CN215049753U - Organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation - Google Patents

Abstract

The utility model relates to a can realize high-efficient stirring fermentation's fertilizer fermentation processing system. The fermentation tank comprises more than two groups of fermentation tanks, wherein the tank walls on the two sides are enclosing walls extending along the transverse direction, and transverse guide rails are arranged on the enclosing walls; the device also comprises a material turning device and a conveying device; the material turning device comprises a movable platform, a mobile driving device and a material turning mechanism; the material turning mechanism comprises a connecting arm, a material turning rotating shaft, a blade unit and a material turning driving assembly; the conveying device comprises two longitudinal guide rails, a movable support and a conveying driving assembly; the movable support is provided with a conveying guide rail, and the conveying guide rail is also provided with a limiting rod. The utility model discloses can be in fermentation vat horizontal reciprocating motion to carry out even stirring through stirring mechanism, thereby replace artifical stirring process, provide work efficiency, guarantee the homogeneity of stirring, the stirring device can make a round trip to switch between each fermentation vat under conveyor's drive moreover, can satisfy the stirring use of a plurality of fermentation vats, full automation degree is high.

Description

Organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation

Technical Field

The utility model relates to a fertilizer production facility is a can realize high-efficient stirring fermentation's fertilizer fermentation processing system very much.

Background

In the fermentation process of the organic fertilizer, raw materials including animal wastes, straw, animal internal organs, zymophyte and the like are required to be mixed and then stored in a fermentation tank for fermentation, and in order to ensure the uniformity of organic fertilizer fermentation, accelerate the fermentation of the raw materials and avoid the odor generated by static composting of the raw materials, the raw materials in the fermentation process need to be turned. The existing material turning process is mostly carried out in a manual mode, the efficiency of the manual construction process is low, the material turning is not thorough enough, and time and labor are wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: overcome above shortcoming and provide a fertilizer fermentation processing system that can realize high-efficient stirring fermentation, this stirring system can horizontal reciprocating motion in the fermentation vat to carry out even stirring through stirring mechanism, thereby replace artifical stirring process, provide work efficiency, guarantee the homogeneity of stirring, stirring device can make a round trip to switch between each fermentation vat under conveyor's drive moreover, can satisfy the stirring use of a plurality of fermentation vats, full automation degree is high.

The utility model discloses a following technical scheme realizes: the utility model provides a can realize high-efficient stirring fermentation's fertilizer fermentation processing system which characterized in that: the fermentation tank comprises more than two groups of fermentation tanks which are sequentially arranged at intervals along the longitudinal direction, wherein a storage groove which extends along the transverse direction and is concave downwards and used for storing organic fertilizer is arranged in the middle of each fermentation tank, the groove walls at the two longitudinal sides of each storage groove are enclosing walls which extend along the transverse direction, the top of each enclosing wall is fixedly provided with a transverse guide rail which extends along the transverse direction, the adjacent positions of two adjacent fermentation tanks share one enclosing wall, and the same transverse side of each storage groove is opened outwards along the transverse direction to form an open opening; the longitudinal distance between the two transverse guide rails of each group of fermentation tanks is equal, and the height positions of the transverse guide rails of each group of fermentation tanks are equal;

the organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation further comprises a material turning device which is movably connected to the fermentation tanks and used for turning materials in the fermentation tanks, and a conveying device which is arranged on the outer sides of the corresponding open openings of the fermentation tanks and used for driving the material turning device to move back and forth among the fermentation tanks;

the stirring device comprises a movable platform, a moving driving device and a stirring mechanism, wherein the movable platform extends along the longitudinal direction and is erected above the two transverse guide rails, the moving driving device is connected between the movable platform and the two transverse guide rails and is used for driving the movable platform to reciprocate along the transverse extending direction of the transverse guide rails, and the stirring mechanism is arranged on the movable platform and can extend into a storage groove of the fermentation tank to stir the organic fertilizer;

the stirring mechanism comprises two connecting arms which are fixedly connected to the two longitudinal sides of the bottom of the movable platform and extend downwards to the storage groove of the fermentation tank along the vertical direction, stirring rotating shafts which extend along the longitudinal direction and are respectively and rotatably connected to the lower ends of the two connecting arms at the two longitudinal ends, a plurality of groups of blade units which are arranged on the periphery of the stirring rotating shafts and are distributed at intervals along the axial direction, and a stirring driving assembly which is connected between the movable platform and the stirring rotating shafts and is used for driving the stirring rotating shafts to rotate;

the conveying device comprises two longitudinal guide rails which are arranged on the outer sides of the corresponding open mouths of the fermentation tanks at intervals along the transverse direction and extend along the longitudinal direction, a movable support which is movably connected to the two longitudinal guide rails, and a conveying driving device which is connected between the movable support and the longitudinal guide rails and is used for driving the movable support to reciprocate along the longitudinal extension direction of the longitudinal guide rails;

the movable support is provided with two conveying guide rails which can be butted with two transverse guide rails of the fermentation tank and extend along the transverse direction, the material turning device can move to the two conveying guide rails of the movable support along the transverse extending direction of the two transverse guide rails, and a limiting rod which extends upwards along the vertical direction and is used for limiting the transverse moving stroke of the material turning device is further arranged on one transverse side of the conveying guide rail far away from the fermentation tank.

For the convenience of even stirring, every blade unit all includes that two are located respectively the same radial direction both ends of stirring pivot and fixed connection extend convex blade seat and two respectively fixed mounting the stirring blade on two blade seats on stirring pivot periphery wall and along keeping away from the axis direction, the stirring blade is from the fixed connection position with the blade seat to the axial lopsidedness of stirring pivot gradually to the in-process of keeping away from the direction extension of axis, and the slope direction of two stirring blades in the same blade unit is opposite to the blade seat of two adjacent blade units is in different radial directions.

Preferably, the movement driving device comprises two movement rotating shafts which are rotatably connected to two transverse sides of the bottom of the movable platform and extend along the longitudinal direction, movement rollers which are coaxially and fixedly connected to two longitudinal ends of each movement rotating shaft and can roll on two transverse guide rails along the transverse direction, and a movement driving assembly which is connected between the movable platform and the two movement rotating shafts and is used for driving the two movement rotating shafts to synchronously rotate;

the movable driving assembly comprises a movable driving motor fixedly mounted on the movable platform, two driven chain wheels respectively and coaxially and fixedly mounted on the two movable rotating shafts, a driving chain wheel coaxially and fixedly mounted on an output shaft of the movable driving motor and respectively corresponding to the two driven chain wheels, and two chains respectively in transmission connection between the two driven chain wheels and the two corresponding driving chain wheels.

Preferably, the conveying driving device comprises two conveying rotating shafts which are rotatably connected to two longitudinal sides of the bottom of the movable support and extend along the transverse direction, conveying rollers which are coaxially and fixedly connected to two transverse ends of each conveying rotating shaft and can roll on two longitudinal guide rails in a sliding manner along the longitudinal direction, and a conveying driving assembly which is connected between the movable support and the corresponding conveying rotating shaft and is used for driving the corresponding conveying rotating shaft to rotate.

In order to facilitate the retraction of the power cord, the power cord retraction device is also included for retracting the power cord;

the power line winding and unwinding device comprises a winding rotating body used for winding a power line and a winding and unwinding driving motor connected with the winding rotating body and used for driving the winding rotating body to rotate, a motor output shaft of the winding and unwinding driving motor extends along the longitudinal direction, the winding rotating body comprises a cylinder coaxially and fixedly arranged on the periphery of the motor output shaft of the winding and unwinding driving motor, limiting disk bodies coaxially and respectively arranged at two longitudinal ends of the cylinder, and a plurality of supporting rods fixedly connected between the middle parts of the two limiting disk bodies and distributed at intervals along the same circumferential direction around the central line of the limiting disk bodies, hollow cavities extending along the longitudinal direction are respectively arranged at the middle parts of the axial lines of the cylinder and the motor output shaft of the winding and unwinding driving motor, one end of the winding and unwinding power line is connected with a power supply device, and the middle parts of the winding and unwinding power line are wound on the peripheral wall of a cylinder formed by the plurality of supporting rods around the winding rotating body, and the other end of the retractable power line penetrates through the cylinder and the hollow cavity of the motor output shaft to supply power for the retractable driving motor, the material turning driving assembly and the mobile driving device.

In order to facilitate stopping the materials, the turning device also comprises a material stopping component which is connected to one transverse side of the movable platform corresponding to the opening of the storage groove and used for stopping the turned materials so as to prevent the materials from falling out of the opening of the storage groove;

the material blocking assembly comprises a material blocking rotating shaft extending along the longitudinal direction, a material blocking plate which is rotatably connected to the movable platform and extends downwards, and an angle adjusting assembly which is used for adjusting the rotating angle of the material blocking plate around the material blocking rotating shaft.

In order to facilitate the angle of adjusting the striker plate, the angle adjusting assembly comprises a screw rod, a nut seat, two guide rods and a screw rod driving motor, wherein the screw rod extends along the transverse direction and is rotatably connected to the movable platform, the nut seat is in threaded connection with the periphery of the screw rod, the two guide rods are respectively arranged on the two longitudinal sides of the screw rod and extend along the transverse direction, the guide rods are used for transversely guiding the nut seat along the transverse direction, the two ends of the guide rods are respectively hinged to the nut seat and the striker plate, and the screw rod driving motor is installed on the movable platform and is connected with the screw rod and used for driving the screw rod to rotate.

Preferably, travel switches for limiting the movement travel of the material turning device on the two transverse sides are further arranged on the two transverse side walls of the movable platform.

Compared with the prior art, the utility model has the advantages that:

1. the utility model relates to a can realize fertilizer fermentation processing system of high-efficient stirring fermentation, this stirring system can horizontal reciprocating motion in the fermentation vat to carry out even stirring through stirring mechanism, thereby replace artifical stirring process, provide work efficiency, guarantee the homogeneity of stirring, the stirring device can make a round trip to switch between each fermentation vat under conveyor's drive moreover, can satisfy the stirring use of a plurality of fermentation vats, full automation degree is high.

2. The utility model relates to a can realize high-efficient stirring fermentation's fertilizer fermentation processing system, this stirring device still are equipped with the power cord winding and unwinding devices who is used for receiving and releasing the power cord, and the speed of receiving and unwinding of power cord is used with stirring device's moving speed relatively, can avoid the power cord to pull and remove and the problem of stacking in a jumble.

3. The utility model relates to a can realize high-efficient stirring fermented fertilizer fermentation processing system, this stirring device still are equipped with and keep off the material subassembly, can keep off the material that the stirring machine constructs the jack-up, avoid the material to fly up too high and fall out from opening one side and upper portion opening.

Drawings

FIG. 1 is a schematic diagram of a three-dimensional structure of an organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation;

FIG. 2 is a schematic structural view of a stirring device and a fermentation tank in an organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation of the utility model;

FIG. 3 is a schematic structural view of a conveying device in an organic fertilizer fermentation treatment system capable of realizing efficient turnover fermentation;

FIG. 4 is a schematic structural diagram I of a material turning device in an organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation according to the present invention;

FIG. 5 is a schematic structural diagram II of a material turning device in the organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation of the utility model;

FIG. 6 is a schematic diagram of the transmission relationship of the mobile driving device in the organic fertilizer fermentation treatment system capable of realizing efficient turnover fermentation of the present invention;

fig. 7 is a schematic diagram of the transmission relationship of the material turning mechanism in the organic fertilizer fermentation treatment system capable of realizing high-efficiency material turning fermentation.

Description of reference numerals: 1-fermentation tank, 11-storage groove, 12-enclosing wall, 13-transverse guide rail, 2-movable platform, 3-movable driving device, 31-movable rotating shaft, 32-movable roller, 33-movable driving component, 331-movable driving motor, 332-driven sprocket, 333-driving sprocket, 334-chain, 4-stirring mechanism, 41-connecting arm, 42-stirring rotating shaft, 43-blade unit, 431-blade seat, 432-stirring blade, 44-stirring driving component, 5-power line winding and unwinding device, 51-winding body, 511-cylinder, 512-limiting disc body, 513-supporting rod, 52-winding and unwinding driving motor, 53-hollow cavity, 6-material stopping component, 13-transverse guide rail, 2-movable platform, 3-movable driving device, 31-movable rotating shaft, 32-movable roller, 33-movable driving component, 331-movable driving motor, 431-blade seat, 432-stirring blade, 44-stirring driving component, 5-power line winding and unwinding device, 51-winding body, 511-cylinder, 512-limiting disc body, 513-supporting rod, 52-winding and unwinding driving motor, 53-hollow cavity, 6-material stopping component, 6-stopping component, transverse guide rail, and winding device, 61-material blocking rotating shaft, 62-material blocking plate, 63-angle adjusting component, 631-screw rod, 632-nut, 633-guide rod, 634-connecting rod, 635-screw rod driving motor, 7-travel switch, 8-conveying device, 81-longitudinal guide rail, 82-movable support, 83-conveying driving device, 831-conveying rotating shaft, 832-conveying roller, 833-conveying driving component, 84-conveying guide rail, 85-limiting rod and a-power line.

Detailed Description

The invention is explained in detail below with reference to the accompanying drawings:

as shown in fig. 1-7, an organic fertilizer fermentation treatment system capable of realizing efficient material turning and fermentation is characterized in that: the fermentation tank comprises more than two groups of fermentation tanks 1 which are sequentially arranged at intervals along the longitudinal direction, wherein a storage groove 11 which extends along the transverse direction and is concave downwards and used for storing organic fertilizer is arranged in the middle of each fermentation tank 1, the groove walls at the two longitudinal sides of each storage groove 11 are enclosing walls 12 which extend along the transverse direction, the top of each enclosing wall 12 is fixedly provided with a transverse guide rail 13 which extends along the transverse direction, the adjacent positions of two adjacent fermentation tanks 1 share one enclosing wall 12, and the transverse same side of each storage groove 11 is opened outwards along the transverse direction to form an open opening; the longitudinal distance between the two transverse guide rails 13 of each group of fermentation tanks 1 is equal, and the height positions of the transverse guide rails 13 of each group of fermentation tanks 1 are equal;

the organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation further comprises a material turning device which is movably connected to the fermentation tank 1 and used for turning the materials in the fermentation tank 1, and a conveying device 8 which is arranged on the outer side of the corresponding opening of the fermentation tank 1 and used for driving the material turning device to move back and forth among the fermentation tanks 1;

the stirring device comprises a movable platform 2 extending along the longitudinal direction and erected above two transverse guide rails 13, a moving driving device 3 connected between the movable platform 2 and the two transverse guide rails 13 and used for driving the movable platform 2 to reciprocate along the transverse extending direction of the transverse guide rails 13, and a stirring mechanism 4 which is arranged on the movable platform 2 and can extend into a storage groove 11 of the fermentation tank 1 for stirring organic fertilizer;

the material turning mechanism 4 comprises two connecting arms 41 fixedly connected to the two longitudinal sides of the bottom of the movable platform 2 and extending downwards to the storage groove 11 of the fermentation tank 1 along the vertical direction, material turning rotating shafts 42 extending along the longitudinal direction and having two longitudinal ends respectively rotatably connected to the lower ends of the two connecting arms 41, a plurality of groups of blade units 43 arranged on the periphery of the material turning rotating shafts 42 and distributed at intervals along the axial direction, and a material turning driving assembly 44 connected between the movable platform 2 and the material turning rotating shafts 42 and used for driving the material turning rotating shafts 42 to rotate;

the conveying device 8 comprises two longitudinal guide rails 81 which are arranged on the outer sides of the corresponding openings of the fermentation tanks 1 and are arranged at intervals along the transverse direction and extend along the longitudinal direction, a movable bracket 82 movably connected to the two longitudinal guide rails 81, and a conveying driving device 83 which is connected between the movable bracket 82 and the longitudinal guide rails 81 and is used for driving the movable bracket 82 to reciprocate along the longitudinal extending direction of the longitudinal guide rails 81;

the movable support 82 is provided with two conveying guide rails 84 which can be butted with the two transverse guide rails 13 of the fermentation tank 1 and also extend along the transverse direction, the material overturning device can move to the two conveying guide rails 84 of the movable support 82 along the transverse extending direction of the two transverse guide rails 13, and a limiting rod 85 which extends upwards along the vertical direction and is used for limiting the transverse moving stroke of the material overturning device is further arranged on one transverse side of the conveying guide rails 84 far away from the fermentation tank 1.

In order to facilitate uniform turning, each blade unit 43 comprises two blade seats 431 which are respectively arranged at two ends of the turning rotating shaft 42 in the same radial direction and are fixedly connected to the outer peripheral wall of the turning rotating shaft 42 and extend and protrude along the direction away from the axis, and two turning blades 432 which are respectively fixedly arranged on the two blade seats 431, wherein the turning blades 432 gradually incline to one axial side of the turning rotating shaft 42 in the process of extending from the fixed connection part of the blade seats 431 to the direction away from the axis, the inclination directions of the two turning blades 432 in the same blade unit 43 are opposite, and the blade seats 431 of two adjacent blade units 43 are in different radial directions.

Preferably, the movement driving device 3 comprises two movement rotating shafts 31 which are rotatably connected to two lateral sides of the bottom of the movable platform 2 and extend along the longitudinal direction, movement rollers 32 which are coaxially and fixedly connected to two longitudinal ends of each movement rotating shaft 31 and can roll on two lateral guide rails 13 along the lateral direction, and a movement driving assembly 33 which is connected between the movable platform 2 and the two movement rotating shafts 31 and is used for driving the two movement rotating shafts 31 to rotate synchronously;

the moving driving assembly 33 includes a moving driving motor 331 fixedly mounted on the movable platform 2, two driven sprockets 332 respectively and coaxially and fixedly mounted on the two moving rotating shafts 31, a driving sprocket 333 coaxially and fixedly mounted on an output shaft of the moving driving motor 331 and respectively corresponding to the two driven sprockets 332, and two chains 334 respectively connected between the two driven sprockets 332 and the two corresponding driving sprockets 333 in a driving manner.

Preferably, the conveying driving device 83 includes two conveying rotating shafts 831 rotatably connected to two longitudinal sides of the bottom of the movable bracket 82 and extending in the transverse direction, conveying rollers 832 coaxially and fixedly connected to two transverse ends of each conveying rotating shaft 831 and capable of sliding and rolling on two longitudinal guide rails 81 in the longitudinal direction, and a conveying driving assembly 833 connected between the movable bracket 82 and the corresponding conveying rotating shaft 831 and used for driving the corresponding conveying rotating shaft 831 to rotate.

In order to facilitate the retraction of the power cord, the power cord retraction device 5 is also included for retracting the power cord a;

the power cord winding and unwinding device 5 comprises a winding rotator 51 used for winding a power cord a and a winding and unwinding driving motor 52 connected with the winding rotator 51 and used for driving the winding rotator 51 to rotate, a motor output shaft of the winding and unwinding driving motor 52 extends along the longitudinal direction, the winding rotator 51 comprises a cylinder 511 coaxially and fixedly arranged on the periphery of the motor output shaft of the winding and unwinding driving motor 52, limiting disc bodies 512 coaxially and fixedly arranged at the two longitudinal ends of the cylinder 511, and a plurality of supporting rods 513 fixedly connected between the middle parts of the two limiting disc bodies 512 and arranged along the same circumferential direction around the central line of the limiting disc bodies 512 at intervals, hollow cavities 53 extending along the longitudinal direction are arranged in the middle parts of the axes of the motor output shafts of the cylinder 511 and the winding and unwinding driving motor 52, one end of the winding and unwinding power cord a is connected with a power supply device, and the middle parts of the winding and unwinding power cord a are wound on the peripheral wall of a cylinder formed by the plurality of the supporting rods 513 of the winding rotator 51 And the other end of the retractable power cord a passes through the cylinder 511 and the hollow cavity of the motor output shaft to supply power for the retractable driving motor 52, the stirring driving assembly 44 and the mobile driving device 3.

In order to facilitate stopping the materials, the turning device further comprises a material stopping assembly 6 which is connected to one lateral side of the movable platform 2 corresponding to the opening of the storage groove 11 and used for stopping the turned materials so as to prevent the materials from falling out of the opening of the storage groove 11;

the material blocking assembly 6 comprises a material blocking plate 62 which is rotatably connected to the movable platform 2 through a material blocking rotating shaft 61 extending along the longitudinal direction and extends downwards, and an angle adjusting assembly 63 which is used for adjusting the rotating angle of the material blocking plate 62 rotating around the material blocking rotating shaft 61.

In order to adjust the angle of the striker plate conveniently, the angle adjusting assembly 63 includes a lead screw 631 extending along the transverse direction and rotatably connected to the movable platform 2, a nut seat 632 threadedly connected to the outer periphery of the lead screw 631, two guide rods 633 respectively disposed at two longitudinal sides of the lead screw 631 and extending along the transverse direction for transversely guiding the nut seat 632 to move along the transverse direction, a connecting rod 634 having two ends respectively hinged to the nut seat 632 and the striker plate 62, and a lead screw driving motor 635 mounted on the movable platform 2 and connected to the lead screw 631 and used for driving the lead screw 631 to rotate.

Preferably, the two lateral walls of the movable platform 2 are further provided with travel switches 7 for limiting the movement travel of the material turning device on the two lateral sides.

While the present invention has been shown and described with reference to particular embodiments and alternatives thereof, it will be understood that various changes and modifications can be made without departing from the spirit and scope of the invention. It is understood, therefore, that the invention is not to be limited, except as by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a can realize high-efficient stirring fermentation's fertilizer fermentation processing system which characterized in that: the fermentation tank comprises more than two groups of fermentation tanks (1) which are sequentially arranged at intervals along the longitudinal direction, wherein a storage groove (11) which extends along the transverse direction and is concave downwards and used for storing organic fertilizer is arranged in the middle of each fermentation tank (1), the groove walls on the two longitudinal sides of each storage groove (11) are enclosing walls (12) which extend along the transverse direction, the top of each enclosing wall (12) is fixedly provided with a transverse guide rail (13) which extends along the transverse direction, the adjacent positions of two adjacent fermentation tanks (1) share one enclosing wall (12), and the transverse same side of each storage groove (11) is opened outwards along the transverse direction to form an open mouth; the longitudinal distance between the two transverse guide rails (13) of each group of fermentation tanks (1) is equal, and the height positions of the transverse guide rails (13) of each group of fermentation tanks (1) are equal;

the organic fertilizer fermentation treatment system capable of realizing efficient material turning fermentation further comprises a material turning device which is movably connected to the fermentation tank (1) and used for turning materials in the fermentation tank (1), and a conveying device (8) which is arranged on the outer side of the corresponding opening of the fermentation tank (1) and used for driving the material turning device to move back and forth between the fermentation tanks (1);

the stirring device comprises a movable platform (2) extending along the longitudinal direction and erected above two transverse guide rails (13), a moving driving device (3) connected between the movable platform (2) and the two transverse guide rails (13) and used for driving the movable platform (2) to reciprocate along the transverse extending direction of the transverse guide rails (13), and a stirring mechanism (4) which is arranged on the movable platform (2) and can extend into a storage groove (11) of the fermentation tank (1) and used for stirring organic fertilizers;

the stirring mechanism (4) comprises two connecting arms (41) which are fixedly connected to the two longitudinal sides of the bottom of the movable platform (2) and extend downwards into the storage groove (11) of the fermentation tank (1) along the vertical direction, stirring rotating shafts (42) which extend along the longitudinal direction and are respectively rotatably connected to the lower ends of the two connecting arms (41), a plurality of groups of blade units (43) which are arranged on the periphery of the stirring rotating shafts (42) and are distributed at intervals along the axial direction, and a stirring driving assembly (44) which is connected between the movable platform (2) and the stirring rotating shafts (42) and is used for driving the stirring rotating shafts (42) to rotate;

the conveying device (8) comprises two longitudinal guide rails (81) which are arranged on the outer sides of the corresponding open mouths of the fermentation tanks (1) at intervals along the transverse direction and extend along the longitudinal direction, a movable support (82) movably connected to the two longitudinal guide rails (81), and a conveying driving device (83) which is connected between the movable support (82) and the longitudinal guide rails (81) and used for driving the movable support (82) to reciprocate along the longitudinal extending direction of the longitudinal guide rails (81);

the movable support (82) is provided with two conveying guide rails (84) which can be butted with two transverse guide rails (13) of the fermentation tank (1) and also extend along the transverse direction, the material overturning device can move to the two conveying guide rails (84) of the movable support (82) along the transverse extending direction of the two transverse guide rails (13), and a limiting rod (85) which extends upwards along the vertical direction and is used for limiting the transverse moving stroke of the material overturning device is further arranged on one transverse side, far away from the fermentation tank (1), of the conveying guide rails (84).

2. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: each blade unit (43) comprises two blade seats (431) which are respectively arranged at two ends of the same radial direction of the turning rotating shaft (42) and fixedly connected to the outer peripheral wall of the turning rotating shaft (42) and extend and protrude along the direction away from the axis, and two turning blades (432) which are respectively fixedly installed on the two blade seats (431), wherein the turning blades (432) gradually incline to one axial side of the turning rotating shaft (42) in the process of extending from the fixed connection part of the blade seats (431) to the direction away from the axis, the inclination directions of the two turning blades (432) in the same blade unit (43) are opposite, and the blade seats (431) of two adjacent blade units (43) are in different radial directions.

3. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: the moving driving device (3) comprises two moving rotating shafts (31) which are rotatably connected to the two transverse sides of the bottom of the movable platform (2) and extend along the longitudinal direction, moving rollers (32) which are coaxially and fixedly connected to the two longitudinal ends of each moving rotating shaft (31) and can roll on two transverse guide rails (13) along the transverse direction, and a moving driving assembly (33) which is connected between the movable platform (2) and the two moving rotating shafts (31) and is used for driving the two moving rotating shafts (31) to synchronously rotate;

the movable driving component (33) comprises a movable driving motor (331) fixedly arranged on the movable platform (2), two driven chain wheels (332) respectively and coaxially and fixedly arranged on the two movable rotating shafts (31), a driving chain wheel (333) coaxially and fixedly arranged on an output shaft of the movable driving motor (331) and respectively corresponding to the two driven chain wheels (332), and two chains (334) respectively connected between the two driven chain wheels (332) and the two corresponding driving chain wheels (333) in a transmission manner.

4. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: the conveying driving device (83) comprises two conveying rotating shafts (831) which are rotatably connected to two longitudinal sides of the bottom of the movable support (82) and extend along the transverse direction, conveying rollers (832) which are coaxially and fixedly connected to two transverse ends of each conveying rotating shaft (831) and can roll on two longitudinal guide rails (81) in a sliding mode along the longitudinal direction, and a conveying driving assembly (833) which is connected between the movable support (82) and the corresponding conveying rotating shaft (831) and is used for driving the corresponding conveying rotating shaft (831) to rotate.

5. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: the power cord collecting and releasing device (5) is used for collecting and releasing the power cord (a);

the power line winding and unwinding device (5) comprises a winding rotating body (51) used for winding a power line (a) and a winding and unwinding driving motor (52) connected with the winding rotating body (51) and used for driving the winding rotating body (51) to rotate, a motor output shaft of the winding and unwinding driving motor (52) extends along the longitudinal direction, the winding rotating body (51) comprises a cylinder (511) coaxially and fixedly arranged on the periphery of the motor output shaft of the winding and unwinding driving motor (52), limiting disc bodies (512) coaxially and respectively fixed at the longitudinal ends of the cylinder (511) and a plurality of supporting rods (513) fixedly connected between the middle parts of the two limiting disc bodies (512) and arranged at intervals along the same circumferential direction around the central line of the limiting disc bodies (512), and hollow cavities (53) extending along the longitudinal direction are respectively arranged in the middle parts of the axial lines of the cylinder (511) and the motor output shaft of the winding and unwinding driving motor (52), one end of the retractable power cord (a) is connected with the power supply device, the middle of the retractable power cord (a) is wound on the outer peripheral wall of a cylinder formed by the support rods (513) of the winding rotating body (51), and the other end of the retractable power cord (a) penetrates through the hollow cavity of the cylinder (511) and the motor output shaft to supply power for the retractable driving motor (52), the material turning driving assembly (44) and the mobile driving device (3).

6. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: the turning device also comprises a material blocking assembly (6) which is connected to one transverse side of the movable platform (2) corresponding to the opening of the storage groove (11) and used for blocking the turned-up materials so as to prevent the materials from falling out of the opening of the storage groove (11);

the material blocking assembly (6) comprises a material blocking plate (62) which is rotatably connected to the movable platform (2) through a material blocking rotating shaft (61) extending along the longitudinal direction and extends downwards, and an angle adjusting assembly (63) used for adjusting the rotating angle of the material blocking plate (62) around the material blocking rotating shaft (61).

7. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 6, characterized in that: angle adjusting assembly (63) include along the horizontal direction extend and rotate lead screw (631) of connection on movable platform (2), threaded connection is in nut seat (632) of lead screw (631) periphery, two divide establish lead screw (631) vertical both sides and along horizontal direction extension be used for carrying out the guide bar (633) of horizontal direction to nut seat (632) along the horizontal direction removal, both ends articulate connecting rod (634) on nut seat (632) and striker plate (62) respectively, and install on movable platform (2) and be used for driving lead screw (631) pivoted lead screw driving motor (635) that are connected with lead screw (631).

8. The organic fertilizer fermentation treatment system capable of realizing efficient stirring fermentation according to claim 1, characterized in that: and travel switches (7) used for limiting the movement travels of the material turning device on the two transverse sides are further arranged on the two transverse side walls of the movable platform (2).

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