CN214487767U - Chemical fertilizer granule sieving mechanism - Google Patents

Abstract

The utility model discloses a chemical fertilizer granule sieving mechanism, get the device including control panel, material feeding unit, fine grain screening plant and finished product sieve, material feeding unit links to each other with fine grain screening plant, the finished product sieve is got the device and is linked to each other with fine grain screening plant, control panel locates on the fine grain screening plant. The utility model belongs to the technical field of the chemical fertilizer finished product detects, specifically indicate a chemical fertilizer granule sieving mechanism, be equipped with the quantity control that material feeding unit will need the chemical fertilizer granule that the sieve was got in certain extent, avoid sieving the quantity too much or too little, influence the accurate degree that the sieve was got, fine particle screening plant screens out fine granule one step earlier, avoids sneaking into the piece of fertilizer in the finished product, and the finished product sieve is got the device and is sieved through multistage, takes out the chemical fertilizer granule of suitable size, gets rid of large granule chemical fertilizer, the utility model discloses effectively solved current chemical fertilizer screening plant availability factor in the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

Description

Chemical fertilizer granule sieving mechanism

Technical Field

The utility model belongs to the technical field of the chemical fertilizer finished product detects, specifically indicate a chemical fertilizer granule sieving mechanism.

Background

The chemical fertilizer refers to a fertilizer prepared by chemically manufacturing or mining ores and processing, is also called an inorganic fertilizer and comprises a nitrogenous fertilizer, a phosphate fertilizer, a potash fertilizer, a trace element fertilizer, a compound fertilizer and the like, and has the following common characteristics: the components are simple, and the nutrient content is high; the fertilizer efficiency is fast, and the fertilizer is strong; certain fertilizers have acid-base reactions; generally, the fertilizer does not contain organic matters, has no soil improvement and fertilization effects, has more chemical fertilizer types and has larger difference of properties and application methods. In the production process of the fertilizer, the fertilizer particles must be screened when raw materials are processed into finished fertilizer products, excessively large and excessively small particles are not beneficial to the using effect of the fertilizer, and fertilizer particles with smaller particles and particles with larger particles are screened.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a chemical fertilizer granule sieving mechanism, be equipped with the quantity control that material feeding unit will need the chemical fertilizer granule that the sieve was got and in certain extent, avoid sieving the quantity too much or too little, influence the accurate degree that the sieve was got, fine particle screening mechanism screens out fine granule one step earlier, avoids sneaking into the piece of fertilizer in the finished product, and the finished product sieve is got the device and is passed through multistage screening, takes out the chemical fertilizer granule of suitable size, gets rid of large granule chemical fertilizer, the utility model discloses effectively solved current chemical fertilizer screening mechanism availability factor on the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

The utility model adopts the following technical scheme: the utility model relates to a chemical fertilizer granule screening plant, including control panel, material feeding unit, fine particle screening plant and finished product screening plant, the material feeding unit links to each other with the fine particle screening plant, finished product screening plant links to each other with the fine particle screening plant, control panel locates on the fine particle screening plant; the feeding device comprises a vertical feeding groove, an upper end limiting plate, a limiting plate clamping groove, a horizontal feeding groove, a fertilizer particle pushing plate, a feeding port baffle, a closed feeding ring, an upper end rack, a lower end rack, a half-edge gear, a feeding ring connecting support, a support clamping groove and a feeding rotating motor, wherein the horizontal feeding groove is connected with the fine particle screening device, the vertical feeding groove is connected with the horizontal feeding groove, the limiting plate clamping groove is arranged on the inner wall of the vertical feeding groove, the upper end limiting plate is clamped and slidably arranged on the limiting plate clamping groove, the fertilizer particle pushing plate is clamped and slidably arranged on the horizontal feeding groove, the feeding port baffle is connected with the fertilizer particle pushing plate, the closed feeding ring is connected with the fertilizer particle pushing plate, the upper end rack is arranged on the upper wall of the closed feeding ring, and the lower end rack is arranged on the lower wall of the closed feeding ring, the semi-edge gear is arranged on the horizontal feeding groove, the semi-edge gear is respectively meshed with the upper end rack and the lower end rack, the support clamping groove is arranged on the horizontal feeding groove, the feeding ring connecting support is arranged on the closed feeding ring, the feeding ring connecting support is clamped and slidably arranged on the support clamping groove, the feeding rotating motor is arranged on the horizontal feeding groove, and the output end of the feeding rotating motor is connected with the semi-edge gear.

Further, the fine particle screening device comprises a fine particle collecting cabinet, a fine particle collecting box, a fine particle screening plate, fine particle screen holes, a screening plate connecting block, a screening limiting spring, a crank block, a slider sliding linear guide rail, a passive connecting support, an active connecting support and a fine screen feeding power motor, the fine particle collecting cabinet is arranged below the horizontal feeding groove, the fine particle collecting box is arranged on the fine particle collecting cabinet, the fine particle screening plate is arranged on the horizontal feeding groove, the fine particle screening plate is connected with the fine particle collecting cabinet, the fine particle screen holes are arranged on the fine particle screening plate, the screening plate connecting block is arranged on the bottom wall of the horizontal feeding groove, one end of the screening limiting spring is connected with the screening plate connecting block, the other end of the screening limiting spring is connected with the fine particle screening plate, the slider sliding linear guide rail is arranged on the inner wall of the fine particle collecting cabinet, the crank block is clamped and slidably arranged on the slider sliding linear guide rail, the driven connecting support is hinged with the crank block, the driving connecting support is hinged with the driven connecting support, and the fine screen is connected with the driving connecting support for the power motor.

Further, the finished product screening device comprises a finished product feeding groove, a first-order screening connecting shaft, a first-order finished product screening plate, a first-order eccentric wheel, a first-order power motor, a second-order screening connecting shaft, a second-order finished product screening plate, a second-order eccentric wheel, a second-order power motor, a third-order screening connecting shaft, a third-order finished product screening plate, a third-order eccentric wheel, a third-order power motor, a finished product collecting hole, a finished product collecting box and a large particle collecting box, wherein the finished product feeding groove is connected with the horizontal feeding groove, the first-order screening connecting shaft is hinged with the finished product feeding groove, the first-order finished product screening plate is arranged on the first-order screening connecting shaft, the first-order eccentric wheel is arranged below the first-order finished product screening plate, the first-order power motor is arranged on the outer wall of the finished product feeding groove, the output end of the first-order power motor is connected with the first-order eccentric wheel, the second-order screening connecting shaft is clamped and rotatably arranged on the finished product feeding groove, the second-order finished product screening plate is arranged on the second-order screening connecting shaft, the second-order screening connecting shaft is arranged below the first-order finished product screening plate, the second-order eccentric wheel is arranged below the second-order finished product screening plate, the second-order power motor is connected with the second-order eccentric wheel, the third-order screening connecting shaft is clamped and rotatably arranged on the finished product feeding groove, the third-order screening connecting shaft is arranged below the second-order finished product screening plate, the third-order finished product screening plate is connected with the third-order screening connecting shaft, the third-order eccentric wheel is arranged below the third-order finished product screening plate, the three-order power motor is connected with a three-order eccentric wheel, the finished product collecting holes are respectively arranged on the first-order finished product screening plate, the second-order finished product screening plate and the three-order finished product screening plate, the finished product collecting box is arranged on the bottom wall of the finished product feeding groove, and the large-particle collecting box is arranged below the third-order finished product screening plate.

Further, the control panel is respectively and electrically connected with the feeding rotating motor, the fine screening power supply motor, the first-order power motor, the second-order power motor and the third-order power motor.

Furthermore, the inclination angle of the first-order finished product screening plate is larger than that of the second-order finished product screening plate, and the inclination angle of the second-order finished product screening plate is larger than that of the third-order finished product screening plate.

Furthermore, the bottom surface of limiting plate block groove is the inclined plane, the corner of the upper end of perpendicular pay-off groove is the fillet.

Further, the first-order eccentric wheel, the second-order eccentric wheel and the third-order eccentric wheel cannot be synchronously lifted or lowered mutually.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme chemical fertilizer granule sieving mechanism is equipped with the quantity control that material feeding unit will need the chemical fertilizer granule of sieve and get in the certain extent, avoids sieving the quantity too much or too little, influences the accurate degree that the sieve was got, and fine particle screening plant screens out fine granule one step earlier, avoids sneaking into the piece of fertilizer in the finished product, and the finished product sieve is got the device and is passed through multistage screening, takes out the chemical fertilizer granule of suitable size, gets rid of large granule chemical fertilizer, the utility model discloses effectively solved current chemical fertilizer screening plant availability factor on the existing market low, and self structure is complicated, maintains comparatively inconvenient problem.

Drawings

FIG. 1 is a front cross-sectional view of a chemical fertilizer granule screening device of the present invention;

FIG. 2 is a front view of the chemical fertilizer granule screening device of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 1.

Wherein, 1, a control panel, 2, a feeding device, 3, a fine particle screening device, 4, a finished product screening device, 5, a vertical feeding groove, 6, an upper end limit plate, 7, a limit plate clamping groove, 8, a horizontal feeding groove, 9, a fertilizer particle pushing plate, 10, a feeding port baffle, 11, a closed feeding ring, 12, an upper end rack, 13, a lower end rack, 14, a half-side gear, 15, a feeding ring connecting bracket, 16, a bracket clamping groove, 17, a feeding rotating motor, 18, a fine particle collecting cabinet, 19, a fine particle collecting box, 20, a fine particle screening plate, 21, a fine particle sieve hole, 22, a screening plate connecting block, 23, a screening limit spring, 24, a crank slide block, 25, a slide block sliding linear guide rail, 26, a passive connecting bracket, 27, a driving connecting bracket, 28, a fine sieve power motor, 29, a finished product feeding groove, 30, a first-order screening connecting shaft, 31. the screening device comprises a first-order finished product screening plate, a first-order eccentric wheel, a first-order power motor, a second-order screening connecting shaft, a second-order screening plate, a second-order finished product screening plate, a second-order eccentric wheel, a second-order power motor, a third-order screening connecting shaft, a third-order finished product screening plate, a third-order eccentric wheel, a third-order power motor, a third-order finished product collecting hole, a finished product collecting box, a third-order finished product screening connecting shaft, a third-order finished product screening plate, a third-order eccentric wheel, a third-order finished product screening plate, a third-order product collecting box, a third-order finished product collecting box, a third-order product collecting box and a third-order product collecting box.

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

Detailed Description

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 some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model relates to a chemical fertilizer granule screening device, which comprises a control panel 1, a feeding device 2, a fine granule screening device 3 and a finished product screening device 4, wherein the feeding device 2 is connected with the fine granule screening device 3, the finished product screening device 4 is connected with the fine granule screening device 3, and the control panel 1 is arranged on the fine granule screening device 3; the feeding device 2 comprises a vertical feeding groove 5, an upper end limiting plate 6, a limiting plate clamping groove 7, a horizontal feeding groove 8, a fertilizer particle pushing plate 9, a feeding port baffle plate 10, a closed feeding ring 11, an upper end rack 12, a lower end rack 13, a half-edge gear 14, a feeding ring connecting support 15, a support clamping groove 16 and a feeding rotating motor 17, wherein the horizontal feeding groove 8 is connected with the fine particle screening device 3, the vertical feeding groove 5 is connected with the horizontal feeding groove 8, the limiting plate clamping groove 7 is arranged on the inner wall of the vertical feeding groove 5, the upper end limiting plate 6 is clamped and slidably arranged on the limiting plate clamping groove 7, the fertilizer particle pushing plate 9 is clamped and slidably arranged on the horizontal feeding groove 8, the feeding port baffle plate 10 is connected with the fertilizer particle pushing plate 9, the closed feeding ring 11 is connected with the fertilizer particle pushing plate 9, the upper end rack 12 is arranged on the upper wall of the closed feeding ring 11, the lower end rack 13 is arranged on the lower wall of the closed feeding ring 11, the half-edge gear 14 is arranged on the horizontal feeding groove 8, the half-edge gear 14 is respectively meshed and connected with the upper end rack 12 and the lower end rack 13, the support clamping groove 16 is arranged on the horizontal feeding groove 8, the feeding ring connecting support 15 is arranged on the closed feeding ring 11, the feeding ring connecting support 15 is clamped and slidably arranged on the support clamping groove 16, the feeding rotating motor 17 is arranged on the horizontal feeding groove 8, and the output end of the feeding rotating motor 17 is connected with the half-edge gear 14.

The fine particle screening device 3 comprises a fine particle collecting cabinet 18, a fine particle collecting box 19, a fine particle screening plate 20, fine particle screen holes 21, a screening plate connecting block 22, a screening limiting spring 23, a crank slide block 24, a slide block sliding linear guide rail 25, a driven connecting support 26, a driving connecting support 27 and a fine screen power supply motor 28, wherein the fine particle collecting cabinet 18 is arranged below a horizontal feeding groove 8, the fine particle collecting box 19 is arranged on the fine particle collecting cabinet 18, the fine particle screening plate 20 is arranged on the horizontal feeding groove 8, the fine particle screening plate 20 is connected with the fine particle collecting cabinet 18, the fine particle screen holes 21 are arranged on the fine particle screening plate 20, the screening plate connecting block 22 is arranged on the bottom wall of the horizontal feeding groove 8, one end of the screening limiting spring 23 is connected with the screening plate connecting block 22, the other end of the screening limiting spring 23 is connected with the fine particle screening plate 20, the slider sliding linear guide rail 25 is arranged on the inner wall of the fine particle collection cabinet 18, the crank slider 24 is clamped and slidably arranged on the slider sliding linear guide rail 25, the driven connecting bracket 26 is hinged with the crank slider 24, the driving connecting bracket 27 is hinged with the driven connecting bracket 26, and the fine screen power supply motor 28 is connected with the driving connecting bracket 27.

The finished product screening device 4 comprises a finished product feeding groove 29, a first-order screening connecting shaft 30, a first-order finished product screening plate 31, a first-order eccentric wheel 32, a first-order power motor 33, a second-order screening connecting shaft 34, a second-order finished product screening plate 35, a second-order eccentric wheel 36, a second-order power motor 37, a third-order screening connecting shaft 38, a third-order finished product screening plate 39, a third-order eccentric wheel 40, a third-order power motor 41, a finished product collecting hole 42, a finished product collecting box 43 and a large particle collecting box 44, wherein the finished product feeding groove 29 is connected with the horizontal feeding groove 8, the first-order screening connecting shaft 30 is hinged with the finished product feeding groove 29, the first-order finished product screening plate 31 is arranged on the first-order screening connecting shaft 30, the first-order eccentric wheel 32 is arranged below the first-order finished product screening plate 31, the first-order power motor 33 is arranged on the outer wall of the finished product feeding groove 29, and the output end of the first-order power motor 33 is connected with the first-order eccentric wheel 32, the second-order screening connecting shaft 34 is clamped and rotatably arranged on the finished product feeding groove 29, the second-order finished product screening plate 35 is arranged on the second-order screening connecting shaft 34, the second-order screening connecting shaft 34 is arranged below the first-order finished product screening plate 31, the second-order eccentric wheel 36 is arranged below the second-order finished product screening plate 35, the second-order power motor 37 is connected with the second-order eccentric wheel 36, the third-order screening connecting shaft 38 is clamped and rotatably arranged on the finished product feeding groove 29, the third-order screening connecting shaft 38 is arranged below the second-order finished product screening plate 35, the third-order finished product screening plate 39 is connected with the third-order screening connecting shaft 38, the third-order eccentric wheel 40 is arranged below the third-order finished product screening plate 39, the third-order power motor 41 is connected with the third-order eccentric wheel 40, and the finished product collecting holes 42 are respectively arranged on the first-order finished product screening plate 31, the second-order finished product screening plate 35 and the third-order finished product screening plate 39, the finished product collection box 43 is arranged on the bottom wall of the finished product feeding groove 29, and the large particle collection box 44 is arranged below the third-order finished product screening plate 39.

The control panel 1 is respectively and electrically connected with a feeding rotating motor 17, a fine screening power supply motor 28, a first-order power motor 33, a second-order power motor 37 and a third-order power motor 41.

The inclination angle of the first-order finished product screening plate 31 is greater than that of the second-order finished product screening plate 35, and the inclination angle of the second-order finished product screening plate 35 is greater than that of the third-order finished product screening plate 39.

The bottom surface of the limiting plate clamping groove 7 is an inclined surface, and the corner at the upper end of the vertical feeding groove 5 is a round angle.

The first-order eccentric 32, the second-order eccentric 36 and the third-order eccentric 40 do not rise or fall in synchronism with each other.

When the device is used, a user firstly connects a power supply to the device from the outside, fertilizer particles to be screened are sent into the vertical feeding groove 5, the upper end limiting plate 6 is covered on the upper end, then the feeding rotating motor 17 is driven to work by using the control panel 1, when the half gear 14 is meshed and connected with the lower end rack 13, the feeding ring connecting bracket 15 slides along the bracket clamping groove 16, the closed feeding ring 11 slides along the horizontal feeding groove 8, the fertilizer particle pushing plate 9 retreats, the feeding port baffle plate 10 moves backwards, the vertical feeding groove 5 is connected with the horizontal feeding groove 8, the fertilizer particles enter the horizontal feeding groove 8, after the feeding rotating motor 17 works for a certain time, the half gear 14 is meshed with the upper end rack 12, at the moment, the closed feeding ring 11 pushes forwards, the fertilizer particle pushing plate 9 pushes the fertilizer particles to the fine particle sieving plate 20 along the horizontal feeding groove 8, the feeding port baffle plate 10 disconnects the connection between the horizontal feeding groove 8 and the vertical feeding groove 5, the user opens the fine screen to the power motor 28, the active connecting bracket 27 drives the passive connecting bracket 26 to rotate by taking the fine screen to the power motor 28 as the center of a circle, the crank block 24 makes a linear reciprocating motion along the sliding block sliding linear guide rail 25, the crank block 24 jacks up the fine grain screening plate 20, the screening limiting spring 23 is deformed under the force to fix the fine grain screening plate 20 on the horizontal feeding groove 8, the fertilizer grains are lifted up in the period, small scraps fall into the fine grain collecting box 19 below from the fine grain screening holes 21, the fertilizer grains fall into the finished product feeding groove 29 after a certain number of fertilizer grains are accumulated in the horizontal feeding groove 8, the user opens the first-order power motor 33, the second-order power motor 37 and the third-order power motor 41 respectively to enable the first-order eccentric wheel 32, the second-order eccentric wheel 36 and the third-order eccentric wheel 40 to jump to screen the fertilizer grains above the first-order power motor 33, the second-order power motor 37 and the third-order eccentric wheel 40, the suitable chemical fertilizer granule of size falls on finished product collecting box 43 from finished product collecting hole 42, and the chemical fertilizer granule of large granule gets into large granule collecting box 44 and retrieves, and it is above that the utility model discloses holistic work flow repeats this step when using next time can.

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

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a chemical fertilizer granule sieving mechanism which characterized in that: the fine particle screening device comprises a control panel, a feeding device, a fine particle screening device and a finished product screening device, wherein the feeding device is connected with the fine particle screening device; the feeding device comprises a vertical feeding groove, an upper end limiting plate, a limiting plate clamping groove, a horizontal feeding groove, a fertilizer particle pushing plate, a feeding port baffle, a closed feeding ring, an upper end rack, a lower end rack, a half-edge gear, a feeding ring connecting support, a support clamping groove and a feeding rotating motor, wherein the horizontal feeding groove is connected with the fine particle screening device, the vertical feeding groove is connected with the horizontal feeding groove, the limiting plate clamping groove is arranged on the inner wall of the vertical feeding groove, the upper end limiting plate is clamped and slidably arranged on the limiting plate clamping groove, the fertilizer particle pushing plate is clamped and slidably arranged on the horizontal feeding groove, the feeding port baffle is connected with the fertilizer particle pushing plate, the closed feeding ring is connected with the fertilizer particle pushing plate, the upper end rack is arranged on the upper wall of the closed feeding ring, and the lower end rack is arranged on the lower wall of the closed feeding ring, the semi-edge gear is arranged on the horizontal feeding groove, the semi-edge gear is respectively meshed with the upper end rack and the lower end rack, the support clamping groove is arranged on the horizontal feeding groove, the feeding ring connecting support is arranged on the closed feeding ring, the feeding ring connecting support is clamped and slidably arranged on the support clamping groove, the feeding rotating motor is arranged on the horizontal feeding groove, and the output end of the feeding rotating motor is connected with the semi-edge gear.

2. The fertilizer granule screening device of claim 1, characterized in that: the fine particle screening device comprises a fine particle collecting cabinet, a fine particle collecting box, a fine particle screening plate, fine particle screen holes, a screening plate connecting block, a screening limiting spring, a crank block, a slider sliding linear guide rail, a passive connecting bracket, a driving connecting bracket and a fine screen power supply motor, wherein the fine particle collecting cabinet is arranged below a horizontal feeding groove, the fine particle collecting box is arranged on the fine particle collecting cabinet, the fine particle screening plate is arranged on the horizontal feeding groove, the fine particle screening plate is connected with the fine particle collecting cabinet, the fine particle screen holes are arranged on the fine particle screening plate, the screening plate connecting block is arranged on the bottom wall of the horizontal feeding groove, one end of the screening limiting spring is connected with the screening plate connecting block, the other end of the screening limiting spring is connected with the fine particle screening plate, the slider sliding linear guide rail is arranged on the inner wall of the fine particle collecting cabinet, the crank block is clamped and slidably arranged on the slider sliding linear guide rail, the driven connecting support is hinged with the crank block, the driving connecting support is hinged with the driven connecting support, and the fine screen is connected with the driving connecting support for the power motor.

3. The fertilizer granule screening device of claim 2, characterized in that: the finished product screening device comprises a finished product feeding groove, a first-order screening connecting shaft, a first-order finished product screening plate, a first-order eccentric wheel, a first-order power motor, a second-order screening connecting shaft, a second-order finished product screening plate, a second-order eccentric wheel, a second-order power motor, a third-order screening connecting shaft, a third-order finished product screening plate, a third-order eccentric wheel, a third-order power motor, a finished product collecting hole, a finished product collecting box and a large particle collecting box, wherein the finished product feeding groove is connected with the horizontal feeding groove, the first-order screening connecting shaft is hinged with the finished product feeding groove, the first-order finished product screening plate is arranged on the first-order screening connecting shaft, the first-order eccentric wheel is arranged below the first-order finished product screening plate, the first-order power motor is arranged on the outer wall of the finished product feeding groove, the output end of the first-order power motor is connected with the first-order eccentric wheel, the second-order screening connecting shaft is rotatably arranged on the finished product feeding groove, the second-order finished product screening plate is arranged on the second-order screening connecting shaft, the second-order screening connecting shaft is arranged below the first-order finished product screening plate, the second-order eccentric wheel is arranged below the second-order finished product screening plate, the second-order power motor is connected with the second-order eccentric wheel, the third-order screening connecting shaft is clamped and rotatably arranged on the finished product feeding groove, the third-order screening connecting shaft is arranged below the second-order finished product screening plate, the third-order finished product screening plate is connected with the third-order screening connecting shaft, the third-order eccentric wheel is arranged below the third-order finished product screening plate, the three-order power motor is connected with a three-order eccentric wheel, the finished product collecting holes are respectively arranged on the first-order finished product screening plate, the second-order finished product screening plate and the three-order finished product screening plate, the finished product collecting box is arranged on the bottom wall of the finished product feeding groove, and the large-particle collecting box is arranged below the third-order finished product screening plate.

4. The fertilizer granule screening device of claim 3, characterized in that: the control panel is respectively and electrically connected with the feeding rotating motor, the fine screen power supply motor, the first-order power motor, the second-order power motor and the third-order power motor.

5. The fertilizer granule screening device of claim 4, characterized in that: the inclination angle of the first-order finished product screening plate is larger than that of the second-order finished product screening plate, and the inclination angle of the second-order finished product screening plate is larger than that of the third-order finished product screening plate.

6. The fertilizer granule screening device of claim 5, characterized in that: the bottom surface of the limiting plate clamping groove is an inclined surface, and the corner of the upper end of the vertical feeding groove is a round angle.

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