CN216441056U - Column granule bacterial manure finished product classifying screen - Google Patents

Abstract

The utility model discloses a columnar granular bacterial manure finished product grading sieve which comprises a device main body and a buffer spring, wherein the buffer spring is arranged below the device main body and is arranged above supporting legs, a first discharge hole is formed in the middle of the bottom of the device main body, a second discharge hole is formed in the side edge of the device main body, a cover plate is hinged to the top of the device main body, a controller is arranged on the right side of the cover plate, a vibrator is arranged on the left side of the controller, a feed chute is arranged on the left side of the cover plate, and a placing chute is clamped inside the feed chute. This column granule bacterial manure finished product classifying screen when the bacterial manure finished product is placed on the feed chute, opens vibrating device through the controller, then passes through the feed chute with the bacterial manure finished product and enters into the standing groove in, the standing groove moves down along with the weight increase of bacterial manure, the left driving lever of standing groove moves down and contacts the sensor, sensor controller control electric valve opens, then the inside bacterial manure finished product of standing groove reachs on the screening board.

Description

Column granule bacterial manure finished product classifying screen

Technical Field

The utility model relates to the technical field of bacterial manure finished product grading sieves, in particular to a columnar granular bacterial manure finished product grading sieve.

Background

The bacterial manure is a nutrient fertilizer which is generally added to crops in the process of crop growth, the bacterial manure used by different crops is different in type, and different volumes of the same bacterial manure can be used for different crops, so that finished products of the bacterial manure need to be screened, and the method relates to a columnar granular bacterial manure finished product grading screen.

Common column granule bacterial manure finished product classifying screen can not the inside bacterial manure volume of quantitative control screening plant in the bacterial manure finished product feeding on the existing market, leads to the bacterial manure material loading inhomogeneous, can not make full use of screening plant, and the screening board clearance of general screening plant is got up more troublesome, just leads to screening plant's screening efficiency to reduce, to above-mentioned problem, carries out the innovative design on the basis of original bacterial manure finished product classifying screen.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a columnar granular bacterial manure finished product grading sieve, which is used for solving the problems that the conventional columnar granular bacterial manure finished product grading sieve in the market, which is provided in the background art, cannot quantitatively control the bacterial manure amount in a sieving device when a bacterial manure finished product is fed, so that the bacterial manure feeding is uneven, the sieving device cannot be fully utilized, and the sieving efficiency of the sieving device is reduced due to the fact that a sieving plate of a common sieving device is troublesome to clean.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a column granule bacterial manure finished product classifying screen, includes device main part and buffer spring, buffer spring is installed to the below of device main part, and buffer spring installs the top at the supporting leg, install first discharge gate in the middle of the bottom of device main part, and the side of device main part installs the second discharge gate to the top of device main part articulates there is the apron, the controller is installed on the right side of apron, and the left side of controller is provided with the vibrator, the feed chute is installed in the left side of apron, and the inside block of feed chute has the standing groove to electric valve is installed to the bottom of standing groove, the inside of standing groove is provided with the extrusion spring, and the block of standing groove has the floating gate.

Preferably, the inner bearing of the device body is connected with a motor screw rod, a belt is sleeved on the periphery of the motor screw rod, one end of the belt is arranged on the rotating rod, a ratchet wheel is installed on the rotating rod, a pawl is meshed with one side of the ratchet wheel, and the pawl is installed inside the right side of the device body.

Preferably, the inside of device main part is provided with the screening board, and the screening board is the inside of inclination setting in the device main part to the lowest department of screening board all corresponds there is the second discharge gate, the left side bearing of screening board is connected in the device main part, and the right side of screening board is installed on the bull stick.

Preferably, the buffer springs are symmetrically installed at the bottom of the device body, one ends of the buffer springs are connected to the supporting legs, the supporting legs are symmetrically arranged at the bottom of the device body, the bottom of the device body is funnel-shaped, the right side of the device body is provided with the motor lead screw, and the left side of the motor lead screw penetrates through the device body.

Preferably, the floating gate is symmetrically installed above the feeding chute and consists of a T-shaped block and a U-shaped block, an extrusion spring is wound around the periphery of the T-shaped block of the floating gate, one end of the floating gate is connected with a pull rope, one end of the pull rope is connected to a gear, one section of the pull rope is arranged on a support, and the support is installed inside the feeding chute.

Preferably, a shifting lever is installed below the left side of the placing groove and can be in contact with the sensor through moving downwards, moving plates are symmetrically installed on two sides of the placing groove, tooth blocks are evenly distributed on one side of each moving plate, gears are meshed on the tooth blocks of the moving plates, a compression spring is installed below each moving plate, and one end of each compression spring is installed on the feeding groove.

Compared with the prior art, the utility model has the beneficial effects that: the finished product of the columnar granular bacterial manure is sieved,

1. when the finished bacterial manure is placed on the feeding groove, the vibrating device is turned on through the controller, then the finished bacterial manure enters the placing groove through the feeding groove, the placing groove is made to move downwards along with the increase of the weight of the bacterial manure to drive the moving plates on two sides to move downwards, the tooth blocks on the moving plates drive the meshed gears to move downwards, the gears rotate to loosen the pull ropes, the extrusion springs rebound to drive the moving doors to close the feeding groove, so that the feeding groove is not fed, the shift lever on the left side of the placing groove moves downwards to contact the sensor in the downward moving process of the placing groove, the sensor controls the electric valve to be opened through the controller, then the finished bacterial manure in the placing groove reaches the screening plate, when the bacterial manure in the placing groove gradually decreases, the compression springs drive the moving plates to move upwards, so that the tooth blocks on the moving plates drive the meshed gears to rotate, and the pull ropes are tightened by the gears, the pull rope pulls the movable door to open, so that finished bacterial manure products can be continuously added for screening, the quantity of the finished bacterial manure products entering the screening device can be automatically controlled, and high-efficiency screening is achieved;

2. when needs clear up the screening board, can be rotatory through controller control motor lead screw, it is rotatory that the motor lead screw is rotatory to drive the bull stick through the belt, and the bull stick is rotatory to drive the screening board rotatory, and when the screening board rotated under the vertical state, the staff can clear up the inside screening board of device main part through opening the apron to make screening plant clearance get up conveniently, can improve holistic production efficiency.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the overall front view of the screen panel rotation configuration of the present invention;

FIG. 3 is an enlarged schematic view of a cross-sectional front view of the feed chute of the present invention;

FIG. 4 is a schematic top sectional view of the sieving plate and the discharge port of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 6 is a side view of the ratchet-pawl assembly of the present invention.

In the figure: 1. a device main body; 2. a buffer spring; 3. supporting legs; 4. a first discharge port; 5. a second discharge port; 6. a cover plate; 7. a controller; 8. a vibrator; 9. a feed chute; 10. a placement groove; 11. an electrically operated valve; 12. a deflector rod; 13. moving the plate; 14. a compression spring; 15. a gear; 16. a support; 17. Pulling a rope; 18. a movable door; 19. extruding the spring; 20. a motor lead screw; 21. a belt; 22. a rotating rod; 23. a ratchet wheel; 24. a pawl; 25. a screening plate; 26. a sensor.

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 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 invention.

Referring to fig. 1-6, the present invention provides a technical solution: a columnar granular bacterial manure finished product grading sieve comprises a device main body 1 and buffer springs 2, wherein the buffer springs 2 are installed below the device main body 1, the buffer springs 2 are installed above supporting legs 3, a first discharge hole 4 is installed in the middle of the bottom of the device main body 1, a second discharge hole 5 is installed on the side edge of the device main body 1, a cover plate 6 is hinged to the top of the device main body 1, a motor lead screw 20 is connected to an inner bearing of the device main body 1, a belt 21 is sleeved on the periphery of the motor lead screw 20, one end of the belt 21 is arranged on a rotating rod 22, a ratchet wheel 23 is installed on the rotating rod 22, a pawl 24 is meshed on one side of the ratchet wheel 23, the pawl 24 is installed inside the right side of the device main body 1, a sieving plate 25 is arranged inside the device main body 1, the sieving plate 25 is arranged inside the device main body 1 in an inclined angle mode, and the lowest position of the sieving plate 25 corresponds to the second discharge hole 5, the left bearing of the screening plate 25 is connected on the device main body 1, the right side of the screening plate 25 is arranged on the rotating rod 22, the buffer springs 2 are symmetrically arranged at the bottom of the device main body 1, one end of each buffer spring 2 is connected on the supporting leg 3, the supporting legs 3 are symmetrically arranged at the bottom of the device main body 1, the bottom of the device main body 1 is in a funnel shape, the right side of the device main body 1 is provided with a motor screw rod 20, and the left side of the motor screw rod 20 penetrates through the device main body 1, so that the rotation of the motor screw rod 20 is facilitated, the belt 21 drives the rotating rod 22 to rotate, the rotating rod 22 rotates to drive the screening plate 25 to rotate, so that the sieving plate 25 is vertically disposed inside the apparatus body 1, and then a person can open the cover plate 6, cleaning the screening plate 25 in the device main body 1, so that the finished bacterial manure screening device is convenient to clean;

the controller 7 is installed on the right side of the cover plate 6, the vibrator 8 is arranged on the left side of the controller 7, the feed chute 9 is installed on the left side of the cover plate 6, the placing groove 10 is clamped inside the feed chute 9, the electric valve 11 is installed at the bottom of the placing groove 10, the extrusion spring 19 is arranged inside the placing groove 10, the movable door 18 is clamped inside the placing groove 10, the movable door 18 is symmetrically installed above the feed chute 9, the movable door 18 is composed of a T-shaped block and a U-shaped block, the extrusion spring 19 is arranged around the T-shaped block of the movable door 18, one end of the movable door 18 is connected with the pull rope 17, one end of the pull rope 17 is connected to the gear 15, one section of the pull rope 17 is arranged on the support 16, and the support 16 is installed inside the feed chute 9;

the shifting rod 12 is installed below the left side of the placing groove 10, the shifting rod 12 can be contacted with the sensor 26 through downward movement, the moving plates 13 are symmetrically installed on two sides of the placing groove 10, tooth blocks are evenly distributed on one side of the moving plates 13, gears 15 are meshed on the tooth blocks of the moving plates 13, compression springs 14 are installed below the moving plates 13, one ends of the compression springs 14 are installed on the feeding groove 9, when bacterial manure finished products fall into the placing groove 10 through the feeding groove 9, the placing groove 10 moves downwards along with the increase of the weight of the internal bacterial manure, the placing groove 10 moves downwards to drive the moving plates 13 to move downwards, the tooth blocks on the moving plates 13 drive the meshing gears 15 to rotate, the gears 15 rotate to drive the pull ropes 17 to loosen, then the extrusion springs 19 drive the moving doors 18 to seal the feeding groove 9 through rebound, so that feeding is not performed, and meanwhile, the placing groove 10 moves downwards to drive the shifting rod 12 to move downwards, deflector rod 12 moves down and contacts with sensor 26, and sensor 26 sends the signal and gives controller 7, and controller 7 control electric valve 11 opens the unloading for bacterial manure falls into on screening board 25 from the inside of standing groove 10, then vibrating device passes through the vibration and drives column granule bacterial manure finished product and sieve.

The working principle is as follows: according to the figures 1-3, firstly, a worker puts bacterial manure into a feeding groove 9, then the bacterial manure falls into a placing groove 10, along with the increase of the weight of the bacterial manure, the placing groove 10 moves downwards to drive a shifting rod 12 to move downwards, the shifting rod 12 moves downwards to be contacted with a sensor 26, the sensor 26 controls an electric valve 11 to be opened through a controller 7, the bacterial manure falls onto a screening plate 25 from the placing groove 10, meanwhile, a vibrator 8 is opened, the vibrator 8 vibrates the device main body 1 to facilitate the bacterial manure to be screened in a vibration mode on the screening plate 25, a buffer spring 2 carries out buffer support on the device main body 1 through a supporting leg 3, so that the whole device main body 1 is subjected to vibration screening uniformly, when the placing groove 10 moves downwards, a moving plate 13 is driven to move downwards, a tooth block on the moving plate 13 drives a meshed gear 15 to rotate, the gear 15 rotates to enable a pulling rope 17 to loosen, then an extrusion spring 19 drives a moving door 18 to move oppositely to close the feeding groove 9, when the bacterial manure in the placing groove 10 is reduced, the compression spring 14 drives the placing groove 10 to move upwards through the movable plate 13, the movable plate 13 moves upwards to drive the meshed gear 15 to rotate through the tooth blocks, the gear 15 rotates to drive the pull rope 17 to tighten, the placing groove 10 is fed, and therefore the screening of the bacterial manure screening device is changed into automatic feeding and quantitative screening, and the production efficiency can be improved;

according to the figures 1-6, when the screening plate 25 needs to be cleaned, the controller 7 can control the motor screw 20 to rotate, the motor screw 20 drives the rotating rod 22 to rotate through the belt 21, the rotating rod 22 drives the screening plate 25 to rotate, thereby changing the situation that the worker opens the cover plate 6 to clean the vertical screening plate 25 in the device main body 1, leading the cleaning of the columnar granular bacterial manure finished product screening device to be convenient, after the cleaning is finished, similarly, the motor screw rod 20 drives the rotating rod 22 to rotate through the belt 21, the rotating rod 22 drives the sieving plate 25 to reset, meanwhile, the pawl 24 meshes and fixes the ratchet wheel 23 on the rotating rod 22, so that the screening plate 25 is stably arranged in the device main body 1, the subsequent screening work of the finished bacterial manure is convenient, the above is the operation of the whole device, and the details which are not described in detail in this specification are well known to those skilled in the art.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a fertile finished product classifying screen of column granule fungus, includes device main part (1) and buffer spring (2), its characterized in that: a buffer spring (2) is arranged below the device main body (1), the buffer spring (2) is arranged above the supporting leg (3), a first discharge hole (4) is arranged in the middle of the bottom of the device main body (1), a second discharge hole (5) is arranged on the side edge of the device main body (1), and the top of the device main body (1) is hinged with a cover plate (6), the right side of the cover plate (6) is provided with a controller (7), a vibrator (8) is arranged on the left side of the controller (7), a feeding groove (9) is arranged on the left side of the cover plate (6), a placing groove (10) is clamped inside the feeding groove (9), and an electric valve (11) is installed at the bottom of the placing groove (10), an extrusion spring (19) is arranged in the placing groove (10), and a movable door (18) is clamped on the placing groove (10).

2. The cylindrical granular bacterial manure finished product grading sieve as claimed in claim 1, wherein: the device is characterized in that a motor screw rod (20) is connected to an internal bearing of the device body (1), a belt (21) is sleeved on the periphery of the motor screw rod (20), one end of the belt (21) is arranged on a rotating rod (22), a ratchet wheel (23) is installed on the rotating rod (22), a pawl (24) is meshed on one side of the ratchet wheel (23), and the pawl (24) is installed inside the right side of the device body (1).

3. The cylindrical granular bacterial manure finished product grading sieve as claimed in claim 1, wherein: the inside of device main part (1) is provided with screening board (25), and screening board (25) are the inclination and set up in the inside of device main part (1) to the lowest of screening board (25) all corresponds to there is second discharge gate (5), the left side bearing of screening board (25) is connected on device main part (1), and the right side of screening board (25) is installed on bull stick (22).

4. The cylindrical granular bacterial manure finished product grading sieve as claimed in claim 1, wherein: buffer spring (2) symmetry is installed in the bottom of device main part (1), and the one end of buffer spring (2) is connected on supporting leg (3) to supporting leg (3) symmetry sets up the bottom at device main part (1), the bottom of device main part (1) is the funnel shape, and the right side of device main part (1) is provided with motor lead screw (20) to device main part (1) is run through in the left side of motor lead screw (20).

5. The cylindrical granular bacterial manure finished product grading sieve as claimed in claim 1, wherein: the movable door (18) is symmetrically installed above the feeding chute (9), the movable door (18) is composed of a T-shaped block and a U-shaped block, an extrusion spring (19) is arranged around the T-shaped block of the movable door (18), one end of the movable door (18) is connected with a pull rope (17), one end of the pull rope (17) is connected to the gear (15), one section of the pull rope (17) is arranged on the support (16), and the support (16) is installed inside the feeding chute (9).

6. The cylindrical granular bacterial manure finished product grading sieve as claimed in claim 1, wherein: driving lever (12) are installed to the left side below of standing groove (10), and driving lever (12) can contact with sensor (26) each other through moving down, movable plate (13) are installed to the bilateral symmetry of standing groove (10), and one side evenly distributed of movable plate (13) has the tooth piece to the meshing has gear (15) on the tooth piece of movable plate (13), compression spring (14) are installed to the below of movable plate (13), and the one end of compression spring (14) is installed on feed chute (9).

Images