CN115837351A

CN115837351A - Sorting unit based on day lily quality

Info

Publication number: CN115837351A
Application number: CN202310173751.2A
Authority: CN
Inventors: 郭尚; 南晓洁; 秦楠楠; 朱敏
Original assignee: Shanxi Institute Of Functional Food Shanxi Agricultural University
Current assignee: Li Xia
Priority date: 2023-02-28
Filing date: 2023-02-28
Publication date: 2023-03-24
Anticipated expiration: 2043-02-28
Also published as: CN115837351B

Abstract

The invention discloses a sorting device based on daylily quality, which comprises a support frame, a light emitting frame, an upper glass cover, a lower glass cover, a container annular plate, a buffering and adjusting type force sieving mechanism and a light-gathering and covering type illumination mechanism, wherein the support frame is arranged on the side wall of the light emitting frame, the upper glass cover is arranged on the upper wall of the container annular plate, the lower glass cover is arranged on the bottom wall of the container annular plate, a plurality of groups of light emitting frames are arranged on the side wall of the container annular plate, the light emitting frame is arranged on one side, far away from the container annular plate, of the support frame, the buffering and adjusting type force sieving mechanism is arranged inside the upper glass cover and the lower glass cover, and the light-gathering and covering type illumination mechanism is arranged on the side wall of the light emitting frame. The invention belongs to the technical field of yellow flower screening equipment, and particularly relates to a sorting device based on yellow flower quality; the invention provides a sorting device based on daylily quality, which can perform force regulation and screening on daylily according to different daylily humidity.

Description

Sorting unit based on day lily quality

Technical Field

The invention belongs to the technical field of yellow flower screening equipment, and particularly relates to a sorting device based on yellow flower quality.

Background

The daylily is a seasoning ingredient vegetable of liliaceae, contains abundant protein, carotene, riboflavin, phosphorus, iron and other mineral elements, is a rare product on a mat, and is an important economic crop. The daylily is internally doped with more impurities in the picking process, so that the daylily needs to be screened before being processed.

The current day lily screening equipment has the following problems:

current yellow flower screening equipment can not adjust the screening dynamics of yellow flower according to the humidity of yellow flower, leads to comparatively dry yellow flower to produce more broken leaf when the screening easily, and then can influence the completeness of yellow flower self, very big reduction the quality of yellow flower.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the scheme provides the sorting device based on the daylily quality, aiming at the problem that the existing screening equipment cannot adjust the daylily screening strength according to the humidity of the daylily, the sorting device provided by the invention has the advantages that the buffer adjustment type force screening mechanism and the light-gathering coverage type illumination mechanism are arranged, and under the mutual matching use of the suspension positioning mechanism, the buffer type screening mechanism, the magnetic conduction type driving mechanism and the collision force adjusting mechanism, the broken leaf condition of the daylily in the screening process is reduced, the completeness of the daylily is fully ensured, the automatic adjustment strength screening operation of the daylily with different humidity is realized, and the technical problem that the existing screening equipment which is difficult to solve in the prior art cannot adjust the daylily screening strength according to the humidity of the daylily is solved.

The invention provides a sorting device based on daylily quality, which can perform force regulation and screening on daylily according to different daylily humidity.

The technical scheme adopted by the scheme is as follows: the utility model provides a sorting unit based on day lily quality, include support frame, shine the light frame, go up the glass cover, lower glass cover, container crown plate, buffer adjustment type dynamics screening mechanism and spotlight overlay type illumination mechanism, the support frame is located and is shone the light frame lateral wall, go up the glass cover and locate the container crown plate upper wall, the container crown plate diapire is located to lower glass cover, the multiunit the light erects in the container crown plate lateral wall, it erects in one side of container crown plate to shine the support frame, buffer adjustment type dynamics screening mechanism locates inside glass cover and lower glass cover, spotlight overlay type illumination mechanism locates and shines the light frame lateral wall, buffer adjustment type dynamics screening mechanism includes unsettled positioning mechanism, buffer type screening mechanism, magnetic conduction type actuating mechanism and offend dynamics adjustment mechanism, unsettled positioning mechanism locates glass cover upper wall and lower glass cover diapire, buffer type screening mechanism locates inside glass cover and the lower glass cover, magnetic conduction type actuating mechanism locates on the buffer type screening mechanism, dynamics adjustment mechanism locates on the buffer type screening mechanism one side.

As a further preferred aspect of the scheme, the suspended positioning mechanism comprises suspended holding plates, through holes, holding springs and connecting plates, the suspended holding plates are symmetrically arranged on two sides of the light emitting rack, the through holes are arranged on the upper wall of the upper glass cover and the bottom wall of the lower glass cover, the holding springs penetrate through the through holes and are arranged on the side walls of the suspended holding plates, and the connecting plates are arranged on one sides of the holding springs, which are far away from the suspended holding plates; the buffer type screening mechanism comprises guide plates, guide rods, sliding blocks, cylindrical air bags, screening plates, screening grooves and screening openings, wherein multiple groups of guide plates are arranged on the top wall of an upper glass cover and the bottom wall of a lower glass cover; the magnetic conduction type driving mechanism comprises a sliding magnetic port, a sliding electromagnet, a soft iron plate, a fixed magnetic port, a fixed electromagnet and a magnetic conduction rod, a plurality of groups of the sliding magnetic ports are arranged on the side wall of the screening plate outside the cylindrical air bag, the sliding electromagnet is arranged on the inner wall of the sliding magnetic port, the soft iron plate is arranged on the side wall of the guide plate outside the guide rod, the fixed magnetic plate is arranged on the side wall of the soft iron plate outside the guide rod, a plurality of groups of the fixed magnetic ports are arranged on the side wall of the fixed magnetic plate, the fixed electromagnet is arranged on the inner wall of the fixed magnetic port, the fixed electromagnet and the sliding electromagnet are oppositely arranged, and the magnetic conduction rod penetrates through the fixed magnetic plate and is arranged between the fixed electromagnet and the soft iron plate; collide dynamics adjustment mechanism includes the dynamics groove, collides gasbag and magnetic material layer, fixed magnetic sheet diapire is located to the dynamics groove, and the dynamics groove is the one end opening setting, collide the gasbag and locate dynamics inslot wall, the magnetic material layer is located and is collided gasbag inner wall.

When in use, in an initial state, the sieving plate is kept between the container ring plates due to the elastic stretching action of the retaining spring, the daylily to be sieved is placed in the upper glass cover, and the daylily falls into the upper wall of the sieving plate for placement, the screening intensity of the screening equipment is adjusted according to the dryness and wetness degree of the daylily, at the moment, the fixed electromagnet is electrified to generate magnetism, the fixed electromagnet magnetizes the soft iron plate through the magnetic conducting rod, the soft iron plate magnetizes the magnetic material layer through the fixed magnetic plate, the magnetic material layer magnetizes and releases heat, the magnetic material layer heats air in the collision air bag, the collision air bag is expanded by thermal expansion, the sliding electromagnet is electrified to generate magnetism, when the screening plate moves upwards, the sliding electromagnet and the fixed electromagnet in the upper glass cover are arranged in different poles, the fixed electromagnet is fixed on the side wall of the fixed magnetic plate and adsorbs the sliding electromagnet through suction, the sliding electromagnet drives the screening plate to ascend, the magnetic conducting rod slides along the guide rod to ascend through the cylindrical air bag under the action of the sliding block, the sliding electromagnet and the fixed electromagnet in the lower glass cover are arranged in the same pole, the fixed electromagnet is fixed on the side wall of the fixed magnetic plate and pushes the sliding electromagnet to ascend through repulsion force, the screening plate moves towards one side of the upper glass cover to drive the cylindrical air bag to impact the impacting air bag, the screening plate can rapidly move towards the lower glass cover under the elastic recoil of the bumping air bag, so that the separation distance between the daylily and the screening plate is increased, when the screening plate moves towards one side of the lower glass cover, the magnetic poles of the sliding electromagnet in the upper glass cover and the sliding electromagnet in the lower glass cover are changed, so that the effect generated when the screening plate moves downwards is consistent with the effect generated when the screening plate moves upwards, and (4) greatly screening the daylily, and screening out impurities to fall into the lower glass cover through a screening opening.

Preferably, spotlight cover type illumination mechanism includes spotlight mouth, warm light lamp and collector lens, the multiunit spotlight mouth is located and is penetrated light frame lateral wall, the warm light lamp is located the spotlight frame lateral wall outside the spotlight mouth, collector lens locates the one end that the warm light lamp was kept away from to the spotlight mouth.

During the use, when day lily screening operation, the humidity of gradual reduction day lily, day lily processing after being convenient for sieve is used, at this moment, warm light starts to penetrate into illumination through condensing lens and covers with glass down inside, carry out drying operation to the day lily in the sieve, along with the increase of illumination time, the gradual reduction of day lily humidity of screening in-process, subsequently, the inside electric current that lets in fixed electromagnet weakens, the inside electric current that lets in the slip electromagnet increases, fixed electromagnet's magnetic strength reduces, make soft iron plate weaken to the magnetization intensity of magnetic material layer, the heat that the magnetic material layer emitted reduces, it reduces to collide the gasbag inflation degree, and then make the impact elasticity that collides the gasbag reduce, the range that the day lily that humidity reduces was sieved in the sieve reduces gradually, thereby guarantee the screening efficiency of the day lily that humidity reduced.

Specifically, the side wall of the light emitting rack is provided with a controller.

Wherein, the controller is respectively electrically connected with the sliding electromagnet, the fixed electromagnet and the warm light lamp.

Preferably, the controller is of the type SYC89C52RC-401.

The beneficial effect who adopts above-mentioned structure this scheme to gain as follows:

compared with the prior art, the scheme has the advantages that the sieving force of the daylily can be adjusted according to the humidity condition of the daylily through the arranged force adjusting air bag, the probability that the daylily is crushed in sieving is effectively reduced, the sieving efficiency of the daylily is improved, the self integrity of the daylily is guaranteed, the daylily humidity is gradually reduced in the sieving process, the current introduced into the fixed electromagnet is controlled to be weakened, the current introduced into the sliding electromagnet is increased, the magnetic strength of the fixed electromagnet is reduced, the magnetization strength of the soft iron plate on the magnetic material layer is weakened, the heat emitted by the magnetic material layer is reduced, the expansion degree of the collision air bag is reduced, and further the impact elasticity of the collision air bag is reduced;

through the warm lamp gathering structure that sets up, can carry out abundant illumination drying to the yellow flower that accomplishes the scattering in the screening, reduce the inhomogeneous phenomenon appearance of yellow flower drying, the effectual operation intensity that reduces yellow flower after the screening, the glass cover starts to penetrate into illumination through condensing lens and shines to last glass cover and lower glass cover inside in the control, carries out drying operation to yellow flower in the screening.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a front perspective view of the present solution;

FIG. 3 is a top perspective view of the present solution;

FIG. 4 is a side perspective view of the present solution;

FIG. 5 is a front view of the present solution;

FIG. 6 is a top view of the present solution;

FIG. 7 is a schematic view of the assembly structure of the support frame, the light emitting frame and the container ring plate according to the present embodiment;

FIG. 8 is a schematic structural view of a buffer adjustment type force sifting mechanism according to the present embodiment;

FIG. 9 isbase:Sub>A sectional view taken along section A-A of FIG. 6;

FIG. 10 is an enlarged view of the portion A of FIG. 1;

fig. 11 is an enlarged structural view of part B of fig. 4.

The device comprises a support frame 1, a support frame 2, a light emitting frame 3, an upper glass cover 4, a lower glass cover 5, a buffer adjusting type force screening mechanism 6, a suspension positioning mechanism 7, a suspension holding plate 8, a through hole 9, a holding spring 10, a connecting plate 11, a buffer type screening mechanism 12, a guide plate 13, a guide rod 14, a sliding block 15, a cylindrical air bag 16, a screening plate 17, a screening groove 18, a screening opening 19, a magnetic conduction type driving mechanism 20, a sliding magnetic opening 21, a sliding electromagnet 22, a soft iron plate 23, a fixed magnetic plate 24, a fixed magnetic opening 25, a fixed electromagnet 26, a magnetic conduction rod 27, a collision force adjusting mechanism 28, a force groove 29, an air bag collision 30, a magnetic material layer 31, a light gathering covering type illumination mechanism 32, a light gathering opening 33, a warm light lamp 34, a light gathering lens 35, a controller 36 and a container ring plate.

The accompanying drawings are included to provide a further understanding of the present solution and are incorporated in and constitute a part of this specification, illustrate embodiments of the solution and together with the description serve to explain the principles of the solution and not to limit the solution.

Description of the preferred embodiment

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present solution.

In the description of the present solution, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present solution.

As shown in fig. 1-11, the present scheme provides a sorting unit based on day lily quality, including support frame 1, shine light frame 2, go up glass cover 3, lower glass cover 4, container crown plate 36, buffer adjustment type dynamics screening mechanism 5 and spotlight cover type illumination mechanism 31, light frame 2 lateral wall is located to support frame 1, go up glass cover 3 and locate container crown plate 36 upper wall, container crown plate 36 diapire is located to lower glass cover 4, the multiunit shine light frame 2 and locate container crown plate 36 lateral wall, shine light frame 2 and locate one side that container crown plate 36 was kept away from to support frame 1, buffer adjustment type dynamics screening mechanism 5 locates inside glass cover 3 and lower glass cover 4, spotlight cover type illumination mechanism 31 locates shine light frame 2 lateral wall, buffer adjustment type dynamics screening mechanism 5 includes unsettled positioning mechanism 6, buffer type screening mechanism 11, magnetic conduction type actuating mechanism 19 and offend dynamics adjusting mechanism 27, unsettled positioning mechanism 6 locates on glass cover 3 upper wall and lower glass cover type screening mechanism 4, buffer adjustment type dynamics screening mechanism 11 locates on the bottom wall and magnetic conduction type screening mechanism 19, buffer adjustment type dynamics screening mechanism 27 that buffer adjustment mechanism locates on one side of unsettled positioning mechanism 11 and buffer type glass cover type screening mechanism 11, buffer adjustment type magnetism.

The hanging positioning mechanism 6 comprises hanging holding plates 7, through holes 8, holding springs 9 and connecting plates 10, the hanging holding plates 7 are symmetrically arranged on two sides of the light emitting rack 2, the through holes 8 are arranged on the upper wall of the upper glass cover 3 and the bottom wall of the lower glass cover 4, the holding springs 9 penetrate through the through holes 8 and are arranged on the side walls of the hanging holding plates 7, and the connecting plates 10 are arranged on one sides, far away from the hanging holding plates 7, of the holding springs 9; the buffer type screening mechanism 11 comprises guide plates 12, guide rods 13, sliding blocks 14, columnar air bags 15, screening plates 16, screening grooves 17 and screening openings 18, wherein multiple groups of guide plates 12 are arranged on the top wall of the upper glass cover 3 and the bottom wall of the lower glass cover 4, the guide rods 13 are arranged between the guide plates 12, the sliding blocks 14 are arranged on the outer sides of the guide rods 13 in a sliding manner, the columnar air bags 15 are arranged on the outer sides of the sliding blocks 14, the screening plates 16 are arranged on the outer sides of the columnar air bags 15, the screening grooves 17 are symmetrically arranged on the upper wall and the bottom wall of the screening plates 16, the screening grooves 17 are cavities with one open ends, and multiple groups of the screening openings 18 are arranged on the inner walls of the screening grooves 17; the magnetic conduction type driving mechanism 19 comprises a sliding magnetic opening 20, a sliding electromagnet 21, a soft iron plate 22, a fixed magnetic plate 23, a fixed magnetic opening 24, a fixed electromagnet 25 and a magnetic conduction rod 26, a plurality of groups of the sliding magnetic openings 20 are arranged on the side wall of the screening plate 16 outside the cylindrical air bag 15, the sliding electromagnet 21 is arranged on the inner wall of the sliding magnetic opening 20, the soft iron plate 22 is arranged on the side wall of the guide plate 12 outside the guide rod 13, the fixed magnetic plate 23 is arranged on the side wall of the soft iron plate 22 outside the guide rod 13, a plurality of groups of the fixed magnetic openings 24 are arranged on the side wall of the fixed magnetic plate 23, the fixed electromagnet 25 is arranged on the inner wall of the fixed magnetic opening 24, the fixed electromagnet 25 is arranged opposite to the sliding electromagnet 21, and the magnetic conduction rod 26 penetrates through the fixed magnetic plate 23 and is arranged between the fixed electromagnet 25 and the soft iron plate 22; the impact force adjusting mechanism 27 comprises a force groove 28, an impact air bag 29 and a magnetic material layer 30, wherein the force groove 28 is formed in the bottom wall of the fixed magnetic plate 23, the force groove 28 is an opening at one end, the impact air bag 29 is arranged on the inner wall of the force groove 28, and the magnetic material layer 30 is arranged on the inner wall of the impact air bag 29.

Spotlight covers type illumination mechanism 31 and includes spotlight mouth 32, warm braw lamp 33 and collector lens 34, the multiunit spotlight mouth 32 is located and is penetrated 2 lateral walls of light frame, the warm braw lamp 33 is located and is penetrated 2 lateral walls of light frame outside spotlight mouth 32, collector lens 34 is located spotlight mouth 32 and is kept away from the one end of warm braw lamp 33.

Specifically, the side wall of the light emitting rack 2 is provided with a controller 35.

The controller 35 is electrically connected to the sliding electromagnet 21, the fixed electromagnet 25, and the warm light lamp 33.

Preferably, the controller 35 is of the type SYC89C52RC-401.

In specific use, in the first embodiment, in an initial state, due to the elastic stretching effect of the retaining spring 9, the sieving plate 16 is retained between the container ring plates 36, the elastic force of the retaining spring 9 is smaller than the magnetic force between the sliding electromagnet 21 and the fixed electromagnet 25, the yellow flowers to be sieved are placed inside the upper glass cover 3, the yellow flowers fall into the upper wall of the sieving plate 16 to be placed, and the sieving strength of the sieving equipment is adjusted according to the dryness and wetness degree of the yellow flowers.

Specifically, when the humidity of the daylily to be screened is high, the controller 35 controls the fixed electromagnet 25 to be started, the fixed electromagnet 25 is electrified to generate magnetism, the fixed electromagnet 25 magnetizes the soft iron plate 22 through the magnetic conduction rod 26, the soft iron plate 22 magnetizes the magnetic material layer 30 through the fixed magnetic plate 23, the magnetic material layer 30 magnetizes and releases heat, the magnetic material layer 30 heats air inside the impact air bag 29, the impact air bag 29 is expanded by thermal expansion, the controller 35 controls the sliding electromagnet 21 to be started, the sliding electromagnet 21 is electrified to generate magnetism, when the sieving plate 16 moves upwards, the sliding electromagnet 21 and the fixed electromagnet 25 in the upper glass cover 3 are arranged in different poles, the fixed electromagnet 25 is fixed on the side wall of the fixed magnetic plate 23 and adsorbs the sliding electromagnet 21 through suction, the sliding electromagnet 21 drives the sieving plate 16 to ascend, the magnetic conducting rod 26 slides along the guide rod 13 to ascend through the cylindrical air bag 15 under the action of the sliding block 14, the sliding electromagnet 21 and the fixed electromagnet 25 in the lower glass cover 4 are arranged in the same pole, the fixed electromagnet 25 is fixed on the side wall of the fixed magnetic plate 23 and pushes the sliding electromagnet 21 to ascend through repulsive force, the sieving plate 16 moves towards one side of the upper glass cover 3 to drive the cylindrical air bag 15 to impact the air bag 29, the sieving plate 16 is rapidly moved in the direction of the lower glass cover 4 under the elastic recoil of the bumping air bags 29, so that the separation distance between the daylily and the sieving plate 16 is increased, when the sieving plate 16 moves toward one side of the lower glass cover 4, the magnetic poles of the sliding electromagnet 21 inside the upper glass cover 3 and the sliding electromagnet 21 inside the lower glass cover 4 are changed, thereby causing the downward movement of the sieve plate 16 to be the same as the upward movement of the sieve plate 16, and (4) greatly screening the daylily, and screening out impurities to fall into the lower glass cover 4 through a screening opening 18.

Second embodiment, this embodiment is based on the above embodiment, when the humidity of the chrysanthemum to be screened is low, the controller 35 controls the current flowing into the fixed electromagnet 25 to be weakened, the controller 35 controls the current flowing into the sliding electromagnet 21 to be increased, and the magnetic strength of the fixed electromagnet 25 is reduced, so that the magnetization of the magnetic material layer 30 by the soft iron plate 22 is weakened.

Specifically, the heat emitted by the magnetic material layer 30 is reduced, the expansion degree of the collision air bag 29 is reduced, so that the impact elasticity of the collision air bag 29 is reduced, the screening amplitude of the chrysanthemum flowers with reduced humidity in screening is gradually reduced, the completeness of the chrysanthemum flowers with reduced humidity is ensured, and the occurrence of broken leaves is reduced.

In the third embodiment, based on the above embodiment, during the yellow flower screening operation, the humidity of the yellow flowers is gradually reduced, so that the screened yellow flowers can be conveniently processed and used, at this time, the controller 35 controls the warm light lamp 33 to be started, the light emitted by the warm light lamp 33 penetrates through the condensing lens 34 to irradiate the light into the upper glass cover 3 and the lower glass cover 4, the drying operation is performed on the yellow flowers during screening, and the humidity of the yellow flowers during screening is gradually reduced along with the increase of the illumination time; repeating the above operation when using next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present solution have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the solution, the scope of which is defined in the appended claims and their equivalents.

The present solution and its embodiments have been described above, but the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present solution, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the present disclosure without inventive faculty to devise similar arrangements and embodiments without departing from the spirit and scope of the present disclosure.

Claims

1. The utility model provides a sorting unit based on day lily quality, includes support frame (1), shines optical frame (2), goes up glass cover (3), lower glass cover (4) and container crown plate (36), its characterized in that: also comprises a buffer adjusting type force screening mechanism (5) and a light-gathering covering type illumination mechanism (31), the support frame (1) is arranged on the side wall of the light emitting frame (2), the upper glass cover (3) is arranged on the upper wall of the container annular plate (36), the lower glass cover (4) is arranged on the bottom wall of the container annular plate (36), a plurality of groups of the light emitting racks (2) are arranged on the side wall of the container annular plate (36), the light emitting frame (2) is arranged on one side of the support frame (1) far away from the container ring plate (36), the buffer adjusting force screening mechanism (5) is arranged inside the upper glass cover (3) and the lower glass cover (4), the light-gathering covering type illumination mechanism (31) is arranged on the side wall of the light-emitting frame (2), the buffer adjusting type force screening mechanism (5) comprises a suspension positioning mechanism (6), a buffer type screening mechanism (11), a magnetic conductive type driving mechanism (19) and an impact force adjusting mechanism (27), the suspension positioning mechanism (6) is arranged on the upper wall of the upper glass cover (3) and the bottom wall of the lower glass cover (4), the buffer type screening mechanism (11) is arranged in the upper glass cover (3) and the lower glass cover (4), the magnetic conductive type driving mechanism (19) is arranged on the buffer type screening mechanism (11), the collision force adjusting mechanism (27) is arranged on the buffer type screening mechanism (11) on one side of the magnetic conductive type driving mechanism (19).

2. The daylily quality-based sorting device according to claim 1, wherein: unsettled positioning mechanism (6) are including unsettled holding plate (7), opening (8), retaining spring (9) and connecting plate (10), unsettled holding plate (7) symmetry is located and is penetrated light frame (2) both sides, last glass cover (3) upper wall and lower glass cover (4) diapire are located in opening (8), retaining spring (9) run through opening (8) and locate unsettled holding plate (7) lateral wall, one side that retaining spring (9) kept away from unsettled holding plate (7) is located in connecting plate (10).

3. The daylily quality-based sorting device according to claim 2, wherein: buffer type screening mechanism (11) include deflector (12), guide bar (13), sliding block (14), cylindricality gasbag (15), screening board (16), screening groove (17) and screening mouth (18), multiunit last glass cover (3) roof and lower glass cover (4) diapire are located to deflector (12), between deflector (12) are located in guide bar (13), the guide bar (13) outside is located in sliding block (14).

4. The apparatus of claim 3, wherein the apparatus further comprises: sliding block (14) outside is located in cylindricality gasbag (15), cylindricality gasbag (15) outside is located in screening board (16), screening groove (17) symmetry is located screening board (16) upper wall and diapire, and screening groove (17) are one end open-ended cavity, multiunit screening mouth (18) are located screening groove (17) inner wall.

5. The apparatus of claim 4, wherein the apparatus further comprises: the magnetic conduction type driving mechanism (19) comprises a sliding magnetic opening (20), a sliding electromagnet (21), a soft iron plate (22), a fixed magnetic plate (23), a fixed magnetic opening (24), a fixed electromagnet (25) and a magnetic conduction rod (26).

6. The daylily quality-based sorting device according to claim 5, wherein: the multi-group screening board (16) lateral wall in cylindricality gasbag (15) outside is located to slip magnetism mouth (20), slip electro-magnet (21) are located slip magnetism mouth (20) inner wall, deflector (12) lateral wall in guide bar (13) outside is located in soft iron board (22), soft iron board (22) lateral wall in guide bar (13) outside is located in fixed magnetic sheet (23).

7. The apparatus of claim 6, wherein the apparatus further comprises: the fixed magnetic sheet (23) lateral wall is located to the multiunit fixed magnetism mouth (24), fixed magnetism mouth (24) inner wall is located in fixed electro-magnet (25), fixed electro-magnet (25) set up with slip electro-magnet (21) relatively, fixed magnetic sheet (23) are located between fixed electro-magnet (25) and soft iron plate (22) to magnetic conduction pole (26) run through.

8. The daylily quality-based sorting device of claim 7, wherein: collide dynamics adjustment mechanism (27) including dynamics groove (28), clash gasbag (29) and magnetic material layer (30), fixed magnetic sheet (23) diapire is located in dynamics groove (28), and dynamics groove (28) are the one end opening setting, clash gasbag (29) and locate dynamics groove (28) inner wall, magnetic material layer (30) are located and are clashed gasbag (29) inner wall.

9. The daylily quality-based sorting device of claim 8, wherein: spotlight covers type illumination mechanism (31) and includes spotlight mouth (32), warm light (33) and collector lens (34), the multiunit spotlight mouth (32) are located and are emitted light frame (2) lateral wall, spotlight mouth (32) outside is located in warm light (33) and emit light frame (2) lateral wall, collector lens (34) are located and are gathered light mouth (32) and keep away from the one end of warm light (33).

10. The daylily quality-based sorting device of claim 9, wherein: the lateral wall of the light emitting frame (2) is provided with a controller (35).