-15 to move and engage with the receiving gears 3-8, then the transmission shafts 3-7 reversely rotate, the sliding installation seats 2-8 pull the toothed plates 4-10 outwards to enable the discharge boxes 4-3 to reversely rotate so that the outlet ports 4-6 are positioned at the lower ends, the fixed installation plate 2-1 is fixedly arranged on the installation fixing plate 1, the driving input cross hole shaft 2-2 is rotatably arranged on the fixed installation plate 2-1, the fixed sliding seats 2-3 are fixedly arranged on the installation fixing plate 1, the sliding grooves 2-4 are arranged on the fixed sliding seats 2-3, the pulling groove 2-5 is arranged on the fixed sliding seat 2-3, the first control groove 2-6 of the screening mode is arranged on the fixed sliding seat 2-3, the second control groove 2-7 of the screening mode is arranged on the fixed sliding seat 2-3, the sliding installation seat 2-8 is arranged in the sliding groove 2-4 in a sliding way, the control limit bolt 2-9 is arranged in the limit sliding groove 2-16 in a sliding way, the transmission shaft 2-10 is arranged on the sliding installation seat 2-8 in a rotating way, the cross connecting strip 2-11 is arranged and fixed on the transmission shaft 2-10, the first gear 2-12 is arranged and fixed on the transmission shaft 2-10, the second gear 2-13 is arranged and fixed on the transmission shaft 2-10, the fixed shaft 2-14 is arranged and fixed on the sliding installation seat 2-8, the transmission gear 2-15 is arranged on the fixed shaft 2-14 in a rotating way, the transmission gear 2-15 is meshed with the first gear 2-12, and the limiting sliding groove 2-16 is arranged on the sliding installation seat 2-8.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment is further described, wherein the screening device 3 comprises a mounting bracket 3-1, a feeding cylinder 3-2, a supporting mounting plate 3-3, a transmission cylinder 3-4, a transmission belt pulley 3-5, a transmission belt 3-6, a transmission shaft II 3-7, a receiving gear I3-8, a receiving gear II 3-9, an output belt pulley 3-10, an internal rotating cylinder 3-11, a discharge hole 3-12, a sliding column 3-13, a rotating internal threaded ring 3-14, a moving threaded column 3-15, a limit stop ring 3-16, a friction block 3-17, a regulating threaded bolt 3-18, a screening cylinder II 3-19, a sliding column 3-13, a rotating internal threaded ring 3-14, a moving threaded column 3-15, a limit stop ring 3-16, a friction block 3-17, a regulating threaded bolt 3-18, and a screening cylinder II 3-19, A first discharge hole 3-20, a second discharge hole 3-21 and a matching sliding groove 3-22, wherein a transmission shaft 2-10 drives a second receiving gear 3-9 to rotate through a second gear 2-13, the second receiving gear 3-9 drives a second output belt wheel 3-10 to rotate through a second transmission shaft 3-7, the second output belt wheel 3-10 drives a transmission belt wheel 3-5 to rotate through a transmission belt 3-6, the transmission belt wheel 3-5 drives a transmission cylinder 3-4 to rotate, the transmission cylinder 3-4 drives an inner rotating cylinder 3-11 to rotate, the inner rotating cylinder 3-11 drives a second screening cylinder 3-19 to rotate through a sliding column 3-13, but because the second screening cylinder 3-19 is installed on a movable threaded column 3-15, and the movable threaded column 3-15 is in threaded matching with a rotatable inner threaded ring 3-14, and the friction force of the rotating internal thread ring 3-14 and the friction block 3-17 makes the rotating internal thread ring 3-14 unable to rotate and further makes the screening cylinder II 3-19 and the internal rotating cylinder 3-11 relatively slide and the rotating internal thread ring 3-14 and the moving threaded column 3-15 change position until the stop ring 3-16 and the rotating internal thread ring 3-14 contact and do not move, at the same time, the screening cylinder II 3-19 makes the discharge hole I3-20 and the discharge hole 3-12 of the internal rotating cylinder 3-11 communicate, because the rotating internal thread ring 3-14 and the rotating internal thread ring 3-14 unable to change position will make the internal rotating cylinder 3-11 and the screening cylinder II 3-19 not move and rotate at the same time, the second screening cylinder 3-19 drives the rotary internal threaded ring 3-14 to rotate on the transmission cylinder 3-4 through the movable threaded column 3-15, simultaneously, when the transmission cylinder 3-4 drives the internal rotation cylinder 3-11 to rotate, the second screening cylinder 3-19 and the internal rotation cylinder 3-11 can rotate together and slide relatively to enable the discharge hole II 3-21 and the discharge hole 3-12 to correspond to each other and then stop sliding, then the reverse rotation can enable the materials with the size smaller than the discharge hole II 3-21 in the crushed aggregates to fall into the discharge box 4-3 and be discharged from the outlet II 4-6 to the mounting and fixing frame 3-1 to be mounted and fixed on the mounting and fixing plate 1, the feeding cylinder 3-2 is mounted and fixed on the mounting and fixing frame 3-1 and the supporting and mounting plate 3-3, and the supporting and mounting plate 3-3 is mounted and fixed on the mounting and fixing plate 1, a transmission cylinder 3-4 is rotatably arranged on the feeding cylinder 3-2, a transmission belt wheel 3-5 is fixedly arranged on the transmission cylinder 3-4, a transmission belt 3-6 is arranged on the transmission belt wheel 3-5 and an output belt wheel 3-10, a transmission shaft II 3-7 is rotatably arranged on a support mounting plate 3-3, a receiving gear I3-8 is fixedly arranged on the transmission shaft II 3-7, a receiving gear II 3-9 is fixedly arranged on the transmission shaft II 3-7, an output belt wheel 3-10 is fixedly arranged on the transmission shaft II 3-7, an inner rotating cylinder 3-11 is fixedly arranged on the transmission cylinder 3-4, an inner rotating cylinder 3-11 is rotatably arranged on the feeding cylinder 3-2, a discharge hole 3-12 is arranged on the inner rotating cylinder 3-11, a sliding cylinder 3-13 is fixedly arranged on the inner rotating cylinder 3-11, the sliding columns 3-13 are slidably arranged inside the matching sliding grooves 3-22, the rotating internal threaded rings 3-14 are rotatably arranged on the supporting mounting plates 3-3, the moving threaded columns 3-15 are arranged on the rotating internal threaded rings 3-14, the moving threaded columns 3-15 are in threaded matching with the rotating internal threaded rings 3-14, the limit stop rings 3-16 are fixedly arranged on the moving threaded columns 3-15, the friction blocks 3-17 are slidably arranged inside the supporting mounting plates 3-3, the regulating threaded bolts 3-18 are rotatably arranged on the friction blocks 3-17, the regulating threaded bolts 3-18 are arranged on the supporting mounting plates 3-3, the regulating threaded bolts 3-18 are in threaded matching with the supporting mounting plates 3-3, and the screening cylinders two 3-19 are fixedly arranged on the moving threaded columns 3-15, the second screening cylinder 3-19 is slidably mounted on the transmission cylinder 3-4, the first discharge hole 3-20 is arranged on the second screening cylinder 3-19, the second discharge hole 3-21 is arranged on the second screening cylinder 3-19, and the second screening cylinder 3-19 is matched with the sliding groove 3-22 to be arranged inside the second screening cylinder 3-19.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the embodiment further describes the first embodiment, where the sinking material discharging device 4 includes a limiting plate 4-1, a mounting shaft 4-2, a discharging box 4-3, a crushed material limiting block 4-4, a first outlet 4-5, a second outlet 4-6, a first bevel gear 4-7, a second mounting seat 4-8, a second straight-sided bevel gear 4-9, and a pulling toothed plate 4-10, and the sliding mounting seat 2-8 drives the pulling toothed plate 4-10 of the sinking material discharging device 4 to move, and the pulling toothed plate 4-10 pushes the second straight-sided bevel gear 4-9 to rotate, the second straight-sided bevel gear 4-9 drives the first bevel gear 4-7 to rotate, and the first bevel gear 4-7 drives the discharging box 4-3 to rotate and move through the mounting shaft 4-2 The angle of the first outlet 4-5 is arranged at the lower end of the rotation angle of the discharge box 4-3, then the crushed aggregates smaller than the first discharge hole 3-20 in the crushed aggregates fall into the discharge box 4-3 and are discharged from the first outlet 4-5, the limiting plate 4-1 is fixedly arranged on the supporting mounting plate 3-3, the mounting shaft 4-2 is rotatably arranged on the supporting mounting plate 3-3, the discharge box 4-3 is fixedly arranged on the mounting shaft 4-2, the crushed aggregates limiting block 4-4 is fixedly arranged in the discharge box 4-3, the first outlet 4-5 is arranged on the discharge box 4-3, the second outlet 4-6 is arranged on the discharge box 4-3, the first bevel gear 4-7 is fixedly arranged on the mounting shaft 4-2, and the second mounting seat 4-8 is fixedly arranged on the supporting mounting plate 3-3, the straight-sided double-sided bevel gear II 4-9 is rotatably installed on the installation seat II 4-8, the straight-sided double-sided bevel gear II 4-9 is respectively meshed with the bevel gear I4-7 and the pulling toothed plate 4-10, and the pulling toothed plate 4-10 is fixedly installed on the sliding installation seat 2-8.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the second embodiment is further described, in which the active input cross-hole shaft 2-2 of the power transmission control device 2 is provided with a matching motor.

The sixth specific implementation mode:

the third embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12. the third embodiment is further described, in which the mounting holders 3-1 of the sieving device 3 are two in number, the upper end of the feeding cylinder 3-2 is provided with a crushing device for crushing the crushed marble material again, and the supporting mounting plates 3-3 are two in number.

The working principle of the invention is as follows:

a marble crushed material sieving sieve plate has the working principle that whether the connection condition among devices meets requirements is checked before the sieve plate is used, firstly crushed materials processed by a crushing device enter an internal rotating cylinder 3-11 through a feeding cylinder 3-2, then a control limit bolt 2-9 of a power transmission control device 2 drives a sliding installation seat 2-8 to slide to the upper end of a sieving mode one control groove 2-6 in a sliding groove 2-4 of a fixed sliding seat 2-3, then the control limit bolt 2-9 slides to the sieving mode one control groove 2-6, and simultaneously the sliding installation seat 2-8 drives a transmission shaft 2-10 and a cross connecting strip 2-11, a gear I2-12, a gear II 2-13, a fixed shaft 2-14 and a transmission gear 2-15 on the transmission shaft to move, then, the second gears 2-13 are meshed with the second receiving gears 3-9, meanwhile, the sliding installation seat 2-8 drives the pulling toothed plates 4-10 of the sinking material discharging device 4 to move, the pulling toothed plates 4-10 push the second straight-face double-face bevel gears 4-9 to rotate, the second straight-face double-face bevel gears 4-9 drive the first bevel gears 4-7 to rotate, the first bevel gears 4-7 drive the discharging boxes 4-3 to rotate through the installation shafts 4-2 by the angle of the rotating movement of the discharging boxes 4-3, so that the first outlets 4-5 are positioned at the lower ends of the rotating angles of the discharging boxes 4-3, then the driving input cross hole shafts 2-2 rotate under the action of a matched motor, the driving input cross hole shafts 2-2 drive the transmission shafts 2-10 to rotate through the cross connecting strips 2-11, and the transmission shafts 2-10 drive the second receiving gears 3-9 to rotate through the second gears 2-13, the receiving gear II 3-9 drives the output belt wheel 3-10 to rotate through the transmission shaft II 3-7, the output belt wheel 3-10 drives the transmission belt wheel 3-5 to rotate through the transmission belt 3-6, the transmission belt wheel 3-5 drives the transmission cylinder 3-4 to rotate, the transmission cylinder 3-4 drives the inner rotating cylinder 3-11 to rotate, the inner rotating cylinder 3-11 drives the screening cylinder II 3-19 to rotate through the sliding column 3-13, but the screening cylinder II 3-19 is installed on the movable threaded column 3-15, the movable threaded column 3-15 is in threaded fit with the rotary inner threaded ring 3-14, and the friction force of the rotary inner threaded ring 3-14 and the friction block 3-17 enables the rotary inner threaded ring 3-14 not to rotate, so that the screening cylinder II 3-19 and the inner rotating cylinder 3-11 slide relatively and rotate The positions of the internal thread rings 3-14 and the movable thread columns 3-15 are changed until the limit stop rings 3-16 and the rotary internal thread rings 3-14 are contacted and do not move, at the moment, the discharge holes 3-20 of the screening cylinders 3-19 are communicated with the discharge holes 3-12 of the internal rotary cylinders 3-11, the internal rotary cylinders 3-11 and the screening cylinders 3-19 do not move and rotate simultaneously due to the fact that the rotary internal thread rings 3-14 and the rotary internal thread rings 3-14 cannot change positions, the screening cylinders 3-19 drive the rotary internal thread rings 3-14 to rotate on the transmission cylinders 3-4 through the movable thread columns 3-15, then the crushed aggregates smaller than the discharge holes one 3-20 fall into the discharge box 4-3 and are discharged from the outlet one 4-5, then, the sliding installation seat 2-8 is pulled outwards to enable the control limit bolt 2-9 to be placed in the screening mode second control groove 2-7, the sliding installation seat 2-8 drives the transmission gear 2-15 to move and the receiving gear 3-8 to be meshed, then the transmission shaft second 3-7 reversely rotates, the sliding installation seat 2-8 pulls the toothed plate 4-10 outwards to enable the discharging box 4-3 to reversely rotate to enable the outlet second 4-6 to be positioned at the lower end, meanwhile, when the transmission cylinder 3-4 drives the inner rotating cylinder 3-11 to rotate, the screening cylinder second 3-19 and the inner rotating cylinder 3-11 can also rotate together and slide relatively to enable the discharging hole second 3-21 and the discharging hole 3-12 to correspond to each other and then stop sliding, the reverse rotation then causes material of the smaller size than the discharge opening two 3-21 of the crushed material to fall into the discharge box 4-3 and to be discharged through the outlet two 4-6.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a marble crushed aggregates screening sieve, includes installation fixed plate (1), power transmission controlling means (2), screening plant (3), divides material discharging equipment (4), its characterized in that: the power transmission control device (2) is fixedly installed on the installation fixing plate (1), the screening device (3) is fixedly installed on the installation fixing plate (1), and the material distribution and discharge device (4) is rotatably installed on the power transmission control device (2).

2. A marble crushed material screening sieve plate as set forth in claim 1, wherein: the power transmission control device (2) comprises a fixed mounting plate (2-1), a driving input cross hole shaft (2-2), a fixed sliding seat (2-3), a sliding groove (2-4), a pulling groove (2-5), a screening mode one control groove (2-6), a screening mode two control groove (2-7), a sliding mounting seat (2-8), a control limit bolt (2-9), a transmission shaft (2-10), a cross connecting strip (2-11), a gear I (2-12), a gear II (2-13), a fixed shaft (2-14), a transmission gear (2-15) and a limit sliding groove (2-16), wherein the fixed mounting plate (2-1) is fixedly mounted on the mounting fixing plate (1), the driving input cross hole shaft (2-2) is rotatably mounted on the fixed mounting plate (2-1), a fixed sliding seat (2-3) is fixedly arranged on a mounting fixing plate (1), a sliding groove (2-4) is arranged on the fixed sliding seat (2-3), a pulling groove (2-5) is arranged on the fixed sliding seat (2-3), a first control groove (2-6) of a screening mode is arranged on the fixed sliding seat (2-3), a second control groove (2-7) of a screening mode is arranged on the fixed sliding seat (2-3), a sliding mounting seat (2-8) is slidably arranged in the sliding groove (2-4), a control limit bolt (2-9) is slidably arranged in a limit sliding groove (2-16), a transmission shaft (2-10) is rotatably arranged on the sliding mounting seat (2-8), and a cross connecting strip (2-11) is fixedly arranged on the transmission shaft (2-10), the first gear (2-12) is fixedly arranged on the transmission shaft (2-10), the second gear (2-13) is fixedly arranged on the transmission shaft (2-10), the fixed shaft (2-14) is fixedly arranged on the sliding installation seat (2-8), the transmission gear (2-15) is rotatably arranged on the fixed shaft (2-14), the transmission gear (2-15) is meshed with the first gear (2-12), and the limiting sliding groove (2-16) is arranged on the sliding installation seat (2-8).

3. A marble crushed material screening sieve plate as set forth in claim 1, wherein: the screening device (3) comprises a mounting fixing frame (3-1), a feeding cylinder (3-2), a supporting mounting plate (3-3), a transmission cylinder (3-4), a transmission belt wheel (3-5), a transmission belt (3-6), a transmission shaft II (3-7), a receiving gear I (3-8), a receiving gear II (3-9), an output belt wheel (3-10), an internal rotating cylinder (3-11), a discharge hole (3-12), a sliding column (3-13), a rotating internal threaded ring (3-14), a movable threaded column (3-15), a limiting baffle ring (3-16), a friction block (3-17), a regulating threaded bolt (3-18), a screening cylinder II (3-19), a discharge hole I (3-20), A discharge hole II (3-21) and a matched sliding groove (3-22), a mounting fixed frame (3-1) is fixedly arranged on a mounting fixed plate (1), a feeding cylinder (3-2) is fixedly arranged on the mounting fixed frame (3-1) and a supporting mounting plate (3-3), the supporting mounting plate (3-3) is fixedly arranged on the mounting fixed plate (1), a transmission cylinder (3-4) is rotatably arranged on the feeding cylinder (3-2), a transmission belt wheel (3-5) is fixedly arranged on the transmission cylinder (3-4), a transmission belt (3-6) is arranged on the transmission belt wheel (3-5) and an output belt wheel (3-10), a transmission shaft II (3-7) is rotatably arranged on the supporting mounting plate (3-3), a receiving gear I (3-8) is fixedly arranged on the transmission shaft II (3-7), a second receiving gear (3-9) is fixedly arranged on a second transmission shaft (3-7), an output belt wheel (3-10) is fixedly arranged on the second transmission shaft (3-7), an inner rotating cylinder (3-11) is fixedly arranged on a transmission cylinder (3-4), the inner rotating cylinder (3-11) is rotatably arranged on a feeding cylinder (3-2), a discharge hole (3-12) is arranged on the inner rotating cylinder (3-11), a sliding column (3-13) is fixedly arranged on the inner rotating cylinder (3-11), the sliding column (3-13) is slidably arranged in a matched sliding groove (3-22), a rotating inner threaded ring (3-14) is rotatably arranged on a supporting mounting plate (3-3), a movable threaded column (3-15) is arranged on the rotating inner threaded ring (3-14), the movable threaded column (3-15) is in threaded fit with the rotary internal threaded ring (3-14), the limiting baffle ring (3-16) is fixedly installed on the movable threaded column (3-15), the friction block (3-17) is slidably installed inside the supporting installation plate (3-3), the regulating threaded bolt (3-18) is rotatably installed on the friction block (3-17), the regulating threaded bolt (3-18) is installed on the supporting installation plate (3-3), the regulating threaded bolt (3-18) is in threaded fit with the supporting installation plate (3-3), the screening cylinder II (3-19) is fixedly installed on the movable threaded column (3-15), the screening cylinder II (3-19) is slidably installed on the transmission cylinder (3-4), and the discharge hole I (3-20) is arranged on the screening cylinder II (3-19), the second discharge hole (3-21) is arranged on the second screening cylinder (3-19), and the matched sliding groove (3-22) is arranged inside the second screening cylinder (3-19).

4. A marble crushed material screening sieve plate as set forth in claim 1, wherein: the sinking material discharging device (4) comprises a limiting plate (4-1), a mounting shaft (4-2), a discharging box (4-3), a crushed material limiting block (4-4), an outlet I (4-5), an outlet II (4-6), a bevel gear I (4-7), a mounting seat II (4-8), a straight-face double-face bevel gear II (4-9) and a pulling toothed plate (4-10), wherein the limiting plate (4-1) is fixedly arranged on the supporting mounting plate (3-3), the mounting shaft (4-2) is rotatably arranged on the supporting mounting plate (3-3), the discharging box (4-3) is fixedly arranged on the mounting shaft (4-2), the crushed material limiting block (4-4) is fixedly arranged inside the discharging box (4-3), and the outlet I (4-5) is arranged on the discharging box (4-3), the outlet II (4-6) is arranged on the discharging box (4-3), the bevel gear I (4-7) is fixedly arranged on the mounting shaft (4-2), the mounting seat II (4-8) is fixedly arranged on the supporting mounting plate (3-3), the straight-surface double-sided bevel gear II (4-9) is rotatably arranged on the mounting seat II (4-8), the straight-surface double-sided bevel gear II (4-9) is respectively meshed with the bevel gear I (4-7) and the pulling toothed plate (4-10), and the pulling toothed plate (4-10) is fixedly arranged on the sliding mounting seat (2-8).

5. A marble crushed material screening sieve plate as set forth in claim 2, wherein: and a matched motor is arranged on the driving input cross hole shaft (2-2) of the power transmission control device (2).

6. A marble crushed material screening sieve plate according to claim 3, wherein: the screening device is characterized in that the number of the mounting fixing frames (3-1) of the screening device (3) is two, the upper end of the feeding cylinder (3-2) is provided with a crushing device for crushing marble crushed materials again, and the number of the supporting mounting plates (3-3) is two.