CN113209865A

CN113209865A - Efficient fertilizer manufacturing equipment

Info

Publication number: CN113209865A
Application number: CN202110569144.9A
Authority: CN
Inventors: 张刚
Original assignee: Guangzhou Dazixuan Technology Co ltd
Current assignee: Guangzhou Dazixuan Technology Co ltd
Priority date: 2021-05-25
Filing date: 2021-05-25
Publication date: 2021-08-06

Abstract

The invention relates to a high-efficiency fertilizer manufacturing device, which comprises a shell, a sealing cover, a discharging pipe, a driving motor and a transmission shaft, the sealing cover is covered on the top of the shell, the shell is provided with a mounting hole, the transmission shaft vertically penetrates through the mounting hole, the transmission shaft is connected with the inner wall of the mounting hole in a sliding and sealing way, the driving motor is connected with the top end of the transmission shaft in a transmission way, the driving motor is connected with the shell, the discharge pipe is arranged at the bottom of the shell and is communicated with the shell, a discharging device is arranged on the discharging pipe, a mixing mechanism and an auxiliary mechanism are arranged in the shell, the mixing mechanism comprises a connecting pipe, a screw rod, a rotating pipe, a supporting ring, a first bearing and a rotating assembly, this high-efficient type fertilizer preparation equipment has realized the function of mixing the raw materials through mixing mechanism, moreover, has still improved row material efficiency through complementary unit.

Description

Efficient fertilizer manufacturing equipment

Technical Field

The invention relates to the field of fertilizer and pesticide manufacturing, in particular to efficient fertilizer manufacturing equipment.

Background

The mixer is one of fertilizer manufacturing equipment, and the mixer is used for uniformly mixing various fertilizer manufacturing raw materials.

Present mixer is in the course of the work, and mixing time is longer, and work efficiency is lower, and so, present mixer is arranging the material in-process, because the stickness of limited fertilizer is great, easily adhesion in the mixer, and the material efficiency is arranged in the influence, has reduced the practicality.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, the efficient fertilizer manufacturing equipment is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a high-efficiency fertilizer manufacturing device comprises a shell, a sealing cover, a discharge pipe, a driving motor and a transmission shaft, wherein the sealing cover is arranged at the top of the shell in a covering manner, the shell is provided with a mounting hole, the transmission shaft vertically penetrates through the mounting hole, the transmission shaft is in sliding and sealing connection with the inner wall of the mounting hole, the driving motor is in transmission connection with the top end of the transmission shaft, the driving motor is connected with the shell, the discharge pipe is arranged at the bottom of the shell and communicated with the shell, the discharge pipe is provided with a discharge device, and a mixing mechanism and an auxiliary mechanism are arranged in the shell;

the mixing mechanism comprises a connecting pipe, a screw rod, a rotating pipe, a supporting ring, a first bearing and a rotating assembly, wherein the connecting pipe, the screw rod, the rotating pipe, the supporting pipe and the supporting ring are all arranged coaxially with the transmission shaft, the top end of the connecting pipe is arranged at the bottom end of the transmission shaft in a sealing manner, the screw rod is arranged in the connecting pipe and matched with the connecting pipe, the screw rod is arranged at the bottom end of the transmission shaft, the connecting pipe penetrates through the supporting ring, the connecting ring is connected with the supporting ring in a sealing manner, the bottom end of the supporting pipe is arranged at the top end of the supporting ring in a sealing manner, the inner diameter of the supporting pipe is larger than the outer diameter of the connecting pipe, at least two through holes are arranged on the connecting pipe, the through holes are circumferentially and uniformly distributed between the transmission shaft and the supporting ring by taking the axis of the connecting pipe as the center, the top end of the rotating pipe is arranged at the bottom end of the sealing cover in a sealing manner, and the supporting pipe is inserted into the bottom end of the rotating pipe, the rotating pipe is connected with the supporting pipe in a sliding and sealing mode, at least two round holes are formed in the supporting pipe, at least two connecting holes are formed in the rotating pipe, the round holes and the connecting holes correspond to the through holes one by one, the round holes and the connecting holes are coaxially arranged, the inner ring of the first bearing is installed on the outer wall of the rotating pipe, the outer ring of the first bearing is connected with the sealing cover, and the transmission shaft is connected with the inner wall of the rotating pipe through the rotating assembly;

the auxiliary mechanism comprises at least two auxiliary assemblies, the auxiliary assemblies are circumferentially and uniformly distributed by taking the axis of the connecting pipe as a center, and the auxiliary assemblies are positioned below the supporting ring;

the auxiliary assembly comprises a magnet block, an electromagnet, a spring, a rotating rod, a connecting rod, a knocking block and a guide rod, the guide rod is vertically arranged at the bottom of the support ring, the magnet block is provided with a connecting hole, the guide rod penetrates through the connecting hole, the guide rod is connected with the inner wall of the connecting hole in a sliding way, the bottom of the magnet block is connected with the bottom end of the guide rod through a spring, the electromagnet is arranged between the magnet block and the support ring, the electromagnet is arranged on the guide rod, the axis of the rotating rod is vertical to and intersected with the axis of the connecting pipe, one end of the rotating rod is hinged with the outer wall of the connecting pipe, the knocking block is arranged at the other end of the rotating rod, the rotating rod is positioned below the guide rod, the connecting rod is obliquely arranged, the magnet block is hinged with the rotating rod through the connecting rod, the distance between one end of the connecting rod close to the magnet block and the connecting pipe is smaller than the distance between the other end of the connecting rod and the connecting pipe.

Preferably, in order to realize the reverse rotation of the rotating pipe and the supporting pipe, the rotating assembly comprises a driving disc, a driven disc, a second bearing and a connecting shaft, the driving disc and the driving shaft are informed to be arranged, a through hole is formed in the driving disc, the driving shaft penetrates through the through hole, the inner wall of the through hole is connected with the driving shaft, the connecting shaft is parallel to the driving shaft, the inner ring of the second bearing is arranged at the top end of the connecting shaft, the outer ring of the second bearing is connected with a sealing cover, the driven disc and the connecting shaft are coaxially arranged, the driven disc is arranged at the bottom end of the connecting shaft, the periphery of the driving disc is abutted against the periphery of the driven disc, and the periphery of the driven disc is abutted against the inner wall of the rotating pipe.

Preferably, in order to improve the reliability of the driving disc driving the driven disc to rotate, the driving disc is provided with anti-skid grains.

Preferably, in order to facilitate the installation of the transmission shaft, chamfers are arranged at both ends of the transmission shaft.

Preferably, the inner wall of the housing is a mirror surface in order to facilitate separation of the raw material from the housing.

Preferably, in order to promote the stirring effect, the top of each magnet piece all is equipped with the lifter, be equipped with the pilot hole on the support ring, the lifter vertically passes the pilot hole, the lifter slides and sealing connection with the inner wall of pilot hole, the top of lifter is located the stay tube, the bottom setting of lifter is on the magnet piece.

The efficient fertilizer manufacturing equipment has the advantages that the function of mixing raw materials is realized through the mixing mechanism, compared with the existing mixing mechanism, the mixing mechanism can improve the mixing efficiency, meanwhile, the caking in the raw materials can be crushed, the practicability is higher, not only is the discharging efficiency improved through the auxiliary mechanism, compared with the existing auxiliary mechanism, the auxiliary mechanism can further improve the mixing effect and the mixing efficiency of the raw materials through the reciprocating lifting of the magnet block and the reciprocating swing of the rotating rod, and the practicability is higher.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of an efficient fertilizer manufacturing apparatus according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of an auxiliary mechanism of the high efficiency fertilizer producing apparatus of the present invention;

FIG. 4 is a schematic view showing the construction of a rotating unit of the high efficiency type fertilizer producing apparatus of the present invention;

in the figure: 1. the automatic feeding device comprises a shell, 2 parts of a sealing cover, 3 parts of a discharging pipe, 4 parts of a driving motor, 5 parts of a transmission shaft, 6 parts of a connecting pipe, 7 parts of a screw rod, 8 parts of a rotating pipe, 9 parts of a supporting pipe, 10 parts of a supporting ring, 11 parts of a first bearing, 12 parts of a magnet block, 13 parts of an electromagnet, 14 parts of a spring, 15 parts of a rotating rod, 16 parts of a knocking block, 17 parts of a guide rod, 18 parts of a driving plate, 19 parts of a driven plate, 20 parts of a second bearing, 21 parts of a connecting shaft, 22 parts of a lifting rod and 23 parts of a connecting rod.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-2, an efficient fertilizer manufacturing apparatus comprises a housing 1, a sealing cover 2, a discharging pipe 3, a driving motor 4 and a transmission shaft 5, wherein the sealing cover 2 is covered on the top of the housing 1, the housing 1 is provided with a mounting hole, the transmission shaft 5 vertically penetrates through the mounting hole, the transmission shaft 5 slides and is hermetically connected with the inner wall of the mounting hole, the driving motor 4 is in transmission connection with the top end of the transmission shaft 5, the driving motor 4 is connected with the housing 1, the discharging pipe 3 is arranged at the bottom of the housing 1, the discharging pipe 3 is communicated with the housing 1, a discharging device is arranged on the discharging pipe 3, and a mixing mechanism and an auxiliary mechanism are arranged in the housing 1;

the mixing mechanism comprises a connecting pipe 6, a screw 7, a rotating pipe 8, a supporting pipe 9, a supporting ring 10, a first bearing 11 and a rotating assembly, wherein the connecting pipe 6, the screw 7, the rotating pipe 8, the supporting pipe 9 and the supporting ring 10 are all arranged coaxially with the transmission shaft 5, the top end of the connecting pipe 6 is arranged at the bottom end of the transmission shaft 5 in a sealing manner, the screw 7 is arranged in the connecting pipe 6, the screw 7 is matched with the connecting pipe 6, the screw 7 is arranged at the bottom end of the transmission shaft 5, the connecting pipe 6 penetrates through the supporting ring 10, the connecting ring is connected with the supporting ring 10 in a sealing manner, the bottom end of the supporting pipe 9 is arranged at the top of the supporting ring 10 in a sealing manner, the inner diameter of the supporting pipe 9 is larger than the outer diameter of the connecting pipe 6, at least two through holes are arranged on the connecting pipe 6, and the through holes are circumferentially and uniformly distributed between the transmission shaft 5 and the supporting ring 10 by taking the axis of the connecting pipe 6 as the center, the top end of the rotating pipe 8 is hermetically arranged at the bottom of the sealing cover 2, the supporting pipe 9 is inserted into the bottom end of the rotating pipe 8, the rotating pipe 8 is connected with the supporting pipe 9 in a sliding and sealing manner, at least two round holes are formed in the supporting pipe 9, at least two connecting holes are formed in the rotating pipe 8, the round holes and the connecting holes are in one-to-one correspondence with the through holes, the round holes and the connecting holes are coaxially arranged, the inner ring of the first bearing 11 is arranged on the outer wall of the rotating pipe 8, the outer ring of the first bearing 11 is connected with the sealing cover 2, and the transmission shaft 5 is connected with the inner wall of the rotating pipe 8 through a rotating assembly;

during the use of the device, the sealing cover 2 is opened, the raw materials for manufacturing the fertilizer are put into the shell 1 and then the sealing cover 2 is covered, at the moment, the discharge pipe 3 is in a sealing state through the discharge device, then, the driving motor 4 is started to rotate the transmission shaft 5, the transmission shaft 5 rotates to drive the connecting pipe 6 and the screw 7 to rotate, the raw materials can move upwards in the connecting pipe 6 and are conveyed into the supporting pipe 9 from the through hole through the rotation of the screw 7, the supporting pipe 9 is driven to rotate through the support ring 10 by the rotation of the connecting pipe 6, the rotation of the transmission shaft 5 drives the rotating pipe 8 to reversely rotate with the supporting pipe 9 under the supporting effect of the first bearing 11 through the rotating assembly, when the connecting hole is communicated with the round hole, the raw materials in the supporting pipe 9 can sequentially pass through the connecting hole and the round hole to be discharged under the effect of centrifugal force, and the steering directions of the supporting pipe 9 and the rotating pipe 8 are the same, the position of locating is different when through-hole and connecting hole intercommunication, then can be convenient for from connecting hole exhaust raw materials evenly distributed in casing 1, increased the stirring mode, improved stirring efficiency, moreover, through rising the raw materials in connecting pipe 6, can also realize the upper and lower stirring to the raw materials, promoted stirring effect, and, when the caking in the raw materials is located connecting hole and through-hole simultaneously, along with the antiport of rotating tube 8 and stay tube 9, can realize the crushing to the caking.

As shown in fig. 3, the auxiliary mechanism comprises at least two auxiliary assemblies which are uniformly distributed circumferentially around the axis of the connecting pipe 6 and are located below the support ring 10;

the auxiliary assembly includes magnet piece 12, electro-magnet 13, spring 14, dwang 15, connecting rod 23, strikes piece 16 and guide arm 17, the vertical bottom that sets up at support ring 10 of guide arm 17, be equipped with the connecting hole on magnet piece 12, guide arm 17 passes the connecting hole, the inner wall sliding connection of guide arm 17 and connecting hole, the bottom of magnet piece 12 is passed through spring 14 and is connected with the bottom of guide arm 17, electro-magnet 13 is located between magnet piece 12 and support ring 10, electro-magnet 13 sets up on guide arm 17, the axis of dwang 15 is perpendicular and crossing with the axis of connecting pipe 6, the one end of dwang 15 is articulated with the outer wall of connecting pipe 6, strike piece 16 and set up the other end at dwang 15, dwang 15 is located the below of guide arm 17, connecting rod 23 slope sets up, magnet piece 12 passes through connecting rod 23 and dwang 15 is articulated, the distance between one end of the connecting rod 23 close to the magnet block 12 and the connecting pipe 6 is smaller than the distance between the other end of the connecting rod 23 and the connecting pipe 6.

During the operation of the equipment, the electromagnet 13 is intermittently electrified, when the electromagnet 13 is electrified, the action force mutually exclusive between the electromagnet 13 and the magnet block 12 is generated, namely, the magnet block 12 moves downwards on the guide rod 17, the spring 14 is compressed, the downward movement of the magnet block 12 drives the rotating rod 15 to rotate downwards around the hinged point of the rotating rod 15 and the connecting pipe 6 through the connecting rod 23, the knocking block 16 is abutted against the bottom in the shell 1, when the electromagnet 13 is powered off, the magnet block 12 is reset through the elastic action of the spring 14, the resetting of the magnet block 12 drives the rotating rod 15 to rotate reversely through the connecting rod 23, the resetting is realized, the circulation is carried out, the bottom in the shell 1 is intermittently knocked through the knocking block 16, the caking in the raw materials can be knocked and crushed, the stirring effect is improved, during the discharge period, the raw materials in the shell 1 can be discharged from the discharge pipe 3 through the discharge device, and strike casing 1 through striking piece 16, can make casing 1 produce the vibration, can be convenient for the raw materials of adhesion on casing 1 and casing 1 separation under the effect of vibration, improve and arrange material efficiency.

As shown in fig. 4, the rotating assembly includes a driving disc 18, a driven disc 19, a second bearing 20 and a connecting shaft 21, the driving disc 18 and the transmission shaft 5 are informed to be disposed, a through hole is formed in the driving disc 18, the transmission shaft 5 penetrates through the through hole, the transmission shaft 5 is connected with the inner wall of the through hole, the connecting shaft 21 is parallel to the transmission shaft 5, the inner ring of the second bearing 20 is mounted at the top end of the connecting shaft 21, the outer ring of the second bearing 20 is connected with the sealing cover 2, the driven disc 19 and the connecting shaft 21 are coaxially disposed, the driven disc 19 is disposed at the bottom end of the connecting shaft 21, the periphery of the driving disc 18 abuts against the periphery of the driven disc 19, and the periphery of the driven disc 19 abuts against the inner wall of the rotating pipe 8.

The rotation of the transmission shaft 5 drives the driving disc 18 to rotate, the rotation of the driving disc 18 enables the disc to rotate through friction acting force, the rotation of the driven disc 19 drives the connecting shaft 21 to rotate under the supporting effect of the second bearing 20, and the rotation of the driven disc 19 also drives the rotating pipe 8 to rotate reversely with the driving disc 18 through friction acting force.

Preferably, in order to improve the reliability of the driving disk 18 driving the driven disk 19 to rotate, the driving disk 18 is provided with anti-skid threads.

The anti-slip pattern is used for improving the reliability of the driving disc 18 driving the driven disc 19 to rotate and preventing slip.

Preferably, in order to facilitate the installation of the transmission shaft 5, both ends of the transmission shaft 5 are provided with chamfers.

The chamfer angle is used for reducing the caliber of the transmission shaft 5 when the transmission shaft passes through the mounting hole, and the effect of convenient mounting is achieved.

Preferably, the inner wall of the housing 1 is a mirror surface in order to facilitate separation of the raw material from the housing 1.

The mirror surface is relatively smooth, so that the raw materials can be conveniently separated from the shell 1.

Preferably, in order to improve the stirring effect, the top of each magnet block 12 is provided with a lifting rod 22, the support ring 10 is provided with an assembly hole, the lifting rod 22 vertically penetrates through the assembly hole, the lifting rod 22 is connected with the inner wall of the assembly hole in a sliding and sealing manner, the top end of the lifting rod 22 is located in the support pipe 9, and the bottom end of the lifting rod 22 is arranged on the magnet block 12.

The magnet block 12 reciprocates and drives the lifting rod 22 to reciprocate, so that the lifting rod 22 can stir the raw materials in the supporting tube 9 up and down, and the raw material stirring effect can be improved.

During the use of the device, the sealing cover 2 is opened, the raw materials for manufacturing the fertilizer are put into the shell 1 and then the sealing cover 2 is covered, at the moment, the discharge pipe 3 is in a sealing state through the discharge device, then, the driving motor 4 is started to rotate the transmission shaft 5, the transmission shaft 5 rotates to drive the connecting pipe 6 and the screw 7 to rotate, the raw materials can move upwards in the connecting pipe 6 and are conveyed into the supporting pipe 9 from the through hole through the rotation of the screw 7, the supporting pipe 9 is driven to rotate through the support ring 10 by the rotation of the connecting pipe 6, the rotation of the transmission shaft 5 drives the rotating pipe 8 to reversely rotate with the supporting pipe 9 under the supporting effect of the first bearing 11 through the rotating assembly, when the connecting hole is communicated with the round hole, the raw materials in the supporting pipe 9 can sequentially pass through the connecting hole and the round hole to be discharged under the effect of centrifugal force, and the steering directions of the supporting pipe 9 and the rotating pipe 8 are the same, when the through hole is communicated with the connecting hole, the position of the through hole is different, the raw material discharged from the connecting hole can be conveniently and uniformly distributed in the shell 1, the stirring mode is increased, the stirring efficiency is improved, in addition, the raw material can be stirred up and down by lifting the raw material in the connecting pipe 6, the stirring effect is improved, in addition, when caking in the raw material is simultaneously positioned in the connecting hole and the through hole, the caking can be crushed along with the reverse rotation of the rotating pipe 8 and the supporting pipe 9, in addition, during the operation of the equipment, the electromagnet 13 is intermittently electrified, when the electromagnet 13 is electrified, the mutually repulsive acting force is generated between the electromagnet 13 and the magnet block 12, the magnet block 12 can be moved downwards on the guide rod 17, the spring 14 is compressed, the downward movement of the magnet block 12 drives the rotating rod 15 to rotate downwards around the hinged point of the rotating rod 15 and the connecting pipe 6 through the connecting rod 23, and make and strike the bottom in 16 and the casing 1 and lean on, when electro-magnet 13 outage, elastic action through spring 14 makes magnet piece 12 reset, the reset of magnet piece 12 drives dwang 15 antiport through connecting rod 23, realize resetting, so circulate, strike the bottom in the casing 1 through striking 16 intermittence of piece, can also strike and smash the caking in the raw materials, promote stirring effect, and during row material, can make the raw materials in the casing 1 discharge from row material pipe 3 through discharge device, and strike casing 1 through striking 16, can make casing 1 produce the vibration, can be convenient for under the effect of vibration on casing 1 the raw materials of adhesion separate with casing 1, improve row material efficiency.

Compared with the prior art, this high-efficient type fertilizer preparation equipment has realized the function of mixing raw materials through mixing mechanism, compare with current mixing mechanism, this mixing mechanism can also improve mixing efficiency, and simultaneously, can also realize the crushing to caking in the raw materials, and the practicality is stronger, moreover, still improve row material efficiency through complementary unit, compare with current complementary unit, this complementary unit passes through the reciprocal lift of magnet piece 12 and the reciprocal swing of dwang 15, can also further promote the mixed effect and the mixing efficiency of raw materials, and the practicality is stronger.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a high-efficient type fertilizer preparation equipment, includes casing (1), sealed lid (2), row material pipe (3), driving motor (4) and transmission shaft (5), sealed lid (2) are covered and are established at the top of casing (1), be equipped with the mounting hole on casing (1), transmission shaft (5) vertically pass the mounting hole, transmission shaft (5) slide and sealing connection with the inner wall of mounting hole, driving motor (4) are connected with the top transmission of transmission shaft (5), driving motor (4) are connected with casing (1), row material pipe (3) set up the bottom at casing (1), row material pipe (3) and casing (1) intercommunication, be equipped with the device on row material pipe (3), its characterized in that, be equipped with mixing mechanism and complementary unit in casing (1);

the mixing mechanism comprises a connecting pipe (6), a screw rod (7), a rotating pipe (8), a supporting pipe (9), a supporting ring (10), a first bearing (11) and a rotating assembly, wherein the connecting pipe (6), the screw rod (7), the rotating pipe (8), the supporting pipe (9) and the supporting ring (10) are coaxially arranged with a transmission shaft (5), the top end of the connecting pipe (6) is hermetically arranged at the bottom end of the transmission shaft (5), the screw rod (7) is arranged in the connecting pipe (6), the screw rod (7) is matched with the connecting pipe (6), the screw rod (7) is arranged at the bottom end of the transmission shaft (5), the connecting pipe (6) penetrates through the supporting ring (10), the connecting ring is hermetically connected with the supporting ring (10), the bottom end of the supporting pipe (9) is hermetically arranged at the top end of the supporting ring (10), and the inner diameter of the supporting pipe (9) is larger than the outer diameter of the connecting pipe (6), the connecting pipe (6) is provided with at least two through holes which are circumferentially and uniformly distributed between the transmission shaft (5) and the support ring (10) by taking the axis of the connecting pipe (6) as a center, the top end of the rotating pipe (8) is hermetically arranged at the bottom of the sealing cover (2), the supporting pipe (9) is inserted into the bottom end of the rotating pipe (8), the rotating pipe (8) is connected with the supporting pipe (9) in a sliding and sealing way, at least two round holes are arranged on the supporting pipe (9), the rotating pipe (8) is provided with at least two connecting holes, the round holes and the connecting holes are in one-to-one correspondence with the through holes, the round hole and the connecting hole are coaxially arranged, the inner ring of the first bearing (11) is arranged on the outer wall of the rotating pipe (8), the outer ring of the first bearing (11) is connected with the sealing cover (2), and the transmission shaft (5) is connected with the inner wall of the rotating pipe (8) through a rotating assembly;

the auxiliary mechanism comprises at least two auxiliary components which are circumferentially and uniformly distributed by taking the axis of the connecting pipe (6) as a center, and the auxiliary components are positioned below the supporting ring (10);

the auxiliary assembly comprises a magnet block (12), an electromagnet (13), a spring (14), a rotating rod (15), a connecting rod (23), a knocking block (16) and a guide rod (17), the vertical bottom of the support ring (10) is arranged on the guide rod (17), a connecting hole is formed in the magnet block (12), the guide rod (17) penetrates through the connecting hole, the guide rod (17) is connected with the inner wall of the connecting hole in a sliding manner, the bottom of the magnet block (12) is connected with the bottom end of the guide rod (17) through the spring (14), the electromagnet (13) is located between the magnet block (12) and the support ring (10), the electromagnet (13) is arranged on the guide rod (17), the axis of the rotating rod (15) is perpendicular to the axis of the connecting pipe (6) and is intersected with the axis of the connecting pipe (6), one end of the rotating rod (15) is hinged with the outer wall of the connecting pipe (6), the knocking block (16) is arranged at the other end of the rotating rod (15), dwang (15) are located the below of guide arm (17), connecting rod (23) slope sets up, magnet piece (12) are articulated through connecting rod (23) and dwang (15), the distance that is close to between one end of magnet piece (12) and connecting pipe (6) of connecting rod (23) is less than the distance between the other end of connecting rod (23) and connecting pipe (6).

2. The high-efficiency fertilizer production equipment according to claim 1, wherein the rotating assembly comprises a driving disc (18), a driven disc (19), a second bearing (20) and a connecting shaft (21), the driving disc (18) and the transmission shaft (5) are arranged in a notification manner, a through hole is formed in the driving disc (18), the transmission shaft (5) penetrates through the through hole, the transmission shaft (5) is connected with the inner wall of the through hole, the connecting shaft (5) is parallel to the transmission shaft (5), the inner ring of the second bearing (20) is arranged at the top end of the connecting shaft (21), the outer ring of the second bearing (20) is connected with the sealing cover (2), the driven disc (19) and the connecting shaft (21) are coaxially arranged, the driven disc (19) is arranged at the bottom end of the connecting shaft (21), and the periphery of the driving disc (18) abuts against the periphery of the driven disc (19), the periphery of the driven disc (19) abuts against the inner wall of the rotating pipe (8).

3. The efficient fertilizer production apparatus of claim 2, wherein said drive plate (18) is provided with anti-slip threads.

4. The high-efficiency fertilizer production equipment as claimed in claim 1, wherein both ends of the transmission shaft (5) are provided with chamfers.

5. The high-efficiency fertilizer production apparatus according to claim 1, wherein the inner wall of the casing (1) is a mirror surface.

6. The high-efficiency fertilizer production equipment as claimed in claim 1, wherein each magnet block (12) is provided at the top with a lifting rod (22), the support ring (10) is provided with an assembly hole, the lifting rod (22) vertically passes through the assembly hole, the lifting rod (22) is slidably and hermetically connected with the inner wall of the assembly hole, the top end of the lifting rod (22) is located in the support tube (9), and the bottom end of the lifting rod (22) is arranged on the magnet block (12).