CN105414019B - A kind of high-efficiency environment friendly energy-conservation iblet screening plant - Google Patents

Abstract

The present invention proposes a kind of high-efficiency environment friendly energy-conservation iblet screening plant, including base, screening plant, the feed arrangement for being fed to screening plant, first driving means, the second drive device, and screening plant includes the first sieve plate, the second sieve plate, collecting box；Feed arrangement includes feed bin, and impurity collecting chamber and supplies room are provided with feed bin；Feed bin is provided with feed pipe, the feed end of feed pipe is provided with loading hopper, flow distribution plate is provided with feed pipe, flow distribution plate will be separated into trash flow road and material flow path inside feed pipe, loading hopper, which is located above material flow path, is provided with charging aperture, is provided with blast pipe close to material flow path feed end in feed pipe side wall, blast pipe tilts down setting, impurity runner is connected with impurity collecting chamber, and material flow path is connected with supplies room；First driving means, the second drive device are used to drive the first sieve plate, the second sieve plate up-down vibration.The present invention is simple in construction, good without manual operation, screening effect.

Description

A kind of high-efficiency environment friendly energy-conservation iblet screening plant

Technical field

The present invention relates to agricultural machinery technological field, more particularly to a kind of high-efficiency environment friendly energy-conservation iblet screening plant.

Background technology

After harvest corn threshing at present, the impurity such as the skin stalks of rice, wheat, etc., the grains of sand are often mixed in corn, influence the overall matter of corn Amount.Existing screening technique generally has two kinds：One is the method for artificial screening, and the method for the screening has that labor intensity is big, into This height, operating efficiency is low, the shortcomings such as the screening cleanliness of corn is low；Two be the method using corn screen selecting machine, and this method is due to jade Rice screening machine is complicated, causes to buy the shortcomings that equipment cost is high, further, since impurity is more in corn, in screening process In substantial amounts of dust occurs, influence the health of operating personnel.

The content of the invention

Based on technical problem present in background technology, the present invention proposes a kind of high-efficiency environment friendly energy-conservation iblet screening dress Put.

A kind of high-efficiency environment friendly energy-conservation iblet screening plant proposed by the present invention, including base, screening plant, for sieve The feed arrangement of screening device charging, first driving means, the second drive device, wherein：

Screening plant includes the first sieve plate, the second sieve plate, collecting box, and collecting box is arranged on base, the first sieve plate, second Sieve plate, collecting box are arranged in order from top to bottom in vertical direction, and the first sieve aperture is distributed with the first sieve plate, is distributed on the second sieve plate There is the second sieve aperture, the diameter of the second sieve aperture is less than the diameter of the first sieve aperture；

Feed arrangement includes feed bin, is provided with impurity collecting chamber and supplies room in feed bin, supplies room bottom is provided with Material outlet, material outlet are located above the first sieve plate；Feed bin is provided with feed pipe, and feed pipe is vertically arranged, feed pipe Feed end be provided with loading hopper, is provided with flow distribution plate in feed pipe, flow distribution plate will be separated into trash flow road and thing inside feed pipe Stream road, loading hopper, which is located above material flow path, is provided with charging aperture, is provided with feed pipe side wall close to material flow path feed end Blast pipe, blast pipe tilt down setting, and impurity runner is connected with impurity collecting chamber, and material flow path is connected with supplies room；

First driving means are connected with the first end of the first sieve plate, the connection of the first end of the second sieve plate, the second drive device It is connected with the second end of the first sieve plate, the connection of the second end of the second sieve plate, first driving means, the second drive device are used to drive First sieve plate, the second sieve plate up-down vibration.

Preferably, first driving means include the first pole, the first installing plate and the second installing plate being arranged on base, First pole is vertically arranged, and the first installing plate, the second installing plate are movably mounted to the first pole above and the first installing plate position Above the second installing plate, the first installing plate, the moving direction of the second installing plate are vertical direction；First sieve plate first end bottom It is connected by the first elastic component with the first installing plate, the second sieve plate first end bottom is connected by the 3rd elastic component and the second installing plate Connect.

Preferably, first driving means also include the first sliding block, the first supporting plate, head rod and the second connecting rod, First supporting plate is arranged on the first pole, and the first supporting plate is horizontally disposed with, and the first sliding block is movably mounted to the first supporting plate On, the moving direction of the first sliding block is horizontal direction, and head rod, the second connecting rod are symmetrical arranged on the first supporting plate, Head rod one end is hinged with the first sliding block, and the head rod other end is hinged with the first installing plate；Second connecting rod one end It is hinged with the first sliding block, the second connecting rod other end is hinged with the second installing plate.

Preferably, first driving means also include the first column and the first drive cylinder, and the first column is arranged on base, First column is vertically arranged, and the first drive cylinder is arranged on the first column, and the first drive cylinder is connected to the first sliding block The first sliding block is driven to move in the horizontal direction.

Preferably, the second drive device includes the second pole, the 3rd installing plate and the 4th installing plate being arranged on base, Second pole is vertically arranged, and the 3rd installing plate, the 4th installing plate are movably mounted to the second pole above and the 3rd installing plate position Above the 4th installing plate, the 3rd installing plate, the moving direction of the 4th installing plate are vertical direction；First sieve plate other end bottom It is connected by the second elastic component with the 3rd installing plate；Second sieve plate other end bottom is connected by the 4th elastic component and the 4th installing plate Connect.

Preferably, the second drive device also includes the second sliding block, the second supporting plate, the 3rd connecting rod and the 4th connecting rod, Second supporting plate is arranged on the second pole, and the second supporting plate is horizontally disposed with, and the second sliding block is movably mounted to the second supporting plate On, the moving direction of the second sliding block is horizontal direction, and the 3rd connecting rod, the 4th connecting rod are symmetrical arranged on the second supporting plate, 3rd connecting rod one end is hinged with the second sliding block, and the other end and the 3rd installing plate of the 3rd connecting rod are hinged；4th connecting rod one End is hinged with the second sliding block, and the 4th connecting rod other end is hinged with the 4th installing plate.

Preferably, the second drive device also includes the second column and the second drive cylinder, and the second column is arranged on base, Second column is vertically arranged, and the second drive cylinder is arranged on the second column, and the second drive cylinder is connected to the second sliding block The second sliding block is driven to move in the horizontal direction.

In the present invention, including base, screening plant, for fed to screening plant feed arrangement, first driving dress Put, the second drive device, screening plant includes the first sieve plate, the second sieve plate, collecting box, and feed arrangement includes feed bin, entered Impurity collecting chamber and supplies room are provided with hopper body, feed bin is provided with feed pipe, and feed pipe is vertically arranged, and feed pipe enters Material end is provided with loading hopper, is provided with flow distribution plate in feed pipe, flow distribution plate will be separated into trash flow road and material flow inside feed pipe Road, loading hopper, which is located above material flow path, is provided with charging aperture, and air intake is provided with close to material flow path feed end in feed pipe side wall Pipe, blast pipe tilt down setting, and impurity runner is connected with impurity collecting chamber, and material flow path is connected with supplies room；In use, will Iblet to be screened is added in feed bin from loading hopper, while from wind is imported into blast pipe, wind can be by iblet In the skin stalks of rice, wheat, etc. that is mingled with separated with iblet, and the skin stalks of rice, wheat, etc. is blown into impurity runner, hence into impurity collecting chamber；Iblet can be straight Tap into material flow path, then dropped from the material outlet of supplies room into screening plant；First driving means, the second driving dress The first sieve plate of driving, the second sieve plate up-down vibration repeatedly are put, so as to carry out vibration screening, the iblet being relatively large in diameter to iblet It can rest on the first sieve plate, medium iblet can be rested on the second sieve plate, and the less iblet of diameter is then directly entered In collecting box, to shift the first sieve plate, the iblet on the second sieve plate in time in screening process, avoid accumulating.Present invention knot Structure is simple, and without manual operation, screening effect is good, and screening is thorough, can the iblet different to turgor separate, subtract Few work process, improves operating efficiency；Screening process will not produce dust in completely enclosed casing, and can be by jade The grain of rice and the skin stalks of rice, wheat, etc. are completely isolated, at the same can the iblet different to turgor separate, labor intensity is low, work effect Rate is high.

Brief description of the drawings

Fig. 1 is a kind of high-efficiency environment friendly energy-conservation iblet screening plant structural representation proposed by the present invention.

Embodiment

Reference picture 1, the present invention propose a kind of high-efficiency environment friendly energy-conservation iblet screening plant, including base 1, screening plant, For feed arrangement, first driving means and the second drive device fed to screening plant, screening plant includes the first sieve plate 2nd, the second sieve plate 3, collecting box 4, collecting box 4 are arranged on base 1, feed arrangement, the first sieve plate 2, the second sieve plate 3, collecting box 4 It is arranged in order from top to bottom in vertical direction, wherein：

First driving means include be arranged on base 1 on the first pole 51, the first installing plate 53, the second installing plate 53, First sliding block 55, the first supporting plate 54, head rod 56, the second connecting rod 57, the first column 58 and the first drive cylinder 59, First pole 51 is vertically arranged, and the first chute 511 is vertically provided with the first pole 51, and the first installing plate 53 is located at second The top of installing plate 53, the first installing plate 53, the second installing plate 53 are connected with the first chute 511.First supporting plate 54 is arranged on On first pole 51, the first supporting plate 54 is horizontally disposed, and the first supporting plate 54 is provided with the 3rd chute 541 in the horizontal direction, and first Sliding block 55 is connected with the 3rd chute 541.Head rod 56, the second connecting rod 57 are symmetrical arranged on the first supporting plate 54, the The one end of one connecting rod 56 is be hinged with the first sliding block 55, and the other end of head rod 56 and the first installing plate 53 are be hinged；Second connection The one end of bar 57 is be hinged with the first sliding block 55, and the other end of the second connecting rod 57 and the second installing plate 53 are be hinged.First column 58 is installed On base 1, the first column 58 is vertically arranged, and the first drive cylinder 59 is arranged on the first column 58, the first drive cylinder 59 It is connected to drive the first sliding block 55 to move in the horizontal direction with the first sliding block 55.

Second drive device include be arranged on base 1 on the second pole 61, the 3rd installing plate 62, the 4th installing plate 63, Second sliding block 65, the second supporting plate 64, the 3rd connecting rod 66, the 4th connecting rod 67, the second column 68 and the second drive cylinder 69, Second pole 61 is vertically arranged, and the second chute 611 is vertically provided with the second pole 61, and the 3rd installing plate 62 is located at the 4th The top of installing plate 63, the 3rd installing plate 62, the 4th installing plate 63 are connected with the second chute 611.Second supporting plate 64 is arranged on On second pole 61, the second supporting plate 64 is horizontally disposed, and the second supporting plate 64 is provided with the 4th chute 641 in the horizontal direction, and second Sliding block 65 is connected with the 3rd chute 541.3rd connecting rod 66, the 4th connecting rod 67 are symmetrical arranged on the second supporting plate 64, the The one end of three connecting rod 66 is be hinged with the second sliding block 65, and the other end and the 3rd installing plate 62 of the 3rd connecting rod 66 are be hinged；4th connects The one end of extension bar 67 is be hinged with the second sliding block 65, and the other end of the 4th connecting rod 67 and the 4th installing plate 63 are be hinged.Second column 68 is pacified On base 1, the second column 68 is vertically arranged, and the second drive cylinder 69 is arranged on the second column 68, the second drive cylinder 69 are connected to drive the second sliding block 65 to move in the horizontal direction with the second sliding block 65.

One end bottom of first sieve plate 2 is connected by the first elastic component 21 with the first installing plate 53, the other end bottom of the first sieve plate 2 Portion is connected by the second elastic component 22 with the 3rd installing plate 62, and the first sieve aperture is distributed with the first sieve plate 2.

One end bottom of second sieve plate 3 is connected by the 3rd elastic component 31 with the second installing plate 53, the other end bottom of the second sieve plate 3 Portion is connected by the 4th elastic component 32 with the 4th installing plate 63, and the second sieve aperture, the diameter of the second sieve aperture are distributed with the second sieve plate 3 Less than the diameter of the first sieve aperture.

Feed arrangement includes feed bin 7, and impurity collecting chamber 73 and supplies room 74, supplies room 74 are provided with feed bin 7 Bottom is provided with material outlet 75, and material outlet 75 is located on the first sieve plate 2；Feed bin 7 is provided with feed pipe 71, feed pipe 71 are vertically arranged, and the feed end of feed pipe 71 is provided with loading hopper 72, is provided with flow distribution plate 76 in feed pipe 71, flow distribution plate 76 will enter Trash flow road 77 and material flow path 78 are separated into inside expects pipe 71, loading hopper 72 is located at the top of material flow path 78 and is provided with charging Mouthful, blast pipe 79 is provided with close to the feed end of material flow path 78 in the side wall of feed pipe 71, blast pipe 79 tilts down setting, trash flow Road 77 is connected with impurity collecting chamber 73, and material flow path 78 is connected with supplies room 74.

A kind of high-efficiency environment friendly energy-conservation iblet screening plant proposed by the present invention, in use, by iblet to be screened from Added in loading hopper 72 in feed bin 7, while from importing wind, the skin stalks of rice, wheat, etc. that wind will can be mingled with iblet into blast pipe 79 Separated with iblet, and the skin stalks of rice, wheat, etc. is blown into impurity runner 77, hence into impurity collecting chamber 73；Iblet can be directly entered thing Stream road 78, then dropped from the material outlet 75 of supplies room 74 into screening plant；First installing plate 52, the second installing plate 53rd, the 3rd installing plate 62, the 4th installing plate 63 move up and down repeatedly, so as to drive the first sieve plate 2, the second sieve plate 3 repeatedly upper and lower Vibration, so as to carry out vibration screening to iblet, the iblet being relatively large in diameter can be rested on the first sieve plate 2, medium corn Grain can be rested on the second sieve plate 3, and the less iblet of diameter is then directly entered in collecting box 4, timely in screening process The first sieve plate 2, the iblet on the second sieve plate 3 are shifted, avoids accumulating.The present invention is simple in construction, without manual operation, screening effect Fruit is good, and screening is thorough, can the iblet different to turgor separate, reduce work process, improve operating efficiency；Sieve Process is selected not produce dust in completely enclosed casing, and can be completely isolated by iblet and the skin stalks of rice, wheat, etc., while can Separated with the iblet different to turgor, labor intensity is low, and operating efficiency is high.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.

Claims (5)

1. a kind of high-efficiency environment friendly energy-conservation iblet screening plant, it is characterised in that including base (1), screening plant, for sieve The feed arrangement of screening device charging, first driving means, the second drive device, wherein：

Screening plant includes the first sieve plate (2), the second sieve plate (3), collecting box (4), and collecting box (4) is arranged on base (1), the One sieve plate (2), the second sieve plate (3), collecting box (4) are arranged in order from top to bottom in vertical direction, and the first sieve plate is distributed with (2) First sieve aperture, the second sieve aperture is distributed with the second sieve plate (3), and the diameter of the second sieve aperture is less than the diameter of the first sieve aperture；

Feed arrangement includes feed bin (7), and impurity collecting chamber (73) and supplies room (74), material are provided with feed bin (7) Room (74) bottom is provided with material outlet (75), and material outlet (75) is located above the first sieve plate (2)；Feed bin (7) is provided with Feed pipe (71), feed pipe (71) are vertically arranged, and the feed end of feed pipe (71) is provided with loading hopper (72), and feed pipe (71) is interior Provided with flow distribution plate (76), flow distribution plate (76) will be separated into trash flow road (77) and material flow path (78) inside feed pipe (71), enter Funnel (72), which is located above material flow path (78), is provided with charging aperture, is fed in feed pipe (71) side wall close to material flow path (78) End is provided with blast pipe (79), and blast pipe (79) tilts down setting, and impurity runner (77) is connected with impurity collecting chamber (73), material Runner (78) is connected with supplies room (74)；

First driving means, the second drive device are respectively used to drive the first sieve plate (2), the second sieve plate (3) up-down vibration；First Drive device include be arranged on base (1) on the first pole (51), the first installing plate (53) and the second installing plate (53), first Pole (51) is vertically arranged, the first installing plate (53), the second installing plate (53) be movably mounted on the first pole (51) and First installing plate (53) is located above the second installing plate (53), the first installing plate (53), the moving direction of the second installing plate (53) For vertical direction；First sieve plate (2) first end bottom is connected by the first elastic component (21) with the first installing plate (53), the second sieve Plate (3) first end bottom is connected by the 3rd elastic component (31) with the second installing plate (53)；Second drive device includes being arranged on The second pole (61), the 3rd installing plate (62) and the 4th installing plate (63), the second pole (61) on base (1) are vertically arranged, 3rd installing plate (62), the 4th installing plate (63) are movably mounted on the second pole (61) and the 3rd installing plate (62) is located at Above 4th installing plate (63), the 3rd installing plate (62), the moving direction of the 4th installing plate (63) are vertical direction；First sieve plate (2) other end bottom is connected by the second elastic component (22) with the 3rd installing plate (62)；Second sieve plate (3) other end bottom passes through 4th elastic component (32) is connected with the 4th installing plate (63).

2. high-efficiency environment friendly energy-conservation iblet screening plant according to claim 1, it is characterised in that first driving means are also Including the first sliding block (55), the first supporting plate (54), head rod (56) and the second connecting rod (57), the first supporting plate (54) On the first pole (51), the first supporting plate (54) is horizontally disposed, and the first sliding block (55) is movably mounted to the first support On plate (54), the moving direction of the first sliding block (55) is horizontal direction, and head rod (56), the second connecting rod (57) are on One supporting plate (54) is symmetrical arranged, and head rod (56) one end is be hinged with the first sliding block (55), and head rod (56) is another End is be hinged with the first installing plate (53)；Second connecting rod (57) one end is be hinged with the first sliding block (55), and the second connecting rod (57) is another One end is be hinged with the second installing plate (53).

3. high-efficiency environment friendly energy-conservation iblet screening plant according to claim 2, it is characterised in that first driving means are also Including the first column (58) and the first drive cylinder (59), the first column (58) is arranged on base (1), and the first column (58) is perpendicular Straight to set, the first drive cylinder (59) is arranged on the first column (58), and the first drive cylinder (59) connects with the first sliding block (55) Connect for driving the first sliding block (55) to move in the horizontal direction.

4. the high-efficiency environment friendly energy-conservation iblet screening plant according to any one of claim 1-3, it is characterised in that second Drive device also includes the second sliding block (65), the second supporting plate (64), the 3rd connecting rod (66) and the 4th connecting rod (67), and second Supporting plate (64) is arranged on the second pole (61), and the second supporting plate (64) is horizontally disposed, the second sliding block (65) removable installation In the second supporting plate (64), the moving direction of the second sliding block (65) is horizontal direction, the 3rd connecting rod (66), the 4th connecting rod (67) it is symmetrical arranged on the second supporting plate (64), the 3rd connecting rod (66) one end is be hinged with the second sliding block (65), the 3rd connection The other end of bar (66) and the 3rd installing plate (62) are be hinged；4th connecting rod (67) one end is be hinged with the second sliding block (65), and the 4th Connecting rod (67) other end and the 4th installing plate (63) are be hinged.

5. high-efficiency environment friendly energy-conservation iblet screening plant according to claim 4, it is characterised in that the second drive device is also Including the second column (68) and the second drive cylinder (69), the second column (68) is arranged on base (1), and the second column (68) is perpendicular Straight to set, the second drive cylinder (69) is arranged on the second column (68), and the second drive cylinder (69) connects with the second sliding block (65) Connect for driving the second sliding block (65) to move in the horizontal direction.