CN220387088U - High-efficient grain vibration clearance sieve - Google Patents

Abstract

The utility model relates to the technical field of grain cleaning and discloses a high-efficiency grain vibration cleaning screen, which comprises a vehicle-mounted platform and a grain screening device, wherein the grain screening device comprises a grain screening shell, a first screen and a second screen are fixedly arranged in the grain screening shell, the first screen is arranged above the second screen, a first adjusting net and a second adjusting net are respectively and movably arranged below the first screen and the second screen, and the lower side of the first adjusting net is movably abutted to the lower side of the first screen. According to the utility model, through the first adjusting net and the second adjusting net, the problem that the traditional pulse vibrating screen cannot screen different types of grains, so that more types of equipment are needed and resource waste is caused can be solved, and the problems that the traditional pulse vibrating screen is difficult to completely remove impurities on a filter bag of a dust removing device and the dust removing effect is low can be solved through the circular hairbrush, the air cylinder, the connecting tank and the air pipe.

Description

High-efficient grain vibration clearance sieve

Technical Field

The utility model relates to the technical field of grain cleaning, in particular to a high-efficiency grain vibration cleaning screen.

Background

China is a large agricultural country, and agricultural products are various, such as; beans, coarse cereals, grains, rapeseeds and the like, a series of processing treatments are needed to be carried out on the agricultural products in the agricultural product processing process, and impurities such as soil, sand, stones or straws and the like with different sizes in grains are needed to be cleaned so as to improve the quality of the grains, wherein the treatments comprise screening and dedusting the agricultural products, and then the efficient grain vibrating cleaning sieve is produced.

The existing grain vibration cleaning sieve has certain drawbacks when in use, firstly, the traditional pulse vibration sieve cannot screen different types of grains, so that more kinds of equipment are needed, the problem of resource waste is caused, secondly, the traditional pulse vibration sieve is difficult to completely remove impurities on a filter bag on a dust removal device, the problem of lower dust removal effect is caused, then, the parts such as buffering vibration reduction and the like used by the traditional pulse vibration sieve are rubber or wrong installation modes are selected, the buffering vibration reduction effect is reduced, the problem of energy waste is caused, and finally, a grain separation plate used by a grain separation device of the traditional pulse vibration sieve adopts a triangular structure, and the problem of excessively separating grains is solved.

Disclosure of Invention

The utility model solves the problems that: the traditional pulse vibration sieve can not screen different kinds of grains, so that more kinds of equipment are needed, the problem of resource waste can be caused, the traditional pulse vibration sieve is difficult to completely remove impurities on a filter bag on a dust removal device, the problem of lower dust removal effect can be caused, the buffering vibration reduction and other parts used by the traditional pulse vibration sieve are rubber or wrong installation modes are selected, the buffering vibration reduction effect can be reduced, the problem of energy waste can be caused, and the grain distribution plate used by the grain distribution device of the traditional pulse vibration sieve adopts a triangular structure and can cause the problem of excessively separating grains.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a high-efficient grain vibration clearance sieve, includes on-vehicle platform and sieve grain device, sieve grain device is including sieve grain casing, the inside fixed mounting of sieve grain casing has first screen cloth and second screen cloth, first screen cloth sets up the top at the second screen cloth, the below of first screen cloth and second screen cloth is the activity respectively and is provided with first regulation net and second regulation net, the downside movable butt of first regulation net is at the downside of first screen cloth, a plurality of first sieve mesh has been seted up on the first screen cloth, a plurality of second sieve mesh has been seted up on the first regulation net, a plurality of first sieve mesh and the upper and lower position one-to-one of a plurality of second sieve mesh, second regulation net movable butt is at the downside of second screen cloth, a plurality of third sieve mesh has been seted up on the second regulation net, a plurality of third sieve mesh and the upper and lower position one-to-one of second screen cloth, the inside inner wall fixed mounting of first sieve mesh has first both sides of sieve mesh support first side fixed mounting at the inside iron support angle bar of first sieve mesh and the inside movable support iron support of a plurality of second sieve mesh.

Further, vibrating motors are fixedly mounted at the middle positions of two sides of the grain screening shell, an operation panel is fixedly mounted on the vehicle-mounted platform, the operation panel is electrically connected with an external power supply, the vibrating motors are electrically connected with the operation panel, and an escalator is fixedly mounted on one side of the vehicle-mounted platform.

Further, one side fixed mounting of grain sieve casing has the operation box, one side of operation box is fixed with first mounting panel, the activity grafting has first installation axle on the first mounting panel, the fixed grafting of one end of first installation axle has first gear, one side fixed mounting of first regulation net has first pinion rack, first gear and first pinion rack meshing are connected, the fixed grafting of the other end of first installation axle has first driving lever, the activity grafting has first positioning bolt on the first driving lever, first driving lever and first positioning bolt threaded connection, six first locating holes have been seted up on the first mounting panel, the one end activity grafting of first positioning bolt has first baffle in one of six first locating holes, the position fixed mounting that corresponds the operation box on the first screen cloth.

Further, one side of the operation box is fixed with a second mounting plate, a second mounting shaft is movably inserted on the second mounting plate, one end of the second mounting shaft is fixedly inserted with a second gear, one side of the second adjusting net is fixedly provided with a second toothed plate, the second gear is meshed with the second toothed plate, the other end of the second mounting shaft is fixedly inserted with a second deflector rod, a second positioning bolt is movably inserted on the second deflector rod, the second deflector rod is in threaded connection with the second positioning bolt, six second positioning holes are formed in the second mounting plate, one end of the second positioning bolt is movably inserted in one of the six second positioning holes, a second baffle is fixedly arranged at the position of the second screen corresponding to the operation box, and the operation box is hinged with an operation cover plate through a hinge.

Further, the grain inlet is formed in the upper side of the grain screening shell by abutting against the edge, first impurity discharging ports are fixedly formed in two sides of the grain screening shell, two impurity discharging ports are formed in the installation positions of the first impurity discharging ports, the two impurity discharging ports are close to the upper side of the first screen, two second impurity discharging ports are fixedly formed in the lower side of the grain screening shell, funnels are fixedly arranged on two sides of the vehicle-mounted platform, the two funnels are respectively arranged under the two first impurity discharging ports and the two first screen, a grain outlet is fixedly arranged on one side of the grain screening shell, and the installation positions of the grain outlet are close to the upper side of the second adjusting net.

Further, four backup pads are fixedly mounted on the vehicle-mounted platform, two support frames are fixedly mounted on two sides of the grain screening shell respectively, the four support frames are in one-to-one correspondence with the upper and lower positions of the four support plates, the four support plates are respectively provided with movable plug connection bolts, the four connection bolts are respectively movably inserted through the support frames, springs are respectively arranged between the four support frames and the four support plates, and two ends of each spring are respectively movably connected with the four support frames and the four support plates.

Further, fixed mounting has dust collector on the on-vehicle platform, dust collector is including the dust removal box, the inside fixed mounting of dust removal box has the baffle, nine circular through-holes have been seted up on the baffle, the equal fixed mounting in position that corresponds nine circular through-holes respectively of downside of baffle has the support, nine all movable cup joints circular brush on the support, nine be provided with the link between the circular brush, nine circular brush passes through link fixed connection, baffle upside fixed mounting has two cylinders, two all movable grafting has the push rod on the cylinder, two the push rod is movable to alternate respectively to cross the baffle, two the one end of push rod respectively with link fixed connection, two the both ends of cylinder all have the pneumatic solenoid valve of second through hose connection, the pneumatic solenoid valve of second passes through the hose and is connected with the air pump, the pneumatic solenoid valve of second and operating panel electric connection.

Further, one side fixed mounting of dust removal box has the wind channel, the inside of wind channel and dust removal box communicates with each other, wind channel one end sets up the upside at the grain mouth that goes out, one side fixed mounting of dust removal box has two mounting brackets, two the equal fixed mounting of upside of mounting bracket has electric fan, two electric fan all is provided with inlet end and outlet end, two electric fan's inlet end all with dust removal box fixed connection, the downside fixed mounting of dust removal box has electric auger, two electric fan and electric auger all with operating panel electric connection.

Further, the three sides and the upside of dust removal box all articulate through the hinge has the access door, one side fixed mounting connection jar of dust removal box, fixed mounting has nine trachea on the connection jar, nine the trachea is all fixed the grafting go into the inside of dust removal box, and nine tracheal one end extends to nine circular through-holes directly over respectively, fixed mounting has the air pump on the vehicle-mounted platform, the connection jar has first pneumatic solenoid valve through hose connection, first pneumatic solenoid valve passes through hose and is connected with the air pump, first pneumatic solenoid valve and operating panel electric connection.

Further, the grain separating device is fixedly arranged on the vehicle-mounted platform and comprises a grain separating main body, the grain separating main body is hollow, a grain inlet is formed right below the grain separating main body, a trapezoid grain separating plate is fixedly arranged in the grain separating main body, and the trapezoid grain separating plate has a certain inclination angle.

Further, fixed mounting has electric conveyer belt on the on-vehicle platform, electric conveyer belt sets up under dust collector, electric conveyer belt's one end sets up under the grain mouth, electric conveyer belt and operating panel electric connection.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through the first adjusting net and the second adjusting net, the problem that different types of grains cannot be screened by the traditional pulse vibrating screen can be solved, so that more types of equipment are needed, and resource waste is caused, when the pulse vibrating screen is used, a user can move the first adjusting net through operation, the first adjusting net can move to cause dislocation of a plurality of first holes and a plurality of second holes, the first adjusting net can block a part of substances passing through the first holes, the first toothed plate is pulled by the user, the part of the first holes can be increased by the first adjusting net, the size of the substances which can be blocked can be gradually reduced until the holes can pass through selected grains, impurities larger than the selected grains can not pass through, then the second adjusting net can move through operation, the second adjusting net can cause dislocation of a plurality of third holes and a plurality of fourth holes, the second adjusting net can block a part of substances passing through the third holes, the second toothed plate is pulled by the user, the second adjusting net can block a part of substances passing through the third holes, the substances which can be blocked by the second adjusting net can be directly reduced, the grain waste can be reduced through the equipment, and the grain waste can not be reduced through the selected grains.

2. Through circular brush, the cylinder, spread tank and the trachea of setting, can solve traditional pulse vibrating screen and be difficult to clear away the impurity on dust collector's the filter bag completely, can cause the lower problem of dust removal effect, when using, user accessible control operation panel gives the pneumatic solenoid valve of second, make the high-pressure gas in the air pump enter into the one end of two cylinders through the hose, make two push rods stretch out two cylinders, two cylinders can drive the link and remove, the link can drive nine circular brushes and remove, nine circular brushes can be with dust or the quality on the filter bag more easily wabble impurity respectively, make dust or quality more wabble impurity more easily and can fall into the bottom of dust removal box after falling down, user accessible control operation panel gives first pneumatic solenoid valve in addition, make the high-pressure gas in the air pump enter into the spread tank through the hose, then the spread tank will high-pressure gas distributes nine trachea, because nine tracheal one end sets up the upside at nine circular through-holes respectively, get into nine supports through nine tracheal spun high-pressure gas, can be with the dust or quality more wabble dust on the filter bag more easy to remove the filter bag more easy to clean up the impurity of the filter bag of dust that can more wabble on the filter bag more easily to clean up.

3. Through support frame, backup pad, connecting bolt and spring that set up, parts such as buffering shock attenuation that traditional pulse vibrating screen used are rubber or select wrong mounting means, can make buffering shock attenuation effect reduce, can cause the extravagant problem of energy, traditional pulse vibrating screen adopts rubber spring natural frequency to accomplish less than 5Hz, and not high temperature and greasy dirt, it is easier to corrode and weathers, grain production work majority is outdoor, there are many adverse factors to rubber, can influence the steady operation of equipment, secondly traditional pulse vibrating screen can use two springs to come the connection of firm support frame and backup pad from horizontal direction and vertical direction, increase the spring on two directions and can influence sieving mechanism's vibrations effect, and then influence screening efficiency, influence production, this equipment can guarantee connection stability through the connecting bolt that sets up, replace rubber spring through the spring that sets up, can reduce the replacement cost of spring, also can guarantee buffering shock attenuation effect.

4. Through the trapezoidal grain dividing plate that divides that the grain dividing device of traditional pulse vibrating screen used adopts triangle-shaped structure, can cause the problem of excessively dividing grain, when using, grain can fall to divide on the trapezoidal grain dividing plate of grain dividing in the device, divide the trapezoidal structural design of grain by trapezoidal for the middle of grain dividing the board is flatter, in addition because the trapezoidal grain dividing plate possesses certain inclination, grain can pile up at the middle part of grain dividing the board at first and to dividing the inside landing of grain device, along with grain piles up more, by the trapezoidal structural design of grain dividing the grain board by trapezoidal, grain can be followed the middle quick to both sides landing to pile up along with this to dividing the inside landing of grain device, so can make quick dispersion, the convenience screening of grain.

Drawings

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of a high efficiency grain vibrating screen according to the present utility model.

Fig. 2 is a schematic diagram of the overall structure of the other side of the efficient grain vibrating screen.

Fig. 3 is a schematic view of a dust removing device of a high-efficiency grain vibrating screen according to the present utility model.

Fig. 4 is a cross-sectional view of a dust removing device of a high efficiency grain vibrating screen according to the present utility model.

Fig. 5 is a schematic view of a grain screening device of the efficient grain vibrating screen.

Fig. 6 is a cross-sectional view of a grain screening apparatus of the present utility model for a high efficiency grain vibrating screen.

Fig. 7 is a schematic view of a grain separating device of the efficient grain vibrating screen.

Fig. 8 is an enlarged view of section a of fig. 2 of a high efficiency grain vibrating screen according to the present utility model.

Fig. 9 is an enlarged view of section B of fig. 4 of a high efficiency grain vibrating screen according to the present utility model.

Fig. 10 is an enlarged view of section C of fig. 6 of a high efficiency grain vibrating screen according to the present utility model.

Fig. 11 is an enlarged view of section D of fig. 6 of a high efficiency grain vibrating screen according to the present utility model.

In the figure: 1. a vehicle-mounted platform; 2. a grain screening device; 3. a grain separating device; 4. a dust removal device; 5. an air duct; 6. an electric fan; 7. electric auger; 9. an electric conveyor belt; 10. a grain sieving shell; 11. a vibration motor; 12. a grain inlet; 13. a grain outlet; 14. a first impurity discharging port; 15. a second impurity discharging port; 16. a first screen; 17. a second screen; 18. a first conditioning network; 19. a second conditioning network; 20. a first support angle iron; 21. a second support angle iron; 22. a first mounting plate; 23. a second mounting plate; 24. a first mounting shaft; 25. a second mounting shaft; 26. a first gear; 27. a second gear; 28. a first toothed plate; 29. a second toothed plate; 30. a first positioning hole; 31. a second positioning hole; 32. a first positioning bolt; 33. a second positioning bolt; 34. a first baffle; 35. a second baffle; 36. an operation box; 37. operating the cover plate; 38. a support frame; 39. a support plate; 40. a connecting bolt; 41. a spring; 42. a dust removal box; 43. a partition plate; 44. a circular through hole; 45. a bracket; 46. a circular brush; 47. a connecting frame; 48. a cylinder; 49. a connecting tank; 50. an air pipe; 51. an access door; 52. a grain separating main body; 53. a trapezoid grain dividing plate; 54. an operation panel; 55. a funnel; 56. an escalator; 57. an air pump; 58. a mounting frame; 59. a first deflector rod; 60. and a second deflector rod.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-11, the object of the present utility model can be achieved by the following technical solutions:

the utility model provides a high-efficient grain vibration clearance sieve, including on-vehicle platform 1 and sieve grain device 2, sieve grain device 2 is including sieve grain casing 10, the inside fixed mounting of sieve grain casing 10 has first screen cloth 16 and second screen cloth 17, first screen cloth 16 sets up the top of second screen cloth 17, the below of first screen cloth 16 and second screen cloth 17 is the activity respectively and is provided with first regulation net 18 and second regulation net 19, the downside activity butt of first regulation net 18 is at the downside of first screen cloth 16, a plurality of first sieve mesh has been seted up on the first screen cloth 16, a plurality of second sieve mesh has been seted up on the first regulation net 18, the upper and lower position one-to-one of a plurality of first sieve mesh and a plurality of second sieve mesh, the downside at second screen cloth 17 is adjusted in the movable butt of second regulation net 19, the second screen 17 is provided with a plurality of third screen holes, the second adjusting net 19 is provided with a plurality of fourth screen holes, the upper and lower positions of the plurality of third screen holes and the plurality of fourth screen holes are in one-to-one correspondence, the inner walls of the two sides of the interior of the grain sieving shell 10 are fixedly provided with first supporting angle irons 20, the two first supporting angle irons 20 are movably abutted to the lower side of the first adjusting net 18, the inner walls of the two sides of the interior of the grain sieving shell 10 are fixedly provided with second supporting angle irons 21, the two second supporting angle irons 21 are movably abutted to the lower side of the second adjusting net 19, and as shown in fig. 10 and 11, the first adjusting net 18 and the second adjusting net 19 can be respectively supported through the first supporting angle irons 20 and the second supporting angle irons 21.

The middle positions of two sides of the grain screening shell 10 are fixedly provided with vibrating motors 11, the vehicle-mounted platform 1 is fixedly provided with an operation panel 54, the operation panel 54 is electrically connected with an external power supply, the two vibrating motors 11 are electrically connected with the operation panel 54, one side of the vehicle-mounted platform 1 is fixedly provided with an escalator 56, the vibrating motors 11 are excitation sources of which power sources and vibration sources are combined into a whole, the vibrating motors 11 are respectively provided with a group of adjustable eccentric blocks at two ends of a rotor shaft, and excitation force is obtained by utilizing centrifugal force generated by high-speed rotation of a shaft and the eccentric blocks.

An operation box 36 is fixedly installed on one side of the grain screening shell 10, a first installation plate 22 is fixed on one side of the operation box 36, a first installation shaft 24 is movably inserted on the first installation plate 22, a first gear 26 is fixedly inserted at one end of the first installation shaft 24, a first toothed plate 28 is fixedly installed on one side of the first adjusting net 18, the first gear 26 is meshed with the first toothed plate 28, a first deflector rod 59 is fixedly inserted at the other end of the first installation shaft 24, a first positioning bolt 32 is movably inserted on the first deflector rod 59, the first deflector rod 59 is in threaded connection with the first positioning bolt 32, six first positioning holes 30 are formed in the first installation plate 22, one end of the first positioning bolt 32 is movably inserted in one of the six first positioning holes 30, a first baffle 34 is fixedly installed at the position of the first screen 16 corresponding to the operation box 36, and grains or impurities can be prevented from entering the operation box 36 through the first baffle 34.

A second mounting plate 23 is fixed on one side of the operation box 36, a second mounting shaft 25 is movably inserted on the second mounting plate 23, a second gear 27 is fixedly inserted at one end of the second mounting shaft 25, a second toothed plate 29 is fixedly installed on one side of the second adjusting net 19, the second gear 27 is meshed with the second toothed plate 29, a second deflector rod 60 is fixedly inserted at the other end of the second mounting shaft 25, a second positioning bolt 33 is movably inserted on the second deflector rod 60, the second deflector rod 60 is in threaded connection with the second positioning bolt 33, six second positioning holes 31 are formed in the second mounting plate 23, one end of the second positioning bolt 33 is movably inserted in one of the six second positioning holes 31, a second baffle 35 is fixedly installed at the position, corresponding to the operation box 36, on the second screen 17, the operation box 36 is hinged with an operation cover plate 37 through a hinge, and grains or impurities can be prevented from entering the operation box 36 through the second baffle 35.

The grain inlet 12 is formed in the upper side of the grain screening shell 10 and is close to the edge, the first impurity discharging openings 14 are fixedly arranged on two sides of the grain screening shell 10, the mounting positions of the two first impurity discharging openings 14 are close to the upper side of the first screen mesh 16, the two second impurity discharging openings 15 are fixedly arranged on the lower side of the grain screening shell 10, the funnels 55 are fixedly arranged on two sides of the vehicle-mounted platform 1, the two funnels 55 are respectively arranged under the two first impurity discharging openings 14 and the two first screen meshes 16, the grain outlet 13 is fixedly arranged on one side of the grain screening shell 10, and the mounting position of the grain outlet 13 is close to the upper side of the second adjusting net 19.

Four support plates 39 are fixedly mounted on the vehicle-mounted platform 1, two support frames 38 are fixedly mounted on two sides of the grain screening shell 10 respectively, the four support frames 38 are in one-to-one correspondence with the upper and lower positions of the four support plates 39, connecting bolts 40 are movably inserted in the four support plates 39, the four connecting bolts 40 are movably inserted through the support frames 38, springs 41 are arranged between the four support frames 38 and the four support plates 39, and two ends of each of the four springs 41 are movably connected with the four support frames 38 and the four support plates 39 respectively.

The vehicle-mounted platform 1 is fixedly provided with a dust removing device 4, the dust removing device 4 comprises a dust removing box 42, the inside of the dust removing box 42 is fixedly provided with a partition plate 43, nine circular through holes 44 are formed in the partition plate 43, the positions of the nine circular through holes 44 are fixedly provided with supports 45 respectively, the nine supports 45 are movably sleeved with round brushes 46, a connecting frame 47 is arranged between the nine round brushes 46, the nine round brushes 46 are fixedly connected through the connecting frame 47, the upper side of the partition plate 43 is fixedly provided with two cylinders 48, push rods are movably inserted on the two cylinders 48, the two push rods are respectively and movably inserted through the partition plate 43, one ends of the two push rods are respectively and fixedly connected with the connecting frame 47, two ends of the two cylinders 48 are respectively and fixedly connected with a second pneumatic electromagnetic valve through hoses, the second pneumatic electromagnetic valve is connected with an air pump 57 through hoses, the second pneumatic electromagnetic valve is electrically connected with an operation panel 54, the pneumatic electromagnetic valve converts the pressure energy of compressed air into mechanical energy in pneumatic actuating elements in pneumatic transmission, the pneumatic electromagnetic valve is an industrial equipment for controlling fluid, the pneumatic electromagnetic valve is an automatic element for controlling fluid, the pneumatic electromagnetic valve is a pneumatic basic element, the pneumatic electromagnetic valve is a pneumatic valve for controlling the air leakage, and the pneumatic valve is a high-pressure valve body or a pneumatic valve is not normally-open, and the pneumatic valve body is not normally-open and can be leaked out through the pneumatic valve body.

One side fixed mounting of dust removal box 42 has wind channel 5, wind channel 5 communicates with each other with the inside of dust removal box 42, wind channel 5 one end sets up the upside at grain outlet 13, one side fixed mounting of dust removal box 42 has two mounting brackets 58, the equal fixed mounting of upside of two mounting brackets 58 has electric fan 6, two electric fan 6 all are provided with the inlet end and give vent to anger the end, the inlet end of two electric fan 6 all with dust removal box 42 fixed connection, the downside fixed mounting of dust removal box 42 has electric auger 7, two electric fan 6 and electric auger 7 all with operating panel 54 electric connection.

The three sides and the upside of dust removal box 42 all are articulated through the hinge have access door 51, one side fixed mounting connection jar 49 of dust removal box 42, fixed mounting has nine trachea 50 on the connection jar 49, nine trachea 50 all are fixed the grafting and are gone into the inside of dust removal box 42, and nine trachea 50's one end extends to nine circular through-holes 44 respectively directly over, fixed mounting has air pump 57 on the platform 1, connection jar 49 has first pneumatic solenoid valve through hose connection, first pneumatic solenoid valve passes through hose and is connected with air pump 57, first pneumatic solenoid valve and operating panel 54 electric connection.

The grain separating device 3 is fixedly arranged on the vehicle-mounted platform 1, the grain separating device 3 comprises a grain separating main body 52, the grain separating main body 52 is hollow, a grain inlet 12 is arranged right below the grain separating main body 52, a trapezoid grain separating plate 53 is fixedly arranged in the grain separating main body 52, and the trapezoid grain separating plate 53 has a certain inclination angle.

The electric conveyor belt 9 is fixedly installed on the vehicle-mounted platform 1, the electric conveyor belt 9 is arranged right below the dust removing device 4, one end of the electric conveyor belt 9 is arranged right below the grain outlet 13, and the electric conveyor belt 9 is electrically connected with the operation panel 54.

Before using, the present utility model is a high-efficiency grain vibration cleaning screen, firstly, the present equipment is placed on the horizontal ground, a user can move the present equipment to a designated place through the vehicle-mounted platform 1, and one end of a transmission belt for feeding grains is aligned to the grain distributing device 3, then the corresponding sieve holes are required to be adjusted according to the size of the screened impurities and the grain types, firstly, the user needs to respectively screw the first positioning bolt 32 and the second positioning bolt 33, so that the first positioning bolt 32 and the second positioning bolt 33 are respectively separated from the connection with the first positioning hole 30 and the second positioning hole 31, then the first toothed plate 28 can be pulled, the first mounting shaft 24 and the first gear 26 fixedly connected with the first mounting shaft 24 are driven to rotate by the first toothed plate 28, and the rotation of the first gear 26 can drive the first stirring rod 59 to move due to the meshed connection of the first gear 26 and the first stirring rod 59, then the first shifting lever 59 will drive the first adjusting net 18 fixedly connected with the first shifting lever 59 to move, the first adjusting net 18 will shift a plurality of first holes and a plurality of second holes, so that the first adjusting net 18 can block a part of the substances passing through the first holes, as the user pulls the first toothed plate 28, the part of the first adjusting net 18 which can shield the first holes will increase, the size of the blocked substances will gradually decrease until the holes pass through the selected grains and cannot pass through the impurities larger than the selected grains, the user can stop pulling and twist the first positioning bolts 32, so that when the first positioning bolts 32 are inserted into the similar first positioning holes 30, then the second toothed plate 29 can be pulled, the second mounting shaft 25 and the second gear 27 fixedly connected with the second mounting shaft 25 are driven by the second toothed plate 29 to rotate, because the second gear 27 is meshed with the second deflector rod 60, the rotation of the first gear 26 can drive the second deflector rod 60 to move, then the second deflector rod 60 can drive the second adjusting net 19 fixedly connected with the second deflector rod 60 to move, the second adjusting net 19 moves to cause dislocation of a plurality of third sieve holes and a plurality of fourth sieve holes, further the second adjusting net 19 can block a part of substances passing through the third sieve holes, as a user pulls the second toothed plate 29, the part of the second adjusting net 19 which can block the third sieve holes can be increased, the size of the substances which can be blocked can be gradually reduced until the sieve holes can pass impurities smaller than selected grains and cannot pass the selected grains, the user can stop pulling and screw the second positioning bolts 33, so that the user can close the operating cover plate 37 when the second positioning bolts 33 are inserted into the second positioning holes 31 which are close;

then, the user needs to open the access door 51 of the dust removing device 4, sleeve the filter bags one by one for the nine brackets 45, pass the filter bags through the round hairbrush 46 while sleeving, then need to fix the filter bags one by one, and then close the open access door 51;

when the grain sorting device is used, a user needs to electrify the electric fan 6, the electric auger 7, the electric conveyor belt 9, the vibration motor 11 and the air pump 57 through controlling the operation panel 54, then grains are conveyed into the grain sorting device 3 through the conveyor belt for conveying the grains, firstly the grains can fall onto the trapezoid grain sorting plate 53 in the grain sorting device 3, the trapezoid structure of the trapezoid grain sorting plate 53 enables the middle of the trapezoid grain sorting plate 53 to be flatter, in addition, the grains can be piled up in the middle of the trapezoid grain sorting plate 53 at first and slide into the grain sorting device 3, and the grains can slide from the middle to two sides rapidly along with the accumulation of the grains, and then the grains are piled up into the grain sorting device 3, so that the grains can be dispersed rapidly and are convenient to screen;

next, the grains fall out of the grain separating device 3, then enter the inside of the grain sieving shell 10 through the grain inlet 12, the grains entering the inside of the grain sieving shell 10 fall to the upper side of the first screen 16, after the other two vibrating motors 11 are electrified, the two vibrating motors 11 drive the grain sieving device 2 to vibrate integrally, the grain sieving shell 10 and the vehicle-mounted platform 1 can be prevented from vibrating together through the four springs 41, the two vibrating motors 11 drive the grain sieving device 2 to vibrate regularly, then the grains falling onto the first screen 16 vibrate together, and scatter on the upper side of the first screen 16 and move to one side of the first screen 16, and simultaneously the grains fall to the upper side of the second screen 17 through a plurality of first screen holes and a plurality of second screen holes, and impurities larger than the selected grains continue to move to one side of the first screen 16, finally the grains falling onto the second screen 17 are discharged through the two first impurity discharging holes 14, then the grains falling onto one side of the second screen 17 move to one side of the second screen 17, finally the grains falling onto the second screen 17 through the second screen holes 10 and the second screen holes 15 through the first screen holes, and the second screen holes 15 are discharged through the second screen holes, and finally the grains fall to the second screen holes 15 through the second screen holes and the second screen holes;

next, the screened grains fall to the electric conveyor belt 9 through the grain outlet 13, the electrified electric conveyor belt 9 can drive the screened grains to be discharged out of the equipment, in addition, when the screened grains fall from the grain outlet 13, the two electrified electric fans 6 can start to pump the internal air of the dust removing box 42 to the outside, meanwhile, as the dust removing box 42 is sealed, the two electric fans 6 can pump the external air into the dust removing box 42 through the air duct 5, as one end of the air duct 5 is arranged on the upper side of the grain outlet 13, dust or flying impurities can be easily lifted in the falling process of the screened grains, and meanwhile, the dust or the impurities which are easily lifted in the quality can be sucked into the dust removing box 42 through the air duct 5, and through the process, the screened grains can be cleaner to increase the screening effect;

next, since the partition plate 43 divides the interior of the dust removing box 42 into upper and lower parts, dust or mass easily floats up the impurities, which will first enter the lower part of the interior of the dust removing box 42, through the suction of the two electric fans 6, the lower part of the interior of the dust removing box 42 will pass through the nine filter bags, and through the nine circular through holes 44, enter the upper part of the interior of the dust removing box 42, and then the two electric fans 6 will be sucked to the outside, while dust or mass easily floats up the impurities will adhere to the nine filter bags, and more dust or mass easily floats up the impurities will adhere to the increase of time, at this time, the impurities need to be removed, the user needs to turn off the power on of the two electric fans 6 by controlling the operation panel 54, the user can give the second pneumatic solenoid valve by controlling the operation panel 54, the high-pressure gas in the air pump 57 enters one end of the two air cylinders 48 through the hose, the two push rods extend out of the two air cylinders 48, the two air cylinders 48 can drive the connecting frame 47 to move, the connecting frame 47 can drive the nine round brushes 46 to move, the nine round brushes 46 can respectively enable dust or mass on the filter bag to float impurities easily, the dust or mass can fall into the bottom of the dust removing box 42 after the impurities fall off easily, then the electric auger 7 brings out of the dust removing box 42, in addition, a user can control the operation panel 54 to give the first air solenoid valve, the high-pressure gas in the air pump 57 enters the connecting tank 49 through the hose, then the connecting tank 49 distributes the high-pressure gas to the nine air pipes 50, since one ends of the nine air pipes 50 are respectively arranged on the upper sides of the nine round through holes 44, the high-pressure gas sprayed out through the nine air pipes 50 enters the nine brackets 45, the high-pressure air can wash away the dust or the impurities which are more easily floating and attached to the nine filter bags, and after the dust or the impurities which are more easily floating and attached to the filter bags are cleaned, a user can continue to use the dust removing device 4 according to the operation.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. The utility model provides a high-efficient grain vibration clearance sieve, includes on-vehicle platform (1) and sieves grain device (2), its characterized in that: the grain sieving device (2) comprises a grain sieving shell (10), a first screen (16) and a second screen (17) are fixedly arranged in the grain sieving shell (10), the first screen (16) is arranged above the second screen (17), a first adjusting net (18) and a second adjusting net (19) are movably arranged below the first screen (16) and the second screen (17) respectively, the lower side of the first adjusting net (18) is movably abutted to the lower side of the first screen (16), a plurality of first screen holes are formed in the first screen (16), a plurality of second screen holes are formed in the first adjusting net (18), a plurality of first screen holes are formed in the first adjusting net (18), the upper positions and the lower positions of the first screen holes and the plurality of second screen holes are in one-to-one correspondence, a plurality of third screen holes are formed in the second adjusting net (19) in movable abutted mode to the lower side of the second screen (17), a plurality of third screen holes are formed in movable abutted mode to the second screen (19), a plurality of first screen holes are fixedly arranged on the inner wall (20) of the inner wall of the first screen (18) and are fixedly arranged on the inner wall of the grain sieving shell (20), the two second supporting angle irons (21) are movably abutted against the lower side of the second adjusting net (19).

2. The efficient grain vibrating screen as claimed in claim 1, wherein: vibration motor (11) are all fixed mounting in the middle part position of both sides of sieve grain casing (10), fixed mounting has operating panel (54) on-vehicle platform (1), operating panel (54) and external power source electric connection, two vibration motor (11) all with operating panel (54) electric connection, one side fixed mounting of on-vehicle platform (1) has staircase (56).

3. The efficient grain vibrating screen as claimed in claim 2, wherein: one side fixed mounting of sieve grain casing (10) has operation box (36), one side of operation box (36) is fixed with first mounting panel (22), movable grafting has first installation axle (24) on first mounting panel (22), the fixed grafting of one end of first installation axle (24) has first gear (26), one side fixed mounting of first regulation net (18) has first pinion rack (28), first gear (26) are connected with first pinion rack (28) meshing, the other end fixed grafting of first installation axle (24) has first driving lever (59), movable grafting has first positioning bolt (32) on first driving lever (59), six first positioning hole (30) have been seted up on first mounting panel (22), one end activity grafting of first positioning bolt (32) has one in six first positioning hole (30), the other end fixed grafting of first driving lever (59) has first baffle of operation box (36) corresponding on first screen cloth (16).

4. A high efficiency grain vibrating screen according to claim 3, characterized in that: one side of operation box (36) is fixed with second mounting panel (23), movable grafting has second installation axle (25) on second mounting panel (23), the fixed grafting of one end of second installation axle (25) has second gear (27), one side fixed mounting of second regulation net (19) has second pinion rack (29), second gear (27) and second pinion rack (29) meshing are connected, the fixed grafting of the other end of second installation axle (25) has second driving lever (60), movable grafting has second positioning bolt (33) on second driving lever (60), second driving lever (60) and second positioning bolt (33) threaded connection, six second locating holes (31) have been seted up on second mounting panel (23), one end movable grafting of second positioning bolt (33) has second baffle (35) in the position fixed mounting of corresponding operation box (36) in second screen cloth (17) in six second locating holes (31), operation box (36) have operation apron (37) through the hinge.

5. The efficient grain vibrating screen as recited in claim 4, wherein: the utility model discloses a grain screening machine, including screening grain casing (10), screening grain casing (10) upper side is leaned on the limit position to set up into grain mouth (12), the both sides of screening grain casing (10) are all fixed mounting have first row miscellaneous mouth (14), two the mounted position of first row miscellaneous mouth (14) is close to the upside of first screen cloth (16), the downside fixed mounting of screening grain casing (10) has two second row miscellaneous mouthful (15), funnel (55) are all installed to the both sides of on-vehicle platform (1) are fixed, two funnel (55) set up respectively under two first row miscellaneous mouthful (14) and two first screen cloth (16), one side fixed mounting of screening grain casing (10) has a grain outlet (13), the mounted position of grain outlet (13) is close to the upside of second regulation net (19).

6. The efficient grain vibrating screen as recited in claim 5, wherein: four backup pads (39) are fixedly mounted on the vehicle-mounted platform (1), two support frames (38) are fixedly mounted on two sides of the grain screening shell (10) respectively, the four support frames (38) correspond to the upper and lower positions of the four support plates (39) one by one, the four support plates (39) are respectively provided with movable plug-in connection bolts (40), the four connection bolts (40) are respectively movably inserted through the support frames (38), springs (41) are respectively arranged between the four support frames (38) and the four support plates (39), and two ends of each spring (41) are respectively movably connected with the four support frames (38) and the four support plates (39).

7. The efficient grain vibrating screen as recited in claim 6, wherein: the utility model provides a dust collector, including on-vehicle platform (1) fixed mounting dust collector (4), dust collector (4) including dust removal box (42), the inside fixed mounting of dust removal box (42) has baffle (43), nine circular through-holes (44) have been seted up on baffle (43), the downside of baffle (43) corresponds the equal fixed mounting in position of nine circular through-holes (44) respectively has support (45), nine on support (45) all movable sleeve round brush (46), nine be provided with link (47) between round brush (46), nine round brush (46) are through link (47) fixed connection, baffle (43) upside fixed mounting has two cylinders (48), two all movable grafting have the push rod on cylinder (48), two the push rod is respectively movable to alternate baffle (43), two the one end of push rod respectively with link (47) fixed connection, two the both ends of cylinder (48) all are connected with the second solenoid valve through the hose, pneumatic solenoid valve (57) and pneumatic solenoid valve (54) are connected with the pneumatic solenoid valve (57).

8. The efficient grain vibrating screen as recited in claim 7, wherein: one side fixed mounting of dust removal box (42) has wind channel (5), wind channel (5) communicate with each other with the inside of dust removal box (42), wind channel (5) one end sets up the upside at grain outlet (13), one side fixed mounting of dust removal box (42) has two mounting brackets (58), two the equal fixed mounting of upside of mounting brackets (58) has electric fan (6), two electric fan (6) all are provided with inlet end and outlet end, two electric fan (6) inlet end all with dust removal box (42) fixed connection, electric auger (7) are all installed to the downside fixed mounting of dust removal box (42), two electric fan (6) and electric auger (7) all with operating panel (54) electric connection.

9. The efficient grain vibrating screen as recited in claim 8, wherein: the three sides and the upside of dust removal box (42) all are articulated through the hinge have access door (51), one side fixed mounting connection jar (49) of dust removal box (42), fixed mounting has nine trachea (50) on connection jar (49), nine trachea (50) all are fixed the inside of grafting income dust removal box (42), and nine the one end of trachea (50) extends to directly over nine circular through-holes (44) respectively, fixed mounting has air pump (57) on platform (1), connection jar (49) have first pneumatic electromagnetic valve through hose connection, first pneumatic electromagnetic valve is connected with air pump (57) through the hose, first pneumatic electromagnetic valve and operating panel (54) electric connection.

10. The efficient grain vibrating screen as recited in claim 9, wherein: the novel automatic grain distribution device is characterized in that a grain distribution device (3) is fixedly arranged on the vehicle-mounted platform (1), the grain distribution device (3) comprises a grain distribution main body (52), the grain distribution main body (52) is hollow, a grain inlet (12) is formed right below the grain distribution main body (52), a trapezoid grain distribution plate (53) is fixedly arranged in the grain distribution main body (52), and the trapezoid grain distribution plate (53) has a certain inclination angle; the automatic grain discharging device is characterized in that an electric conveying belt (9) is fixedly installed on the vehicle-mounted platform (1), the electric conveying belt (9) is arranged right below the dust removing device (4), one end of the electric conveying belt (9) is arranged right below the grain discharging port (13), and the electric conveying belt (9) is electrically connected with the operation panel (54).