CN110076076A - A kind of interval shake stalk removal of impurities hoisting equipment - Google Patents
A kind of interval shake stalk removal of impurities hoisting equipment Download PDFInfo
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- CN110076076A CN110076076A CN201910391829.1A CN201910391829A CN110076076A CN 110076076 A CN110076076 A CN 110076076A CN 201910391829 A CN201910391829 A CN 201910391829A CN 110076076 A CN110076076 A CN 110076076A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B07—SEPARATING SOLIDS FROM SOLIDS; SORTING
- B07B—SEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
- B07B1/00—Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
- B07B1/12—Apparatus having only parallel elements
- B07B1/16—Apparatus having only parallel elements the elements being movable and in other than roller form
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B7/00—Cleaning by methods not provided for in a single other subclass or a single group in this subclass
- B08B7/02—Cleaning by methods not provided for in a single other subclass or a single group in this subclass by distortion, beating, or vibration of the surface to be cleaned
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Abstract
A kind of interval shake stalk removal of impurities hoisting equipment belongs to agricultural machinery technological field, the present invention is by rack components, transmission component, shake component and motor form, wherein the angle theta of transmission component and shake wheel assembly and horizontal plane is 0 ° -45 °, can carry out effective elevator to stalk;Dithering-wheel can shake the stalk referred on bar in horizontal position with positive teeth-missing gear by the reversed teeth-missing gear in transmission component primary, it is shaken twice in vertical position, during this, stalk interval is shaken, drops and is collided, it is mingled with and is attached to the impurity separation on stalk surface, can efficiently removes the impurity in stalk;The finger bar of dithering-wheel is staggeredly interspersed in the gap for referring to bar, connecting rod and annulus of adjacent dithering-wheel, and the impurity that will be blocked between referring to bar is removed, and prevents impurity blocking from referring to bar gap, and the present invention can solve the efficient removal and elevator of straw impurity after pickup.
Description
Technical field
The invention belongs to agricultural machinery technological fields, and in particular to a kind of interval shake stalk removal of impurities hoisting equipment.
Background technique
China's agricultural crop straw is from a wealth of sources, and yield is big, can be used as fuel, feed, fertilizer, raw material and base-material etc., has
Higher use value.To meet straw field pickup job requirements, straw field pickup is completed using elastic claw pickup, it is easy during pickup
Impurity is mixed in stalk, a large amount of impurity is contained in the stalk after pickup, such as metal, plastic fabric, dust, soil, thin
Sandstone etc. directly affects the utilization efficiency of stalk.The mode of stalk removal of impurities at present mainly has roller screening, plane of oscillation screening
Deng since impurity is mixed in stalk or depends on and is bonded in stalk surface, the screening impurities removing efficiency and efficiency of existing equipment in stalk
It is low, while sieve pore is easy blocking, and then removal of impurities is caused to be failed.
Summary of the invention
It is an object of the invention to be directed to the deficiency of existing stalk impurity removing technology, a kind of interval shake stalk removal of impurities liter is provided
Shipping unit, by the processes such as intermittently shaking, colliding and dropping, removal, which is mixed in inside stalk and depends on, is bonded in stalk surface
Hardly possible removal impurity, to improve stalk impurities removing efficiency, while can be to the elevator of stalk.
The present invention is made of rack components A, transmission component B, shake component C and motor 2;Motor 2 is fixed in rack components A
Motor mounting plate 4 on;Transmission rolling bearing units I 14, transmission rolling bearing units III 19, transmission rolling bearing units V in transmission component B
27, rolling bearing units VII 33 are driven and are driven the right side that rolling bearing units Ⅸ 41 are uniformly fixed in the transmission support board group 8 in rack components A
In support plate;Transmission rolling bearing units II 18, transmission rolling bearing units IV 24, transmission rolling bearing units VI 32, transmission in transmission component B
Rolling bearing units VIII 38 and transmission rolling bearing units Ⅹ 45 are uniformly fixed in the left support plate of the transmission support board group 8 in rack components A
On;Shake rolling bearing units I 50, shake rolling bearing units II 51, shake rolling bearing units III 52 and shake in shake component C are usherd to seat axis
In the right shake support plate for holding the shake support board group 10 that IV 53 are uniformly fixed in rack A;Shake in shake component C is usherd to seat
Bearing V 54, shake rolling bearing units VI 55, shake rolling bearing units VII 56 and shake rolling bearing units VIII 57 are uniformly fixed in rack A
Shake support board group 10 left shake support plate on;It shakes gear I 25 and shakes the shake of shake I I of wheel assembly in component C
I 49 right end of axis is affixed;It shakes gear II 26 and the right end of the shaker shaft II 48 of shake II J of wheel assembly shaken in component C is affixed;
It shakes gear III 39 and the right end of the shaker shaft III 47 of shake III K of wheel assembly shaken in component C is affixed;Shake gear IV 40 with
The right end for shaking the shaker shaft IV 46 of shake IV L of wheel assembly in component C is affixed.
The rack components A is by motor mounting plate 4, support beam group 5, middle cross beam group 6, stringer group 7, transmission support board group
8, upper beam 9, shake support board group 10, rear vertical bar group 11 and preceding vertical bar group 12 composition, wherein support beam group 5 by left support beam and
Right support beam composition;Middle cross beam group 6 is made of front beam and rear cross beam;Stringer group 7 is by left stringer, middle stringer and right vertical beam group
At;Transmission support board group 8 is made of left support plate and right support plate;Shake support board group 10 is by left shake support plate and right shake
Support plate composition;Vertical bar group 11 is made of left vertical bar, the right vertical bar of middle vertical bar afterwards;Preceding vertical bar group 12 is by left quarter butt, middle quarter butt and the right side
Quarter butt composition;Before the left support beam of support beam group 5 and right support beam front end are fixed in the middle quarter butt and right quarter butt of vertical bar group 12
Portion;The left support beam of support beam group 5 and right support beam rear end are fixed in the middle vertical bar of rear vertical bar group 11 and the lower part of right vertical bar, and
Left support beam and right support beam are parallel to the ground;Left stringer, middle stringer and the right vertical beam front end of stringer group 7 are respectively and fixedly connected in preceding perpendicular
Left quarter butt, middle quarter butt and the right quarter butt upper end of bar group 12;Left stringer, middle stringer and the right vertical beam rear end of stringer group 7 are respectively and fixedly connected with
The middle part of left vertical bar, middle vertical bar and right vertical bar in rear vertical bar group 11, and the left stringer of stringer group 7, middle stringer and right vertical beam with
Ground is parallel;Shake supports left shake support plate, right shake support plate in board group 10, left support plate, the right side in transmission support board group 8
The front end of support plate is fixed in from left to right above the front beam of middle cross beam group 6;Shake support board group 10 in left shake support plate,
Right shake support plate, left support plate in transmission support board group 8, right support plate rear end be fixed in above upper beam 9 from left to right;
Upper beam 9 is fixed in the left vertical bar, middle vertical bar and right vertical bar upper end of rear vertical bar group 11;The both ends of motor mounting plate 4 and supporting beam
The left and right supporting beam of group 5 is affixed;The angle theta of transmission support board group 8 and shake support board group 10 and stringer group 7 is 0 ° -45 °.
The transmission component B is by I D of transmission component, II E of transmission component, III F of transmission component, IV G of transmission component and transmission
V H of component composition, wherein I D of transmission component is by motor gear 13, transmission rolling bearing units I 14, transmission gear I 15, short axle I 16, anti-
It is formed to teeth-missing gear I 17 and transmission rolling bearing units II 18;II E of transmission component is by transmission rolling bearing units III 19, short axle II 20, biography
I 25 groups of gear of moving gear II 21, positive teeth-missing gear I 22, positive teeth-missing gear II 23, transmission rolling bearing units IV 24 and shake
At;III F of transmission component is by shake gear II 26, transmission rolling bearing units V 27, short axle III 28, transmission gear III 29, reversed hypodontia
Gear II 30, reversed teeth-missing gear III 31 and transmission rolling bearing units VI 32 form;IV G of transmission component is by transmission rolling bearing units VII
33, short axle IV 34, transmission gear IV 35, positive teeth-missing gear III 36, positive teeth-missing gear IV 37, transmission VIII 38 and of rolling bearing units
Gear III 39 is shaken to form;V H of transmission component is by shake gear IV 40, transmission rolling bearing units Ⅸ 41, transmission gear V 42, reversed
Teeth-missing gear IV 43, short axle V 44 and transmission rolling bearing units Ⅹ 45 and composition;Transmission gear I 15 is engaged with transmission gear II 21;
Transmission gear III 29 is engaged with transmission gear II 21 and transmission gear IV 35;Transmission gear IV 35 is engaged with transmission gear V 42;
Reversed teeth-missing gear I 17 and shake gear I 25 engage;Positive teeth-missing gear II 23 and shake gear II 26 engage;Reversed hypodontia
Gear II 30 and shake gear III 39 engage;Positive teeth-missing gear IV 37 and shake gear IV 40 engage;Shake IV 40 He of gear
Reversed teeth-missing gear IV 43 engages;I D of transmission component, II E of transmission component, III F of transmission component, IV G of transmission component and transmission component
The angle of V H and horizontal plane is θ, spacing L of the adjacent drive group in inclined direction1For 200-300mm;I 16 right end of short axle and biography
Dynamic rolling bearing units I 14 are flexibly connected;I 16 left end of short axle is flexibly connected with transmission rolling bearing units II 18;Transmission gear I 15 and reversed
Teeth-missing gear I 17 is successively fixed in the middle part of short axle I 16 from right to left;Motor gear 13 is engaged with transmission gear I 15;Short axle II
20 right ends are flexibly connected with transmission rolling bearing units III 19;II 20 left end of short axle is flexibly connected with transmission rolling bearing units IV 24;Transmission
Gear II 21, positive teeth-missing gear I 22 and positive teeth-missing gear II 23 are successively fixed in the middle part of short axle I 16 from right to left;Just
It is engaged to teeth-missing gear II 23 with shake gear I 25;III 28 right end of short axle is flexibly connected with transmission rolling bearing units V 27;Short axle III
28 left ends are flexibly connected with transmission rolling bearing units VI 32;Transmission gear III 29, reversed teeth-missing gear II 30 and reversed teeth-missing gear
III 31 are successively fixed in the middle part of short axle III 28 from right to left;Shake gear II 26 is engaged with reversed teeth-missing gear III 31;Short axle
IV 34 right ends are flexibly connected with transmission rolling bearing units VII 33;IV 34 left end of short axle is flexibly connected with transmission rolling bearing units VIII 38;It passes
Moving gear IV 35, positive teeth-missing gear III 36 and positive teeth-missing gear IV 37 are successively fixed in short axle IV 34 from right to left
Portion;Positive teeth-missing gear IV 37 is engaged with shake gear III 39;V 44 right end of short axle is flexibly connected with transmission rolling bearing units Ⅸ 41;
V 44 left end of short axle is flexibly connected with transmission rolling bearing units Ⅹ 45;Transmission gear V 42 and reversed teeth-missing gear IV 43 are from right to left
Successively it is fixed in the middle part of short axle V 44;Shake gear IV 40 is engaged with reversed teeth-missing gear IV 43.
The shake component C is by I I of shake wheel assembly, shake II J of wheel assembly, shake III K of wheel assembly, shake wheel assembly
IV L, shake rolling bearing units I 50, shake rolling bearing units II 51, shake rolling bearing units III 52, shake rolling bearing units IV 53, shake band
Seat bearing V 54, shake rolling bearing units VI 55, shake rolling bearing units VII 56 and shake rolling bearing units VIII 57 form;Shake wheel assembly
I I, shake II J of wheel assembly, shake III K of wheel assembly, the structure of shake IV L of wheel assembly are identical, wherein shake I I of wheel assembly is by shaking
Axis I 49, connecting rod group 58 refer to that bar group 59, annulus group 60 form;Shake the nearly right end of shaker shaft I 49 and shake in I I of wheel assembly
Rolling bearing units I 50 are flexibly connected;The left end of shaker shaft I 49 is flexibly connected with shake rolling bearing units VIII 57;It shakes in II J of wheel assembly
The nearly right end of shaker shaft II 48 is flexibly connected with shake rolling bearing units II 51;The left end of shaker shaft II 48 and shake rolling bearing units VII
56 are flexibly connected;The nearly right end of shaker shaft III 47 is flexibly connected with shake rolling bearing units III 52 in shake III K of wheel assembly;Shaker shaft
III 47 left end is flexibly connected with shake rolling bearing units VI 55;Shake the nearly right end of shaker shaft IV 46 and shake in IV L of wheel assembly
Rolling bearing units IV 53 are flexibly connected;The left end of shaker shaft IV 46 is flexibly connected with shake rolling bearing units V 54;Connecting rod group 58 by
40-225 connecting rod composition, refers to that bar group 59 is made of 40-225 finger bar, annulus group 60 is made of 20-75 annulus;Annulus
Group 60 is placed on shaker shaft I 49;The inner peripheral surface of each annulus is evenly distributed with 2-3 connecting rod, one end of connecting rod in annulus group 60
Affixed with annulus inner peripheral surface, the other end and I 49 periphery of shaker shaft are affixed;The outer circumference surface of each annulus in annulus group 60
Uniformly distributed and affixed 2-3 finger bar;The axial setting of shaker shaft I 49 refers to that the finger pole length S of bar group 59 is 420-620mm;Adjacent finger bar
Gap s be 5-15mm;Annulus overall diameter d1For 80-150mm;Refer to shank diameter, ring cross-section diameter, connection shank diameter d2For 3-
5mm;Finger bar outer end is 150-300mm from circle center distance l, refers to bar bottom end from circle center distance l1For 120-
270mm refers to the distance H of bar outer end off center line1For 30-80mm, refer to the distance H of bar bottom off center line2For 30-80mm,
Refer to the distance H of bar inner end off center line3For 20-50mm.
Transmission gear I 15, transmission gear II 21, transmission gear III 29, transmission gear IV 35 and the transmission gear V
42 structure is identical;Short axle I 16, short axle II 20, short axle III 28, short axle IV 34 are identical with the structure of short axle V 44;Reversed hypodontia
Gear I 17, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31 are identical with the mechanism of reversed teeth-missing gear IV 43;Forward direction lacks
Gear I 22, positive teeth-missing gear II 23, positive teeth-missing gear III 36 are identical with the structure of positive teeth-missing gear IV 37;Shake
Gear I 25, shake gear II 26, shake gear III 39 are identical with the structure of shake gear IV 40, and reference diameter is D;It passes
In moving gear I 15, transmission gear II 21, transmission gear III 29, transmission gear IV 35 and transmission gear V 42 between adjacent gear
Center is away from for L2, L2=L1, the reference diameter D of each transmission gear0For L21/2;Reversed teeth-missing gear I 17, reversed hypodontia tooth
Take turns each gear and positive teeth-missing gear I 22, positive hypodontia tooth in II 30, reversed teeth-missing gear III 31 and reversed teeth-missing gear IV 43
It takes turns opposite with hypodontia setting containing tooth in each gear in II 23, positive teeth-missing gear III 36 and positive teeth-missing gear IV 37;Instead
The tooth in each gear into teeth-missing gear I 17, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31 and reversed teeth-missing gear IV 43
The setting alternate with tooth is contained of the hypodontia of wheel, it is 0 ° -30 ° that hypodontia angle, which is α, β, γ, and degree containing tooth angle is α, and reference diameter is
d;If the dithering-wheel in dithering-wheel group C refers to that bar number is 2 in circumferencial direction, the reference diameter d of teeth-missing gear, hypodontia angle [alpha],
β, γ and the reference diameter D for shaking gear meet formula 1;If the dithering-wheel in dithering-wheel group C refers to that bar number is 3 in circumferencial direction,
The reference diameter D of the then reference diameter d of teeth-missing gear, hypodontia angle [alpha], β, γ and shake gear meet formula 2;
Wherein: n=1,2,4.
Compared with the prior art, the present invention has the following advantages and the utility model has the advantages that
1. the angle theta of transmission component B and shake wheel assembly C and horizontal plane is 0 ° -45 °, which can be to the straw after pickup
Stalk carries out effective elevator.
2. dithering-wheel can be by the reversed teeth-missing gear in transmission component B and forward direction teeth-missing gear between the stalk on finger bar
It has a rest shake, collision, while when stalk transmits, there is the process dropped, can effectively remove to be mixed in inside stalk and depend on and be bonded in
The difficult removal impurity on stalk surface, solves the problems such as existing equipment is to stalk impurities removing efficiency after pickup and low efficiency.
3. the finger bar group of dithering-wheel, which is interlocked, is interspersed in the gap for referring to bar group, connecting rod group and annulus group of adjacent dithering-wheel
In, it prevents impurity blocking from referring to bar gap, solves the existing stalk screening easy blockage problem of impurity removing equipment sieve pore.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of interval shake stalk removal of impurities hoisting equipment
Fig. 2 is the structural schematic diagram of rack components
Fig. 3 is the structural schematic diagram of transmission component
Fig. 4 is the structural schematic diagram of transmission component I
Fig. 5 is the structural schematic diagram of transmission component II
Fig. 6 is the structural schematic diagram of transmission component III
Fig. 7 is the structural schematic diagram of transmission component IV
Fig. 8 is the structural schematic diagram of transmission component V
Fig. 9 is the transmission schematic diagram of interval shake stalk removal of impurities hoisting equipment
Figure 10 is the schematic diagram of transmission gear engagement
Figure 11 is the schematic diagram shaking gear and engaging with forward and reverse teeth-missing gear
Figure 12 is that the structure of reversed teeth-missing gear is intended to
Figure 13 is that the structure of positive teeth-missing gear is intended to
Figure 14 is the structural schematic diagram for shaking component
Figure 15 is the structural schematic diagram for shaking wheel assembly
Figure 16 is the side view for shaking wheel assembly
Figure 17 is the working principle diagram of interval shake stalk removal of impurities hoisting equipment
Wherein: A. rack components B. transmission component C. shakes I E. transmission component of component D. transmission component, II F. transmission
III G. transmission component of component, IV H. transmission component, V I. shakes I J. of wheel assembly shake, II K. of wheel assembly and shakes wheel assembly III
L. IV 1. nut group of wheel assembly, 2. motor, 3. bolt group, 4. motor mounting plate, 5. support beam group, 6. middle cross beam group 7. is shaken
13. electricity of vertical bar group before vertical bar group 12. after 8. transmission support board group of stringer group, 9. upper beam 10. shake support board group 11.
Machine gear 14. is driven the reversed teeth-missing gear I 18. of I 15. transmission gear of rolling bearing units, I 16. short axle I 17. and is driven axis of usheing to seat
Hold II 19. transmission III 20. short axle of rolling bearing units, II 21. transmission gear, the II 22. positive hypodontia tooth of positive teeth-missing gear I 23.
It takes turns II 24. transmission rolling bearing units IV 25. and shakes shake transmission V 28. short axle III of rolling bearing units of gear II 27. of gear I 26.
29. the III 30. reversed teeth-missing gear III 32. of reversed teeth-missing gear II 31. of transmission gear is driven VI 33. transmission belt of rolling bearing units
IV 35. transmission gear of seat VII 34. short axle of bearing, the IV 36. positive teeth-missing gear IV 38. of positive teeth-missing gear III 37. is driven
Rolling bearing units VIII 39. shake gear III 40. and shake Ⅸ 42. transmission gear V 43. of the transmission of gear IV 41. rolling bearing units instead
Ⅹ 46. shaker shaft of rolling bearing units, IV 47. shaker shaft, III 48. shaker shaft II is driven to IV 44. short axle V 45. of teeth-missing gear
49. shaker shaft I 50. shakes the shake shake rolling bearing units III 53. of rolling bearing units II 52. of rolling bearing units I 51. and shakes axis of usheing to seat
It holds IV 54. shake rolling bearing units V 55. and shakes the shake shake rolling bearing units VIII of rolling bearing units VII 57. of rolling bearing units VI 56.
58. connecting rod group 59. refers to 60. annulus group of bar group
Specific embodiment
Embodiments of the present invention are described further with reference to the accompanying drawing.
As shown in Fig. 1 and Fig. 9, the present invention is made of rack components A, transmission component B, shake component C and motor 2;Motor 2
It is fixed on the motor mounting plate 4 of rack components A;Transmission rolling bearing units I 14 in transmission component B, transmission rolling bearing units III 19,
Transmission rolling bearing units V 27, transmission rolling bearing units VII 33 and transmission rolling bearing units Ⅸ 41 are uniformly fixed in the biography in rack components A
In the right support plate of dynamic support board group 8;Transmission rolling bearing units II 18, transmission rolling bearing units IV 24, transmission belt in transmission component B
Seat bearing VI 32, transmission rolling bearing units VIII 38 and transmission rolling bearing units Ⅹ 45 are uniformly fixed in the transmission support in rack components A
In the left support plate of board group 8;Shake shake rolling bearing units I 50, shake rolling bearing units II 51, the shake rolling bearing units in component C
III 52 are uniformly fixed in the right shake support plate of the shake support board group 10 in rack A with shake rolling bearing units IV 53;Shake
Shake rolling bearing units V 54, shake rolling bearing units VI 55, shake rolling bearing units VII 56 and shake rolling bearing units VIII 57 in component C
It is uniformly fixed in the left shake support plate of the shake support board group 10 in rack A;It shakes in gear I 25 and shake component C
I 49 right end of shaker shaft for shaking I I of wheel assembly is affixed;Shake gear II 26 is trembled with shake II J's of wheel assembly in shake component C
The right end of moving axis II 48 is affixed;It shakes gear III 39 and shakes the right end of the shaker shaft III 47 of shake III K of wheel assembly in component C
It is affixed;It shakes gear IV 40 and the right end of the shaker shaft IV 46 of shake IV L of wheel assembly shaken in component C is affixed.
As shown in Fig. 2, rack components A is by motor mounting plate 4, support beam group 5, middle cross beam group 6, stringer group 7, transmission support
Board group 8, upper beam 9, shake support board group 10, rear vertical bar group 11 and preceding vertical bar group 12 composition, wherein support beam group 5 is by left support
Beam and right support beam composition;Middle cross beam group 6 is made of front beam and rear cross beam;Stringer group 7 is by left stringer, middle stringer and right vertical beam
Composition;Transmission support board group 8 is made of left support plate and right support plate;Shake support board group 10 is trembled by left shake support plate and the right side
Dynamic support plate composition;Vertical bar group 11 is made of left vertical bar, the right vertical bar of middle vertical bar afterwards;Preceding vertical bar group 12 by left quarter butt, middle quarter butt and
Right quarter butt composition;The middle quarter butt and right quarter butt of vertical bar group 12 before the left support beam of support beam group 5 and right support beam front end are fixed in
Middle part;The left support beam of support beam group 5 and right support beam rear end are fixed in the middle vertical bar of rear vertical bar group 11 and the lower part of right vertical bar,
And left support beam and right support beam are parallel to the ground;Left stringer, middle stringer and the right vertical beam front end of stringer group 7 are respectively and fixedly connected in preceding
Left quarter butt, middle quarter butt and the right quarter butt upper end of vertical bar group 12;Left stringer, middle stringer and the right vertical beam rear end of stringer group 7 are solid respectively
It is connected to the middle part of left vertical bar, middle vertical bar and right vertical bar in rear vertical bar group 11, and the left stringer of stringer group 7, middle stringer and right vertical beam
It is parallel to the ground;Left shake support plate, right shake support plate in shake support board group 10, left support plate in transmission support board group 8,
The front end of right support plate is fixed in from left to right above the front beam of middle cross beam group 6;Left shake support in shake support board group 10
Plate, right shake support plate, left support plate in transmission support board group 8, right support plate rear end be fixed on upper beam 9 from left to right
Face;Upper beam 9 is fixed in the left vertical bar, middle vertical bar and right vertical bar upper end of rear vertical bar group 11;The both ends of motor mounting plate 4 and support
The left and right supporting beam of beam group 5 is affixed;The angle theta of transmission support board group 8 and shake support board group 10 and stringer group 7 is 0 °-
45°。
As shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7 and Fig. 8, transmission component B is by I D of transmission component, II E of transmission component, transmission
III F of component, IV G of transmission component and V H of transmission component composition, wherein I D of transmission component is by motor gear 13, transmission rolling bearing units I
14, transmission gear I 15, short axle I 16, reversed teeth-missing gear I 17 and transmission rolling bearing units II 18 form;II E of transmission component is by passing
Dynamic rolling bearing units III 19, short axle II 20, transmission gear II 21, positive teeth-missing gear I 22, positive teeth-missing gear II 23, transmission belt
Seat bearing IV 24 and shake gear I 25 form;III F of transmission component is by shake gear II 26, transmission rolling bearing units V 27, short axle III
28, transmission gear III 29, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31 and transmission rolling bearing units VI 32 form;Transmission
IV G of component is by transmission rolling bearing units VII 33, short axle IV 34, transmission gear IV 35, positive teeth-missing gear III 36, positive teeth-missing gear
IV 37, rolling bearing units VIII 38 are driven and shake gear III 39 forms;V H of transmission component is usherd to seat axis by shake gear IV 40, transmission
Hold Ⅸ 41, transmission gear V 42, reversed teeth-missing gear IV 43, short axle V 44 and transmission rolling bearing units Ⅹ 45 and composition;Driving cog
I 15 are taken turns to engage with transmission gear II 21;Transmission gear III 29 is engaged with transmission gear II 21 and transmission gear IV 35;Transmission gear
IV 35 engage with transmission gear V 42;Reversed teeth-missing gear I 17 and shake gear I 25 engage;It positive teeth-missing gear II 23 and trembles
Moving gear II 26 engages;Reversed teeth-missing gear II 30 and shake gear III 39 engage;Positive teeth-missing gear IV 37 and shake gear
IV 40 engagements;It shakes gear IV 40 and reversed teeth-missing gear IV 43 engages;I D of transmission component, II E of transmission component, transmission component III
F, the angle of IV G of transmission component and V H of transmission component and horizontal plane is θ, spacing L of the adjacent drive group in inclined direction1For
200-300mm;I 16 right end of short axle is flexibly connected with transmission rolling bearing units I 14;I 16 left end of short axle and transmission rolling bearing units II 18
It is flexibly connected;Transmission gear I 15 and reversed teeth-missing gear I 17 are successively fixed in the middle part of short axle I 16 from right to left;Motor gear
13 engage with transmission gear I 15;II 20 right end of short axle is flexibly connected with transmission rolling bearing units III 19;II 20 left end of short axle and transmission
Rolling bearing units IV 24 are flexibly connected;Transmission gear II 21, positive teeth-missing gear I 22 and positive teeth-missing gear II 23 from right to left according to
The secondary middle part for being fixed in short axle I 16;Positive teeth-missing gear II 23 is engaged with shake gear I 25;III 28 right end of short axle and transmission belt
Seat bearing V 27 is flexibly connected;III 28 left end of short axle is flexibly connected with transmission rolling bearing units VI 32;Transmission gear III 29 reversely lacks
Gear II 30 and reversed teeth-missing gear III 31 are successively fixed in the middle part of short axle III 28 from right to left;Shake gear II 26 and anti-
It is engaged to teeth-missing gear III 31;IV 34 right end of short axle is flexibly connected with transmission rolling bearing units VII 33;IV 34 left end of short axle and transmission
Rolling bearing units VIII 38 are flexibly connected;Transmission gear IV 35, positive teeth-missing gear III 36 and positive teeth-missing gear IV 37 are from right to left
Successively it is fixed in the middle part of short axle IV 34;Positive teeth-missing gear IV 37 is engaged with shake gear III 39;V 44 right end of short axle and biography
Dynamic rolling bearing units Ⅸ 41 are flexibly connected;V 44 left end of short axle is flexibly connected with transmission rolling bearing units Ⅹ 45;V 42 He of transmission gear
Reversed teeth-missing gear IV 43 is successively fixed in the middle part of short axle V 44 from right to left;Shake gear IV 40 and reversed teeth-missing gear IV
43 engagements.
As shown in Figure 14, Figure 15, Figure 16, shake component C is by I I of shake wheel assembly, shake II J of wheel assembly, shake wheel assembly
III K, shake IV L of wheel assembly, shake rolling bearing units I 50, shake rolling bearing units II 51, shake rolling bearing units III 52, shake are usherd to seat
Bearing IV 53, shake rolling bearing units V 54, shake rolling bearing units VI 55, shake rolling bearing units VII 56 and shake rolling bearing units VIII 57
Composition;It is identical to shake I I of wheel assembly, shake II J of wheel assembly, shake III K of wheel assembly, the structure of shake IV L of wheel assembly, wherein trembling
I I of drive wheel assemblies by shaker shaft I 49, connecting rod group 58, refer to that bar group 59, annulus group 60 form;Shake shaker shaft I in I I of wheel assembly
49 nearly right end is flexibly connected with shake rolling bearing units I 50;The left end of shaker shaft I 49 and VIII 57 activity of shake rolling bearing units are even
It connects;The nearly right end of shaker shaft II 48 is flexibly connected with shake rolling bearing units II 51 in shake II J of wheel assembly;A left side for shaker shaft II 48
End is flexibly connected with shake rolling bearing units VII 56;Shake the nearly right end of shaker shaft III 47 and shake rolling bearing units in III K of wheel assembly
III 52 are flexibly connected;The left end of shaker shaft III 47 is flexibly connected with shake rolling bearing units VI 55;Shake shaker shaft in IV L of wheel assembly
IV 46 nearly right end is flexibly connected with shake rolling bearing units IV 53;V 54 activity of left end and shake rolling bearing units of shaker shaft IV 46
Connection;Connecting rod group 58 is made of 40-225 connecting rod, refers to that bar group 59 is made of 40-225 finger bar, annulus group 60 is by 20-
75 annulus compositions;Annulus group 60 is placed on shaker shaft I 49;The inner peripheral surface of each annulus is evenly distributed with 2-3 company in annulus group 60
Extension bar, one end of connecting rod and annulus inner peripheral surface are affixed, and the other end and I 49 periphery of shaker shaft are affixed;In annulus group 60
The outer circumference surface of each annulus is evenly distributed with and affixed 2-3 finger bar;The axial setting of shaker shaft I 49 refers to that the finger pole length S of bar group 59 is
420-620mm;The adjacent gap s for referring to bar is 5-15mm;Annulus overall diameter d1For 80-150mm;Refer to that shank diameter, ring cross-section are straight
Diameter, connection shank diameter d2For 3-5mm;Finger bar outer end is 150-300mm from circle center distance l, refers to bar bottom end from circumference
The distance l of the heart1For 120-270mm, refer to the distance H of bar outer end off center line1For 30-80mm, refer to bar bottom off center line
Distance H2For 30-80mm, refer to the distance H of bar inner end off center line3For 20-50mm.
As shown in Fig. 3, Figure 10, Figure 11, Figure 12 and Figure 13, the transmission gear I 15, transmission gear II 21, driving cog
It is identical with the structure of transmission gear V 42 to take turns III 29, transmission gear IV 35;Short axle I 16, short axle II 20, short axle III 28, short axle IV
34 is identical with the structure of short axle V 44;Reversed teeth-missing gear I 17, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31 and anti-
Mechanism to teeth-missing gear IV 43 is identical;Positive teeth-missing gear I 22, positive teeth-missing gear II 23, III 36 and of positive teeth-missing gear
The structure of positive teeth-missing gear IV 37 is identical;Shake gear I 25, shake gear II 26, shake gear III 39 and shake gear IV
40 structure is identical, and reference diameter is D;Transmission gear I 15, transmission gear II 21, transmission gear III 29, transmission gear IV
35 and transmission gear V 42 in center between adjacent gear away from for L2, L2=L1, the reference diameter D of each transmission gear0For L2's
1/2;Each tooth in reversed teeth-missing gear I 17, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31 and reversed teeth-missing gear IV 43
Wheel with it is each in positive teeth-missing gear I 22, positive teeth-missing gear II 23, positive teeth-missing gear III 36 and forward direction teeth-missing gear IV 37
It is opposite with hypodontia setting containing tooth in gear;Reversed teeth-missing gear I 17, reversed teeth-missing gear II 30, reversed teeth-missing gear III 31
And the reversely hypodontia of each gear middle gear setting alternate with tooth is contained in teeth-missing gear IV 43, hypodontia angle is α, β, γ, containing tooth angle
Degree is α, is 0 ° -30 °, reference diameter is d;If the dithering-wheel in dithering-wheel group C refers to that bar number is 2 in circumferencial direction,
The reference diameter D of the reference diameter d of teeth-missing gear, hypodontia angle [alpha], β, γ and shake gear meet formula 1;If dithering-wheel group
Dithering-wheel in C refers to that bar number is 3 in circumferencial direction, then the reference diameter d of teeth-missing gear, hypodontia angle [alpha], β, γ and shake tooth
The reference diameter D of wheel meets formula 2;
Wherein: n=1,2,4.
As shown in figure 17, for referring to that the interval shake stalk removal of impurities hoisting equipment of 3 finger bars is arranged in bar wheel circumferencial direction,
Introduce its working principle.The finger bar of I I of dithering-wheel group picks up stalk, and when referring to that bar turns to level, shake is primary, in stalk
Impurity can be fallen from the adjacent gap for referring to bar;When referring to that bar moves to vertical, stalk is transmitted to next from previous dithering-wheel
On a dithering-wheel, during this, stalk is dropped, is collided, and the impurity separation on stalk surface is attached to, when the finger bar of next dithering-wheel
It when turning to level, is continued to rotate after shake removal of impurities is primary, previous dithering-wheel then also needs to shake again once, prevents to straw
The finger bar of stalk is interfered;Subsequent previous dithering-wheel continues to rotate, refer to bar be interspersed in the finger bar of next dithering-wheel, connecting rod and
In the gap of annulus, the impurity between referring to bar will be blocked in and removed.The device realizes stalk removal of impurities, while having elevator effect, removes
Miscellaneous rate is high, no clogging.
Claims (5)
- The hoisting equipment 1. a kind of interval shake stalk cleans, which is characterized in that by rack components (A), transmission component (B), shake Component (C) and motor (2) composition;Motor (2) is fixed on the motor mounting plate (4) of rack components (A);In transmission component (B) Transmission usher to seat bearing I (14), transmission usher to seat bearing I II (19), transmission rolling bearing units V (27), transmission rolling bearing units VII (33) In the right support plate for the transmission support board group (8) that bearing I X (41) is uniformly fixed in rack components (A) of usheing to seat with transmission;Transmission Transmission in component (B) usher to seat bearing I I (18), transmission usher to seat bearing I V (24), transmission rolling bearing units VI (32), transmission usher to seat Bearing VIII (38) and transmission rolling bearing units X (45) are uniformly fixed in the left branch of the transmission support board group (8) in rack components (A) On fagging;Shake shake rolling bearing units I (50), shake rolling bearing units II (51), the shake rolling bearing units III in component (C) (52) and shake rolling bearing units IV (53) is uniformly fixed in the right shake support plate that the shake in rack (A) supports board group (10) On;Shake component (C) in shake rolling bearing units V (54), shake rolling bearing units VI (55), shake rolling bearing units VII (56) and Shake rolling bearing units VIII (57) is uniformly fixed in the left shake support plate of the support of the shake in rack (A) board group (10);Shake Gear I (25) and shaker shaft I (49) right end of the shake wheel assembly I (I) in shake component (C) are affixed;It shakes gear II (26) It is affixed with the right end of the shaker shaft II (48) of the shake wheel assembly II (J) in shake component (C);It shakes gear III (39) and trembles The right end of the shaker shaft III (47) of shake wheel assembly III (K) in dynamic component (C) is affixed;Shake gear IV (40) and shake group The right end of the shaker shaft IV (46) of shake wheel assembly IV (L) in part (C) is affixed.
- The hoisting equipment 2. interval shake stalk according to claim 1 cleans, which is characterized in that the rack components (A) By motor mounting plate (4), support beam group (5), middle cross beam group (6), stringer group (7), transmission support board group (8), upper beam (9), Shake support board group (10), rear vertical bar group (11) and preceding vertical bar group (12) composition, wherein support beam group (5) is by left support beam and the right side Support beam group at;Middle cross beam group (6) is made of front beam and rear cross beam;Stringer group (7) is by left stringer, middle stringer and right vertical beam group At;Transmission support board group (8) is made of left support plate and right support plate;Shake support board group (10) is by left shake support plate and the right side Shake support plate composition;Vertical bar group (11) is made of left vertical bar, the right vertical bar of middle vertical bar afterwards;Preceding vertical bar group (12) by left quarter butt, in Quarter butt and right quarter butt composition;It is short in vertical bar group (12) before the left support beam of support beam group (5) and right support beam front end are fixed in In the middle part of bar and right quarter butt;The left support beam of support beam group (5) and right support beam rear end are fixed in the middle vertical bar of rear vertical bar group (11) With the lower part of right vertical bar, and left support beam and right support beam are parallel to the ground;Left stringer, middle stringer and the right side of stringer group (7) are vertical Beam front end is respectively and fixedly connected with left quarter butt, middle quarter butt and right quarter butt upper end in preceding vertical bar group (12);The left stringer of stringer group (7), in Stringer and right vertical beam rear end are respectively and fixedly connected with the middle part of left vertical bar, middle vertical bar and right vertical bar in rear vertical bar group (11), and stringer group (7) left stringer, middle stringer and right vertical beam are parallel to the ground;Left shake support plate, right shake branch in shake support board group (10) Fagging, left support plate in transmission support board group (8), right support plate front end be fixed in the preceding cross of middle cross beam group (6) from left to right Above beam;Left shake support plate, right shake support plate in shake support board group (10), left support plate in transmission support board group (8), The rear end of right support plate is fixed in upper beam (9) above from left to right;The left side that upper beam (9) is fixed in rear vertical bar group (11) is perpendicular Bar, middle vertical bar and right vertical bar upper end;The both ends of motor mounting plate (4) and the left and right supporting beam of support beam group (5) are affixed;Transmission branch Fagging group (8) and the angle theta of shake support board group (10) and stringer group (7) are 0 ° -45 °.
- The hoisting equipment 3. interval shake stalk according to claim 1 cleans, which is characterized in that the transmission component (B) It is made of transmission component I (D), transmission component II (E), transmission component III (F), transmission component IV (G) and transmission component V (H), Wherein transmission component I (D) is usherd to seat bearing I (14), transmission gear I (15), short axle I (16), reversed by motor gear (13), transmission Teeth-missing gear I (17) and transmission usher to seat bearing I I (18) composition;Transmission component II (E) is usherd to seat bearing I II (19), short axle by transmission Bearing I V (24) are usherd to seat in II (20), transmission gear II (21), forward direction teeth-missing gear I (22), forward direction teeth-missing gear II (23), transmission With shake gear I (25) composition;Transmission component III (F) is by shake gear II (26), transmission rolling bearing units V (27), short axle III (28), transmission gear III (29), reversed teeth-missing gear II (30), reversed teeth-missing gear III (31) and transmission rolling bearing units VI (32) it forms;Transmission component IV (G) is lacked by transmission rolling bearing units VII (33), short axle IV (34), transmission gear IV (35), forward direction Gear III (36), forward direction teeth-missing gear IV (37), transmission rolling bearing units VIII (38) and shake gear III (39) composition;Transmission Component V (H) by shake gear IV (40), transmission usher to seat bearing I X (41), transmission gear V (42), reversed teeth-missing gear IV (43), Short axle V (44) and transmission rolling bearing units X (45) and composition;Transmission gear I (15) is engaged with transmission gear II (21);Transmission gear III (29) is engaged with transmission gear II (21) and transmission gear IV (35);Transmission gear IV (35) and transmission gear V (42) is nibbled It closes;Reversed teeth-missing gear I (17) and shake gear I (25) engagement;Positive teeth-missing gear II (23) and shake gear II (26) are nibbled It closes;Reversed teeth-missing gear II (30) and shake gear III (39) engagement;Positive teeth-missing gear IV (37) and shake gear IV (40) Engagement;Shake gear IV (40) and reversed teeth-missing gear IV (43) engagement;Transmission component I (D), transmission component II (E), transmission group The angle of part III (F), transmission component IV (G) and transmission component V (H) and horizontal plane is θ, and adjacent drive group is in inclined direction Spacing L1For 200-300mm;Short axle I (16) right end and transmission bearing I (14) of usheing to seat are flexibly connected;(16) left end short axle I and biography Dynamic rolling bearing units II (18) are flexibly connected;Transmission gear I (15) and reversed teeth-missing gear I (17) is successively fixed in short from right to left The middle part of axis I (16);Motor gear (13) is engaged with transmission gear I (15);Short axle II (20) right end and transmission are usherd to seat bearing I II (19) it is flexibly connected;(20) left end short axle II and transmission the bearing I V (24) that ushers to seat are flexibly connected;Transmission gear II (21), forward direction lack Gear I (22) and forward direction teeth-missing gear II (23) is successively fixed in the middle part of (16) short axle I from right to left;Positive teeth-missing gear II (23) is engaged with shake gear I (25);Short axle III (28) right end is flexibly connected with transmission rolling bearing units V (27);Short axle III (28) left end is flexibly connected with transmission rolling bearing units VI (32);Transmission gear III (29), reversed teeth-missing gear II (30) and reversed Teeth-missing gear III (31) is successively fixed in the middle part of (28) short axle III from right to left;Shake gear II (26) and reversed hypodontia tooth Take turns III (31) engagement;Short axle IV (34) right end is flexibly connected with transmission rolling bearing units VII (33);(34) left end short axle IV and biography Dynamic rolling bearing units VIII (38) are flexibly connected;Transmission gear IV (35), forward direction teeth-missing gear III (36) and positive teeth-missing gear IV (37) it is successively fixed in the middle part of (34) short axle IV from right to left;Positive teeth-missing gear IV (37) is nibbled with shake gear III (39) It closes;Short axle V (44) right end and transmission the bearing I X (41) that ushers to seat are flexibly connected;(44) left end short axle V and transmission rolling bearing units X (45) It is flexibly connected;Transmission gear V (42) and reversed teeth-missing gear IV (43) is successively fixed in the middle part of (44) short axle V from right to left; Shake gear IV (40) is engaged with reversed teeth-missing gear IV (43).
- The hoisting equipment 4. interval shake stalk according to claim 1 cleans, which is characterized in that the shake component (C) By shake wheel assembly I (I), shake wheel assembly II (J), shake wheel assembly III (K), shake wheel assembly IV (L), shake axis of usheing to seat It holds I (50), shake rolling bearing units II (51), shake rolling bearing units III (52), shake rolling bearing units IV (53), shake axis of usheing to seat Hold V (54), shake rolling bearing units VI (55), shake rolling bearing units VII (56) and shake rolling bearing units VIII (57) composition;Dithering-wheel Component I (I), shake wheel assembly II (J), shake wheel assembly III (K), the structure of shake wheel assembly IV (L) are identical, wherein shaking Wheel assembly I (I) by shaker shaft I (49), connecting rod group (58), refer to that bar group (59), annulus group (60) form;It shakes wheel assembly I (I) The nearly right end of middle shaker shaft I (49) is flexibly connected with shake rolling bearing units I (50);It ushers to seat with shake the left end of shaker shaft I (49) Bearing VIII (57) is flexibly connected;Shake the nearly right end of shaker shaft II (48) and shake rolling bearing units II (51) in wheel assembly II (J) It is flexibly connected;The left end of shaker shaft II (48) is flexibly connected with shake rolling bearing units VII (56);It is trembled in shake wheel assembly III (K) The nearly right end of moving axis III (47) is flexibly connected with shake rolling bearing units III (52);The left end of shaker shaft III (47) and shake band Seat bearing VI (55) is flexibly connected;Shake the nearly right end of shaker shaft IV (46) and shake rolling bearing units IV in wheel assembly IV (L) (53) it is flexibly connected;The left end of shaker shaft IV (46) is flexibly connected with shake rolling bearing units V (54);Connecting rod group (58) is by 40- 225 connecting rod compositions, refer to that bar group (59) is made of 40-225 finger bar, annulus group (60) is made of 20-75 annulus;Annulus Group (60) is placed on shaker shaft I (49);The inner peripheral surface of each annulus is evenly distributed with 2-3 connecting rod, connecting rod in annulus group (60) One end and annulus inner peripheral surface it is affixed, the other end and shaker shaft I (49) periphery are affixed;Each annulus in annulus group (60) Outer circumference surface is uniformly distributed and affixed 2-3 finger bar;Axially setting refers to that the finger pole length 5 of bar group (59) is 420- to shaker shaft I (49) 620mm;The adjacent gap s for referring to bar is 5-15mm;Annulus overall diameter d1For 80-150mm;Refer to shank diameter, ring cross-section diameter, connect Extension bar diameter d2For 3-5mm;Refer to that bar outer end from circle center distance l is 150-300mm, refer to bar bottom end from circle center away from From l1For 120-270mm, refer to the distance H of bar outer end off center line1For 30-80mm, refer to the distance H of bar bottom off center line2 For 30-80mm, refer to the distance H of bar inner end off center line3For 20-50mm.
- The hoisting equipment 5. interval shake stalk according to claim 3 cleans, which is characterized in that the transmission gear I (15), transmission gear II (21), transmission gear III (29), transmission gear IV (35) are identical with the structure of transmission gear V (42); Short axle I (16), short axle II (20), short axle III (28), short axle IV (34) are identical with the structure of short axle V (44);Reversed teeth-missing gear I (17), reversed teeth-missing gear lI (30), reversed teeth-missing gear III (31) are identical with the mechanism of reversed teeth-missing gear IV (43);Just To teeth-missing gear I (22), forward direction teeth-missing gear II (23), forward direction teeth-missing gear III (36) and forward direction teeth-missing gear IV (37) Structure is identical;Shake the structure phase of gear I (25), shake gear II (26), shake gear III (39) and shake gear IV (40) Together, reference diameter is D;Transmission gear I (15), transmission gear II (21), transmission gear III (29), transmission gear IV (35) and the center in transmission gear V (42) between adjacent gear is away from for L2, L2=L1, the reference diameter D of each transmission gear0For L2 1/2;Reversed teeth-missing gear I (17), reversed teeth-missing gear II (30), reversed teeth-missing gear III (31) and reversed teeth-missing gear Each gear and forward direction teeth-missing gear I (22) in IV (43), forward direction teeth-missing gear II (23), forward direction teeth-missing gear III (36) and just It is opposite with hypodontia setting containing tooth in each gear in teeth-missing gear IV (37);Reversed teeth-missing gear I (17), reversed hypodontia tooth The hypodontia and phase containing tooth of each gear middle gear in wheel II (30), reversed teeth-missing gear III (31) and reversed teeth-missing gear IV (43) Between be arranged, hypodontia angle be a, β, γ, degree containing tooth angle is a, be 0 ° -30 °, reference diameter is d;If dithering-wheel group (C) In dithering-wheel refer to that bar number is 2 in circumferencial direction, then the reference diameter d of teeth-missing gear, hypodontia angle a, β, γ and shake tooth The reference diameter D of wheel meets formula (1);If the dithering-wheel in dithering-wheel group (C) refers to that bar number is 3 in circumferencial direction, hypodontia tooth The reference diameter d of wheel, hypodontia angle a, β, γ and the reference diameter D for shaking gear meet formula (2);Wherein: n=1,2,4.
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CN201910391829.1A CN110076076B (en) | 2019-05-13 | 2019-05-13 | Intermittent shaking straw impurity removal lifting device |
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CN201910391829.1A CN110076076B (en) | 2019-05-13 | 2019-05-13 | Intermittent shaking straw impurity removal lifting device |
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CN110076076B CN110076076B (en) | 2021-04-20 |
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US1753630A (en) * | 1928-03-03 | 1930-04-08 | Arthur D Vickerman | Screening machine |
JPS5328848A (en) * | 1976-08-30 | 1978-03-17 | Agency Of Ind Science & Technol | Device for sorting solid material |
CN1103335A (en) * | 1993-06-22 | 1995-06-07 | 株式会社御池铁工所 | Screening machine |
CN202186689U (en) * | 2011-07-22 | 2012-04-11 | 张文垣 | Conveyer belt linkage device of a metallurgical furnace |
CN203030511U (en) * | 2013-01-15 | 2013-07-03 | 秦皇岛优格玛工业技术有限公司 | Linear vibration single-layer banana flip-flow screen |
CN203076185U (en) * | 2013-02-06 | 2013-07-24 | 潍坊汇英重机有限公司 | Fluctuating screen |
CN203862553U (en) * | 2014-05-26 | 2014-10-08 | 刘荆宇 | Step removable type swing screening distributor |
-
2019
- 2019-05-13 CN CN201910391829.1A patent/CN110076076B/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1753630A (en) * | 1928-03-03 | 1930-04-08 | Arthur D Vickerman | Screening machine |
JPS5328848A (en) * | 1976-08-30 | 1978-03-17 | Agency Of Ind Science & Technol | Device for sorting solid material |
CN1103335A (en) * | 1993-06-22 | 1995-06-07 | 株式会社御池铁工所 | Screening machine |
CN202186689U (en) * | 2011-07-22 | 2012-04-11 | 张文垣 | Conveyer belt linkage device of a metallurgical furnace |
CN203030511U (en) * | 2013-01-15 | 2013-07-03 | 秦皇岛优格玛工业技术有限公司 | Linear vibration single-layer banana flip-flow screen |
CN203076185U (en) * | 2013-02-06 | 2013-07-24 | 潍坊汇英重机有限公司 | Fluctuating screen |
CN203862553U (en) * | 2014-05-26 | 2014-10-08 | 刘荆宇 | Step removable type swing screening distributor |
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