CN220027717U - Compound fertilizer shakes mesh screen unloading mechanism - Google Patents

Abstract

The utility model discloses a compound fertilizer vibrating screen blanking mechanism, which relates to the technical field of fertilizer processing and aims to solve the technical problem that the manual screening of compound fertilizers greatly increases the labor capacity of workers; the auxiliary stirring device is arranged on the compound fertilizer sieving and classifying mechanism, so that the compound fertilizer leaving the vibration feeding area can be stirred into the collecting mechanism.

Description

Compound fertilizer shakes mesh screen unloading mechanism

Technical Field

The utility model belongs to the technical field of fertilizer processing, and particularly relates to a compound fertilizer vibrating mesh screen blanking mechanism.

Background

The compound fertilizer forms particles through the processes of melting, emulsifying, granulating and the like, but the manufactured particles are often different in size and need to be screened, so that the particles with the same size are selected for classified sales aiming at different soil conditions and different crop types, and the compound fertilizer is used.

The utility model discloses a vibrating screen for producing organic and inorganic compound fertilizer, which relates to the technical field of fertilizer production devices. This shale shaker is used in production of organic inorganic compound fertilizer, including screen box and vibration screening mechanism, the screen box is hollow structure, and the top fixed mounting of screen box has the feeder hopper, and the top of screen box is provided with dust extraction, and vibration screening mechanism sets up the inside at the screen box, vibration screening mechanism includes motor, belt pulley, belt, filter screen and eccentric wheel, and the rear side outer wall of screen box is provided with the support, and fixed mounting has the motor on the support, and the rear side outer wall of screen box rotates installs two sets of belt pulleys, and the output shaft of motor extends outside and with the center pin fixed mounting of one of them a set of belt pulley through the shaft coupling. The vibration screening mechanism can perform sufficient vibration screening on the compound fertilizer so as to finish screening work on the compound fertilizer in the shortest time, so that the labor capacity of workers can be reduced, and the production efficiency can be improved.

Therefore, aiming at the situations that the labor capacity of workers is greatly increased and the efficiency is low in the traditional manual screening method for compound fertilizer, a novel vibration screening blanking mechanism is developed, and compound fertilizer with different particle diameters is separated in the advancing type feeding process by utilizing a vibrator to match with a screening disc net structure.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a compound fertilizer vibrating screen discharging mechanism, which aims to solve the technical problem that the manual screening of compound fertilizer greatly increases the labor capacity of staff.

(2) Technical proposal

In order to solve the technical problems, the utility model provides a compound fertilizer vibrating screen screening discharging mechanism, which comprises a screening bin and a guide bin arranged on the left side of the screening bin, wherein a vibrating unit is arranged at the right end of the screening bin, a screen plate is arranged on the inner side of the screening bin, a plurality of screen holes are uniformly formed in the inner side of the screen plate, a portal frame is arranged at the upper end of the left side of the screening bin, a fine material collecting box is arranged below the left side of the screening bin, and a coarse material collecting box is fixedly connected to the left end of the fine material collecting box and is arranged below the guide bin.

When the compound fertilizer vibration screen discharging mechanism of the technical scheme is used, a user installs a screening bin below a discharge hole of compound fertilizer production equipment, compound fertilizer falls to the upper side of a screen plate, then a vibration unit is started, the screen plate is controlled to vibrate at a high speed, the screen plate is provided with a certain inclined surface, the compound fertilizer continuously moves from right to left while vibrating, compound fertilizer with smaller particle size falls into the screening bin through screen holes and finally slides into a fine material collecting box, the compound fertilizer with thicker particle size is left to move to the lower side of a portal, a steering motor is started, a steering frame is controlled to turn over at a certain frequency, a stirring rod is enabled to rotate back and forth between the screen plate and the portal, the rest compound fertilizer is stirred into a material guiding bin, and then the compound fertilizer falls into a coarse material collecting box.

Further, the screening bin upper end fixedly connected with layer board, screen plate upper end fixedly connected with pterygoid lamina, the pterygoid lamina set up in the layer board upside, the symmetry is installed around the screening bin and is blocked the firmware, and the firmware includes with the fixed base of screening bin wallboard and can encircle the L type card solid frame of base pivoted, installs the bolt knot structure that can twist on the card solid frame, after the card solid frame upset was to the pterygoid lamina, screw up the bolt knot and lock the pterygoid lamina on the layer board.

Furthermore, the jack has been seted up in the layer board left side, the inserted bar is installed to the symmetry around the portal lower extreme, the inserted bar set up in the jack is inboard, and the portal passes through the longitudinal grafting of inserted bar and jack and assembles on sieving the storehouse, can install and remove fast and keep stable in structure, also can use the supporting of bolt and nut to twist to connect the portal to fix on the layer board in the in-service use.

Further, fixedly connected with gallows between portal with the guide silo upper end, portal upper end fixedly connected with end seat, steering motor is installed to end seat front end, and the guide silo is fixed in portal below in suspension through the gallows to utilize the wallboard laminating guide silo of sieving the storehouse left end to keep its stability.

Further, the bogie is movably connected to the inner side of the end socket, the upper end of the bogie is fixedly connected with a power output element of the steering motor, a stirring rod is arranged at the lower end of the bogie, the steering motor controls the bogie to turn up and down, the rotation angle can be adjusted through control of an industrial computer, a silica gel sleeve is arranged on the surface of the stirring rod, and flexible contact is generated between the stirring rod and the sieve plate and the compound fertilizer.

Further, the support plate is fixedly arranged at the lower end of the sieving bin, the locating hole is formed in the inner side of the support plate, the locating rod is fixedly connected to the right end of the fine material collecting box, the locating rod is arranged on the inner side of the locating hole, and the fine material collecting box plays a limiting role in a mode that the locating rod is horizontally inserted into the locating hole, so that the fine material collecting box is prevented from moving forwards and backwards.

Further, the fine material collecting box is arranged on the left side of the support plate, the handle is arranged at the left end of the coarse material collecting box, the rollers are arranged at the lower ends of the fine material collecting box and the coarse material collecting box, the fine material collecting box and the coarse material collecting box are pulled back and forth after the handle is held, and the fine material collecting box and the coarse material collecting box are rapidly transferred to the designated position by means of rolling of the rollers on the ground.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: according to the compound fertilizer vibrating screen discharging mechanism, the compound fertilizer with different particle sizes can be collected separately by adopting a vibrating feeding mode and matching with the screen plate component, so that the compound fertilizer is convenient to store and sell in a classified mode, and compared with the traditional manual screening, the compound fertilizer vibrating screen discharging mechanism is more efficient and saves labor force; the auxiliary stirring device is arranged on the compound fertilizer sieving and classifying mechanism, so that the compound fertilizer leaving the vibration feeding area can be stirred into the collecting mechanism, and the compound fertilizer is prevented from blocking the feeding channel.

Drawings

FIG. 1 is a schematic diagram of an assembly structure of an embodiment of a compound fertilizer vibrating screen blanking mechanism of the present utility model;

FIG. 2 is a schematic diagram of a sieving bin structure of an embodiment of a compound fertilizer vibrating screen discharging mechanism;

FIG. 3 is a schematic diagram of a material guiding bin structure of an embodiment of a compound fertilizer vibrating screen discharging mechanism;

fig. 4 is a schematic diagram of a collecting box structure of an embodiment of a compound fertilizer vibrating screen discharging mechanism.

The marks in the drawings are: 1. sieving the bin; 2. a vibration unit; 3. a sieve plate; 4. a sieve pore; 5. a door frame; 6. a guide bin; 7. a fine material collecting box; 8. a coarse material collecting box; 9. a supporting plate; 10. a wing plate; 11. a clamping piece; 12. a jack; 13. a rod; 14. a hanging bracket; 15. an end head seat; 16. a steering motor; 17. a bogie; 18. a stirring rod; 19. a support plate; 20. positioning holes; 21. a positioning rod; 22. a handle; 23. and a roller.

Detailed Description

This concrete embodiment is a screen mesh sieve unloading mechanism that shakes for compound fertilizer, and its package structure schematic diagram is shown as fig. 1, and the structure schematic diagram of screening storehouse 1 is shown as fig. 2, and guide storehouse 6 structure schematic diagram is shown as fig. 3, and the collection box structure schematic diagram is shown as fig. 4, this unloading mechanism including screening storehouse 1, set up in the left guide storehouse 6 of screening storehouse 1, vibrating unit 2 is installed to screening storehouse 1 right-hand member, screen plate 3 is installed to screening storehouse 1 inboard, a plurality of sieve holes 4 have evenly been seted up to screen plate 3 inboard, portal 5 is installed to screening storehouse 1 left side upper end, the below of screening storehouse 1 left side is provided with fine material collecting box 7, fine material collecting box 7 left end fixedly connected with coarse material collecting box 8, coarse material collecting box 8 set up in guide storehouse 6 below.

To this concrete embodiment, vibration unit 2 adopts the vibration feeder module that is common on the market now, combines the major structure in this scheme to be the cell body, forms slot type feeding system, like GZD800 3000 formula electromagnetic vibration feeder, and it is through the combination of the rotatory vibration source that produces of unbalanced weight and resonant rubber spring, provides power by the motor, plays the effect of continuous high frequency vibration to the screening flat board of top, cooperates screening flat board with certain angle slope arrangement, impels the magnetic sheet to advance along the screening flat board.

The screening bin 1 is fixedly connected with the supporting plate 9 at the upper end, the screen plate 3 is fixedly connected with the wing plate 10, the wing plate 10 is arranged on the upper side of the supporting plate 9, clamping pieces 11 are symmetrically arranged on the front and back of the screening bin 1, an inserting hole 12 is formed in the left side of the supporting plate 9, inserting rods 13 are symmetrically arranged on the front and back of the lower end of the door frame 5, the inserting rods 13 are arranged on the inner side of the inserting hole 12, the clamping pieces 11 comprise bases fixed with the wall plates of the screening bin 1 and L-shaped clamping frames capable of rotating around the bases, a screwing structure is arranged on each clamping frame, the wing plate 10 is locked on the supporting plate 9 after the clamping frames are turned over onto the wing plate 10, the door frame 5 is assembled on the screening bin 1 through longitudinal inserting connection of the inserting rods 13 and the inserting holes 12, the door frame 5 can be quickly detached and kept stable in structure, and in practical use, and the door frame 5 can be fixed on the supporting plate 9 through matching screwing of bolts and nuts.

Meanwhile, a hanging bracket 14 is fixedly connected between the door frame 5 and the upper end of the guide bin 6, an end socket 15 is fixedly connected to the upper end of the door frame 5, a steering motor 16 is installed at the front end of the end socket 15, a bogie 17 is movably connected to the inner side of the end socket 15, the upper end of the bogie 17 is fixedly connected with a power output element of the steering motor 16, a material stirring rod 18 is installed at the lower end of the bogie 17, the guide bin 6 is suspended and fixed below the door frame 5 through the hanging bracket 14, the guide bin 6 is kept stable by being attached to a wall plate at the left end of the sieving bin 1, the steering motor 16 controls the bogie 17 to turn up and down, the rotating angle can be adjusted through industrial computer control, and a silica gel sleeve is arranged on the surface of the material stirring rod 18, so that flexible contact is generated between the sieve plate 3 and compound fertilizer.

In addition, the lower extreme fixed mounting of storehouse 1 sieves has extension board 19, locating hole 20 has been seted up to the extension board 19 inboard, fine material collecting box 7 right-hand member fixedly connected with locating lever 21, locating lever 21 set up in locating hole 20 inboard, fine material collecting box 7 set up in the extension board 19 left side, handle 22 is installed to coarse material collecting box 8 left end, fine material collecting box 7 with gyro wheel 23 is all installed to coarse material collecting box 8 lower extreme, and fine material collecting box 7 plays spacing effect through the mode that locating lever 21 horizontal insertion locating hole 20, prevents that fine material collecting box 7 from reciprocating, and pulling fine material collecting box 7 and coarse material collecting box 8 around holding handle 22, rolls on ground with the help of gyro wheel 23, shifts it to the assigned position fast.

When the compound fertilizer vibration screen discharging mechanism of the technical scheme is used, a user installs the sieving bin 1 below a discharge hole of compound fertilizer production equipment, compound fertilizer falls to the upper side of the sieve plate 3, then the vibrating unit 2 is started, the sieve plate 3 is controlled to vibrate at a high speed, the sieve plate 3 is provided with a certain inclined surface, the compound fertilizer continuously moves from right to left while vibrating, compound fertilizer with smaller particle size falls into the sieving bin 1 through the sieve holes 4 and finally slides into the fine material collecting box 7, the rest of compound fertilizer with thicker particle size moves to the lower part of the portal 5, the steering motor 16 is started, the bogie 17 is controlled to turn over at a certain frequency, the stirring rod 18 rotates back and forth between the sieve plate 3 and the portal 5, the rest of compound fertilizer is stirred into the guide bin 6, and then the rest of compound fertilizer falls into the coarse material collecting box 8.

Claims (7)

1. The compound fertilizer vibrating screen screening discharging mechanism comprises a screening bin (1) and a guide bin (6) arranged on the left side of the screening bin (1); the vibrating screen is characterized in that the vibrating unit (2) is arranged at the right end of the sieving bin (1), the sieve plate (3) is arranged on the inner side of the sieving bin (1), a plurality of sieve holes (4) are uniformly formed in the inner side of the sieve plate (3), the portal (5) is arranged at the upper end of the left side of the sieving bin (1), the fine material collecting box (7) is arranged below the left side of the sieving bin (1), the coarse material collecting box (8) is fixedly connected with the left end of the fine material collecting box (7), and the coarse material collecting box (8) is arranged below the guide bin (6).

2. The compound fertilizer vibrating screen blanking mechanism of claim 1, wherein the upper end of the sieving bin (1) is fixedly connected with a supporting plate (9), the upper end of the sieving plate (3) is fixedly connected with a wing plate (10), the wing plate (10) is arranged on the upper side of the supporting plate (9), and clamping pieces (11) are symmetrically arranged in front of and behind the sieving bin (1).

3. The compound fertilizer vibrating screen blanking mechanism of claim 2, wherein the left side of the supporting plate (9) is provided with an inserting hole (12), inserting rods (13) are symmetrically arranged at the front and back of the lower end of the portal frame (5), and the inserting rods (13) are arranged at the inner side of the inserting hole (12).

4. The compound fertilizer vibrating screen blanking mechanism of claim 1, wherein a hanging bracket (14) is fixedly connected between the portal (5) and the upper end of the guide bin (6), an end socket (15) is fixedly connected to the upper end of the portal (5), and a steering motor (16) is arranged at the front end of the end socket (15).

5. The compound fertilizer vibrating screen blanking mechanism of claim 4, wherein a bogie (17) is movably connected to the inner side of the end socket (15), the upper end of the bogie (17) is fixedly connected with a power output element of the steering motor (16), and a stirring rod (18) is arranged at the lower end of the bogie (17).

6. The compound fertilizer vibrating screen blanking mechanism of claim 1, wherein a support plate (19) is fixedly arranged at the lower end of the sieving bin (1), a positioning hole (20) is formed in the inner side of the support plate (19), a positioning rod (21) is fixedly connected to the right end of the fine material collecting box (7), and the positioning rod (21) is arranged in the inner side of the positioning hole (20).

7. The compound fertilizer vibrating screen blanking mechanism of claim 6, wherein the fine material collecting box (7) is arranged on the left side of the supporting plate (19), a handle (22) is arranged at the left end of the coarse material collecting box (8), and rollers (23) are arranged at the lower ends of the fine material collecting box (7) and the coarse material collecting box (8).