CN210699978U - High-speed mixing granulator - Google Patents

Abstract

The utility model provides a high-speed mixing granulator. This high-speed mixer-granulator includes frame, controller, jar body container, agitating unit, cutters and discharging device, and wherein, agitating unit includes agitator motor, stirring pivot and stirring vane, and cutters includes cutter motor, cutter pivot and cutter blade group, and discharging device includes ejection of compact frame shell, ejection of compact cylinder and ejection of compact stopper. Use the technical scheme of the utility model the particle size that can solve the granular material of preparation completion among the prior art is inhomogeneous, and granular material can't be by the problem of homogeneous mixing.

Description

High-speed mixing granulator

Technical Field

The utility model belongs to the technical field of granular material production facility, especially, relate to a high-speed mixer-granulator.

Background

In daily life, people can not directly use blocky or bulky material, need process the material and use after making the material volume diminish, at this moment, often process the material and become tiny graininess for the material can play the biggest function effect. In the prior art, the equipment applied to material processing and granulating utilizes the blade to cut the material in the rotating process, and the material after cutting is stirred due to the cutting force of the blade while the material is cut. In the cutting and stirring granulating form in the prior art, the prepared granular materials have uneven particle sizes, and the granular materials cannot be uniformly mixed because the required granular materials are not subjected to targeted stirring treatment when the required granular materials are prepared by cutting, stirring and mixing two different materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a high-speed mixer granulator is provided, the particle size that aims at solving the granule material of preparation completion among the prior art is inhomogeneous, and the unable problem by the homogeneous mixing of granule material.

In order to solve the above technical problem, the utility model discloses a realize like this, a high-speed mixer-granulator, include: a frame; the controller is arranged on the rack; the tank body container is fixedly arranged on the rack and provided with a particle preparation cavity, the top of the tank body container is provided with a feeding port communicated with the particle preparation cavity, and the circumferential side wall of the tank body container is provided with an output port; the stirring device comprises a stirring motor, a stirring rotating shaft and a stirring blade, the stirring motor is fixedly arranged on the rack and is electrically connected with the controller, the first end of the stirring rotating shaft is coaxially connected with the output rotating shaft of the stirring motor, the second end of the stirring rotating shaft penetrates from the bottom of the tank container and extends into the particle preparation cavity, and the stirring blade is connected with the second end of the stirring rotating shaft; the cutter device comprises a cutter motor, a cutter rotating shaft and a cutter blade group, the cutter motor is arranged on the rack and is electrically connected with the controller, the first end of the cutter rotating shaft is coaxially connected with the output rotating shaft of the cutter motor, the second end of the cutter rotating shaft penetrates through the circumferential side wall of the tank container and extends into the particle preparation cavity, and the cutter blade group is connected with the second end of the cutter rotating shaft; discharging device, discharging device include ejection of compact frame shell, ejection of compact cylinder and ejection of compact stopper, ejection of compact frame shell fixed connection in the circumference lateral wall of jar body container, and ejection of compact cylinder connects in ejection of compact frame shell, and ejection of compact cylinder is controlled by the controller, and ejection of compact stopper is connected in ejection of compact cylinder's piston rod, and ejection of compact stopper can be located ejection of compact frame shell with sliding, ejection of compact stopper and delivery outlet looks adaptation in order to realize sealed shutoff or open the delivery outlet.

Furthermore, the stirring rotating shaft is provided with a first flow passage, a first inlet of the first flow passage is arranged at the shaft body of the stirring rotating shaft, which is positioned outside the tank container, the first flow passage is provided with a plurality of first outlets, and the plurality of first outlets are positioned at the positions of the stirring rotating shaft, which are opposite to the hole wall of the through hole at the bottom of the tank container, and are communicated with the particle preparation cavity; the cutter rotating shaft is provided with a second flow passage, a second inlet of the second flow passage is arranged at the shaft body of the cutter rotating shaft, which is positioned outside the tank container, the second flow passage is provided with a plurality of second outlets, and the plurality of second outlets are positioned at the positions of the cutter rotating shaft, which are opposite to the hole wall of the through hole at the circumferential side wall of the tank container, and are communicated with the particle preparation cavity; the high-speed mixing granulator also comprises an air inlet system, wherein the air inlet system comprises an air conveying main pipe, a first air conveying branch pipe and a second air conveying branch pipe, the air conveying main pipe, the first air conveying branch pipe and the second air conveying branch pipe are connected through a three-way joint, the first air conveying branch pipe is communicated with a first inlet, the second air conveying branch pipe is communicated with a second inlet, a first switch is arranged on the first air conveying branch pipe, a second switch is arranged on the second air conveying branch pipe, and the first switch and the second switch are respectively electrically connected with the controller.

Furthermore, the high-speed mixing granulator also comprises a water inlet system, wherein the water inlet system comprises a water delivery main pipe, a first water delivery branch pipe and a second water delivery branch pipe, the water delivery main pipe, the first water delivery branch pipe and the second water delivery branch pipe are connected through a three-way joint, the first water delivery branch pipe is communicated with the first inlet, the second water delivery branch pipe is communicated with the second inlet, a third switch is arranged on the first water delivery branch pipe, a fourth switch is arranged on the second water delivery branch pipe, and the third switch and the fourth switch are respectively and electrically connected with the controller.

Furthermore, the tank body container comprises a container body, a cover body and a connecting mechanism, the cover body covers the container body to form a particle preparation cavity, the feeding port is arranged on the cover body, the output port is arranged on the circumferential side wall of the container body, the cover body is connected with the container body through the connecting mechanism, and the connecting mechanism is arranged on the rack and is electrically connected with the controller.

Furthermore, the connecting mechanism comprises an uncovering cylinder and a connecting arm, the uncovering cylinder is mounted on the rack, a cylinder rod of the uncovering cylinder drives the connecting arm to rotate, and the cover body is connected to the connecting arm; the air inlet system further comprises a third air delivery branch pipe, the third air delivery branch pipe is communicated with the air delivery main pipe and connected with the cover opening cylinder, and a cover opening electromagnetic valve is arranged on the third air delivery branch pipe and controlled by the controller.

Furthermore, the air inlet system further comprises a fourth air delivery branch pipe, the fourth air delivery branch pipe is communicated with the air delivery main pipe and is connected with the discharge air cylinder, and a discharge electromagnetic valve is arranged on the fourth air delivery branch pipe and is controlled by the controller.

Furthermore, the cover body is also provided with an exhaust port and an exhaust device communicated with the exhaust port.

Further, the cover body is also provided with an observation port through which the particle preparation cavity can be observed.

Furthermore, the cutter blade group is composed of a plurality of U-shaped blades which are arranged at intervals along the axial direction of the cutter rotating shaft.

Compared with the prior art, the utility model, beneficial effect lies in:

utilize the utility model discloses an in-process of granule material is prepared to high-speed mixer granulator owing to design agitating unit specially in this granulator and stir the material for multiple material can be by more even of stirring, cuts through the position with the cutter blade group design at the circumference lateral wall of jar body container moreover, thereby cuts the particle size of pelletization more even unanimous with the material cutting.

Drawings

Fig. 1 is a front view of a high-speed mixing granulator according to an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a perspective view of the pellet preparation chamber of the high speed mixing granulator according to an embodiment of the present invention;

fig. 4 is a system schematic diagram of a high-speed mixing granulator according to an embodiment of the present invention;

FIG. 5 is a block diagram of a cutter assembly of the high speed mixer granulator according to an embodiment of the present invention;

fig. 6 is a structural diagram of a discharging device of a high-speed mixing granulator according to an embodiment of the present invention.

In the drawings, each reference numeral denotes:

10. a frame; 20. a controller; 30. a tank container; 301. a particle preparation chamber; 31. a feeding port; 32. an output port; 310. a container body; 320. a cover body; 321. an exhaust device; 322. a viewing port; 330. a connecting mechanism; 331. opening a cover of the cylinder; 332. a connecting arm; 40. a stirring device; 41. a stirring motor; 42. a stirring rotating shaft; 43. a stirring blade; 44. a speed reducer; 50. a cutter device; 51. a cutter motor; 52. a cutter shaft; 53. a cutter blade group; 60. a discharging device; 61. a discharging frame shell; 62. a discharging cylinder; 63. a discharging plug; 64. a cylinder shroud; 65. a discharge opening; 70. an air intake system; 71. a gas transmission main pipe; 72. a first gas delivery branch pipe; 73. a second gas delivery branch pipe; 74. a first switch; 75. a second switch; 76. a third gas delivery branch pipe; 77. opening a cover of the electromagnetic valve; 78. a fourth gas transmission branch pipe; 79. a discharge electromagnetic valve; 80. a water intake system; 81. a water delivery main pipe; 82. a first water delivery branch pipe; 83. a second water delivery branch pipe; 84. a third switch; 85. a fourth switch; 91. a gas transmission main switch; 92. a water delivery main switch; 93. a first gas delivery check valve; 94. and the second gas transmission one-way valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The utility model provides a high-speed mixer granulator, as shown in fig. 1 to 6, the high-speed mixer granulator comprises a frame 10, a controller 20, a tank container 30, a stirring device 40, a cutter device 50 and a discharging device 60, wherein, the stirring device 40 comprises a stirring motor 41, a stirring rotating shaft 42 and stirring blades 43, the cutter device 50 comprises a cutter motor 51, a cutter rotating shaft 52 and a cutter blade group 53, the discharging device 60 comprises a discharging frame shell 61, a discharging cylinder 62 and a discharging plug 63, the controller 20 is installed on the frame 10, the tank container 30 is fixedly installed on the frame 10, the tank container 30 is provided with a particle preparation chamber 301, the top of the tank container 30 is provided with a feeding port 31 communicated with the particle preparation chamber 301, the circumferential side wall of the tank container 30 is provided with a delivery outlet 32, the stirring motor 41 is fixedly installed on the frame 10 and electrically connected with the controller 20, a first end of the stirring rotating shaft 42 is coaxially connected with an output rotating shaft of the stirring motor 41 (actually, in order to increase the stirring torque of the stirring rotating shaft 42, therefore, the first end of the stirring rotating shaft 42 is connected with the output rotating shaft of the stirring motor 41 through the reducer 44, the rotating speed of the stirring rotating shaft 42 is reduced through the reducer 44 to increase the stirring torque of the stirring rotating shaft 42 to the rotation of the stirring blade 43), the second end of the stirring rotating shaft 42 penetrates from the bottom of the tank container 30 and extends into the particle preparation cavity 301, the stirring blade 43 is connected with the second end of the stirring rotating shaft 42, the cutter motor 51 is mounted on the frame 10 and electrically connected with the controller 20, the first end of the cutter rotating shaft 52 is coaxially connected with the output rotating shaft of the cutter motor 51, the second end of the cutter rotating shaft 52 penetrates from the circumferential side wall of the tank container 30 and extends into the particle preparation cavity 301, the cutter blade group 53 is connected with the second end of the cutter rotating shaft 52, the discharging frame shell 61 is fixedly connected with the, ejection of compact cylinder 62 connects in ejection of compact frame shell 61, then is connected and protects ejection of compact cylinder 62 through cylinder guard shield 64 and ejection of compact frame shell 61, and ejection of compact cylinder 62 is controlled by controller 20, and ejection of compact stopper 63 is connected in ejection of compact cylinder 62's piston rod, and ejection of compact stopper 63 can be located ejection of compact frame shell 61 with sliding, ejection of compact stopper 63 and delivery outlet 32 looks adaptation in order to realize sealed shutoff or open delivery outlet 32.

Use the utility model provides a high-speed mixer granulator processes the great material of volume for the granule material, put into granule preparation chamber 301 with the great multiple material of volume by dog-house 31, then open agitating unit 40, cutters 50, agitating unit 40 stirs multiple material, and cut into tiny form through cutters 50 to the material in granule preparation chamber 301, then drop into the binder from dog-house 31, and continue to stir and utilize cutters 50 to last the cutting through agitating unit 40, thereby bond the cutting through the binder when with multiple material stirring, the even granule material of granule size has been obtained, and utilize agitating unit 40 to continue to stir in the course of working, make multiple material at the in-process of cutting shaping granule material by the stirring. Utilize the utility model discloses an in-process of granule material is prepared to high-speed mixer granulator, because design agitating unit 40 specially in this granulator stirs the material, agitating unit 40's stirring vane 43 enables the material to produce the hoop, radially, axial fluidization motion, mixing capacity is strong, make multiple material can be mixed by the stirring and get more evenly, and cut in the position of jar body container 30's circumference lateral wall through the design of cutter blade group 53, thereby more even unanimity with the granule size of material cutting pelletization.

The utility model discloses in, controller 20 uses and can assemble through using current programmable logic controller (PLC system), controls the production work of this granulator systematically and automatically through writing in corresponding control program in the PLC system in advance.

In this embodiment, the stirring shaft 42 is provided with a first flow passage (not shown), a first inlet (not shown) of the first flow passage is disposed at the shaft body of the stirring shaft 42, which is located outside the tank container 30, and the first flow passage has a plurality of first outlets (not shown), which are located at positions of the stirring shaft 42 opposite to the bottom through hole wall of the tank container 30 and are communicated with the particle preparation chamber 301. Further, the cutter rotating shaft 52 is provided with a second flow channel, a second inlet of the second flow channel is arranged at the shaft body of the cutter rotating shaft 52, which is located outside the tank container 30, the second flow channel is provided with a plurality of second outlets, and the plurality of second outlets are located at positions of the cutter rotating shaft 52, which are opposite to the through hole wall at the circumferential side wall of the tank container 30, and are communicated with the particle preparation cavity 301. And the utility model discloses a high-speed mixer granulator still includes air intake system 70, air intake system 70 includes gas transmission house steward 71, first gas transmission branch pipe 72 and second gas transmission branch pipe 73, gas transmission house steward 71, first gas transmission branch pipe 72 and second gas transmission branch pipe 73 are connected through three way connection, first gas transmission branch pipe 72 is linked together with first entry, second gas transmission branch pipe 73 is linked together with the second entry, be equipped with first switch 74 on first gas transmission branch pipe 72, be equipped with second switch 75 on the second gas transmission branch pipe 73, first switch 74 and second switch 75 are connected with controller 20 electricity respectively. In the process of processing and granulating, before feeding, the controller 20 is required to control the first switch 74 and the second switch 75 to be opened, so that the first gas transmission branch pipe 72 and the second gas transmission branch pipe 73 are ventilated, at this time, compressed air is injected from the first outlet and the second outlet and flows to the particle preparation cavity 301, thus, a gap between the stirring rotating shaft 42 and the wall of the through hole of the tank container 30 and a gap between the cutter rotating shaft 52 and the wall of the through hole of the tank container 30 realize air sealing, a good axial sealing effect can be realized, the material in the particle preparation cavity 301 is prevented from being polluted by lubricating grease, and meanwhile, the material and the liquid are prevented from permeating into a bearing cavity of a bearing which is matched with the stirring rotating shaft 42 and the cutter rotating shaft 52 to damage equipment.

As shown in fig. 4, a main air delivery switch 91 is disposed on the air delivery manifold 71, and the main air delivery switch 91 is electrically connected to the controller 20, and the controller 20 controls the main air delivery switch 91 to open so as to deliver the compressed air to the first air delivery branch pipe 72 and the second air delivery branch pipe 73. Further, a first delivery check valve 93 is provided at a position downstream of the first switch 74 in the first delivery branch 72, and a second delivery check valve 94 is provided at a position downstream of the second switch 75 in the second delivery branch 73, thereby ensuring that the flow of the compressed air in the correct delivery direction is controlled to prevent the suck-back of the compressed air.

As shown in fig. 4, the high-speed mixing granulator further includes a water inlet system 80, the water inlet system 80 includes a water delivery main 81, a first water delivery branch 82 and a second water delivery branch 83, the water delivery main 81, the first water delivery branch 82 and the second water delivery branch 83 are connected through a three-way joint, the first water delivery branch 82 is communicated with the first inlet, the second water delivery branch 83 is communicated with the second inlet, a third switch 84 is disposed on the first water delivery branch 82, a fourth switch 85 is disposed on the second water delivery branch 83, and the third switch 84 and the fourth switch 85 are electrically connected to the controller 20 respectively. In daily maintenance, it is necessary to the utility model discloses a high-speed mixing granulator keeps clean, therefore, open through controller 20 control third switch 84 and fourth switch 85, make first water delivery branch pipe 82 input the rivers in to granule preparation chamber 301 by stirring pivot 42, make second water delivery branch pipe 83 input the rivers in to granule preparation chamber 301 by cutter pivot 52, the water level rises to the upper edge of cutter pivot 52, and control agitator motor 41 through controller 20 and drive stirring pivot 42 and rotate, controller 20 controls cutter pivot 52 and rotates, so, stirring vane 43 stirs the intracavity space of granule preparation chamber 301 with cutter blade group 53 and washs, and the process that stirring vane 43 stirs the water with cutter blade group 53 also is washd, and, in the course of rivers carrying, the clearance between stirring pivot 42 and the through-hole pore wall of tank body container 30, And a little material powder possibly remained in the clearance between the cutter rotating shaft 52 and the wall of the through hole of the tank container 30 is washed clean, so that the integral cleanness of the equipment is ensured to be good. It should be noted that the granulator should be cleaned when changing the material types, and also cleaned after each work.

Accordingly, as shown in fig. 4, a main water supply switch 92 is disposed on the water supply main 81, and the main water supply switch 92 is electrically connected to the controller 20, and the controller 20 controls the main water supply switch 92 to be opened to supply water to the first water supply branch 82 and the second water supply branch 83.

In the high-speed mixing granulator, the tank container 30 includes a container body 310, a cover body 320 and a connection mechanism 330, the cover body 320 is hermetically covered on the container body 310 to form a granule preparation chamber 301, the feeding port 31 is disposed on the cover body 320, the output port 32 is disposed on the circumferential side wall of the container body 310, the cover body 320 is connected with the container body 310 through the connection mechanism 330, and the connection mechanism 330 is disposed on the frame 10 and electrically connected with the controller 20. The cover body 320 can not be opened and closed frequently, but can be opened when the stirring blades 43, the cutter blade group 53 and the like in the particle preparation cavity 301 are required to be maintained and replaced, at the moment, the connecting mechanism 330 is controlled by the controller 20 to open the cover body 320 automatically, manual opening of the heavy cover body 320 is not needed, and the maintenance and repair work of workers is facilitated. In addition, after the particle preparation chamber 301 is cleaned by water delivery each time, the worker opens the cover 320 to wipe the inner surface of the device in the particle preparation chamber 301, and also wipes the outer surface of the device until no water is left on the inner surface and the outer surface. It is noted that during cleaning of the interior of the particle preparation chamber 301, the cover 320 must be closed.

Specifically, as shown in fig. 1 and fig. 3, the connection mechanism 330 includes a cover opening cylinder 331 and a connection arm 332, the cover opening cylinder 331 is mounted on the frame 10, a cylinder rod of the cover opening cylinder 331 drives the connection arm 332 to rotate, the cover body 320 is connected to the connection arm 332, the air intake system 70 further includes a third air delivery branch pipe 76, the third air delivery branch pipe 76 is communicated with the air delivery main 71, a connection position of the third air delivery branch pipe 76 and the air delivery main 71 is located at an upstream position of the air delivery main 71 relative to the air delivery main switch 91, the third air delivery branch pipe 76 is connected to the cover opening cylinder 331, a cover opening electromagnetic valve 77 is disposed on the third air delivery branch pipe 76, and the cover opening electromagnetic valve 77 is controlled by the controller 20.

As shown in fig. 4, the air intake system 70 further includes a fourth air delivery branch pipe 78, the fourth air delivery branch pipe 78 is communicated with the air delivery main 71, a connection position where the fourth air delivery branch pipe 78 is connected with the air delivery main 71 is located at an upstream position of the air delivery main 71 relative to the air delivery main switch 91, the third air delivery branch pipe 76, the fourth air delivery branch pipe 78 and the air delivery main 71 may be connected through a three-way joint, the fourth air delivery branch pipe 78 is connected with the discharging cylinder 62, a discharging solenoid valve 79 is disposed on the fourth air delivery branch pipe 78, and the discharging solenoid valve 79 is controlled by the controller 20. The utility model discloses an among the granulator, utilize air intake system 70's fourth gas transmission branch pipe 78 to export cylinder 62 input compressed air and drive the cylinder pole flexible work of export cylinder 62 to it removes to drive ejection of compact stopper 63. When the cylinder rod of the discharging cylinder 62 drives the discharging plug 63 to move so that the output port 32 is opened, the stirring blade 43 is still continuously rotated to stir the particulate materials, and then the particulate materials are output from the output port 32.

Indeed, the utility model discloses a solenoid valve 77 and ejection of compact solenoid valve 79 uncap are controlled through pressure relay (as shown in fig. 4), and pressure relay is connected with controller 20 electricity, and solenoid valve 77 and ejection of compact solenoid valve 79 uncap also all are connected with pressure relay electricity. During the gas transmission process, the pressure of the compressed air in the gas transmission main pipe 71 is kept basically constant, the pressure relay is in a first working state and transmits the first working state to the controller 20, the controller 20 controls the gas transmission main switch 91 to be opened, the controller 20 controls the first switch 74 and the second switch 75 to work according to a pre-written control program, and the pressure relay controls the uncovering electromagnetic valve 77 and the discharging electromagnetic valve 79 to work so that the cover body 320 is closed and the discharging plug 63 blocks the output port 32; after the gas transmission is stopped, the pressure of the compressed air in the gas transmission main pipe 71 suddenly drops, and at this time, the pressure relay is in the second working state and transmits the second working state to the controller 20, the controller 20 controls the gas transmission main switch 91, the first switch 74 and the second switch 75 to work in sequence and close, the pressure relay controls the discharge solenoid valve 79 to work so that the discharge plug 63 opens the output port 32, so that the particulate materials are output from the output port 32 and are conveyed from the discharge port 65 to the next station for drying, then the controller 20 controls the water transmission main switch 92, the third switch 84 and the fourth switch 85 to work in sequence and perform a cleaning operation, and then the pressure relay controls the cover opening solenoid valve 77 to work so that the cover body 320 is opened.

In this embodiment, the cover body 320 is further provided with an exhaust port and an exhaust device 321 communicated with the exhaust port, and during the operation, the gas entering the particle preparation chamber 301 after being hermetically sealed is exhausted by the exhaust device 321, so as to ensure that the pressure in the particle preparation chamber 301 is normal. The lid body 320 is also provided with an observation port 322 through which the particle preparation chamber 301 can be observed. In the process of preparing the granular material, a worker can observe the condition of material preparation in real time through the observation port 322, and can clearly observe the working states and the abrasion conditions of the stirring blade 43 and the cutter blade group 53 in real time, so that the preparation work can be adjusted in an intervening manner in real time, and the machine can be stopped in time when an emergency condition is observed.

As shown in fig. 3 and 5, the cutter blade group 53 is composed of a plurality of U-shaped blades arranged at intervals in the axial direction of the cutter rotation shaft 52. The cutter blade group 53 composed of a plurality of U-shaped blades has the advantages of strong shearing force, granulation block, good granularity and the like.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A high-speed mixing granulator, comprising:

a frame (10);

a controller (20), the controller (20) being mounted to the chassis (10);

the particle preparation device comprises a tank container (30), wherein the tank container (30) is fixedly arranged on the rack (10), the tank container (30) is provided with a particle preparation cavity (301), the top of the tank container (30) is provided with a feeding port (31) communicated with the particle preparation cavity (301), and the circumferential side wall of the tank container (30) is provided with an output port (32);

the stirring device (40) comprises a stirring motor (41), a stirring rotating shaft (42) and a stirring blade (43), the stirring motor (41) is fixedly installed on the rack (10) and is electrically connected with the controller (20), the first end of the stirring rotating shaft (42) is coaxially connected to the output rotating shaft of the stirring motor (41), the second end of the stirring rotating shaft (42) penetrates from the bottom of the tank container (30) and extends into the particle preparation cavity (301), and the stirring blade (43) is connected to the second end of the stirring rotating shaft (42);

the cutting device (50) comprises a cutting motor (51), a cutting rotating shaft (52) and a cutting blade group (53), the cutting motor (51) is mounted on the rack (10) and is electrically connected with the controller (20), the first end of the cutting rotating shaft (52) is coaxially connected with the output rotating shaft of the cutting motor (51), the second end of the cutting rotating shaft (52) penetrates through the circumferential side wall of the tank container (30) and extends into the particle preparation cavity (301), and the cutting blade group (53) is connected with the second end of the cutting rotating shaft (52);

discharging device (60), discharging device (60) includes ejection of compact frame shell (61), ejection of compact cylinder (62) and ejection of compact stopper (63), ejection of compact frame shell (61) fixed connection in the circumference lateral wall of jar body container (30), ejection of compact cylinder (62) connect in ejection of compact frame shell (61), ejection of compact cylinder (62) by controller (20) control, ejection of compact stopper (63) connect in the piston rod of ejection of compact cylinder (62), just ejection of compact stopper (63) can be located with sliding in ejection of compact frame shell (61), ejection of compact stopper (63) with delivery outlet (32) looks adaptation is in order to realize sealed shutoff or open delivery outlet (32).

2. The high-speed mixing granulator of claim 1,

the stirring rotating shaft (42) is provided with a first flow channel, a first inlet of the first flow channel is arranged at the shaft body of the stirring rotating shaft (42) which is positioned outside the tank container (30), the first flow channel is provided with a plurality of first outlets, and the plurality of first outlets are positioned at the positions of the stirring rotating shaft (42) which are opposite to the hole wall of the through hole at the bottom of the tank container (30) and are communicated with the particle preparation cavity (301);

the cutter rotating shaft (52) is provided with a second flow channel, a second inlet of the second flow channel is arranged at the shaft body of the cutter rotating shaft (52) which is positioned outside the tank container (30), the second flow channel is provided with a plurality of second outlets, and the plurality of second outlets are positioned at the positions of the cutter rotating shaft (52) which are opposite to the through hole wall at the circumferential side wall of the tank container (30) and are communicated with the particle preparation cavity (301);

the high-speed mixing granulator further comprises an air inlet system (70), the air inlet system (70) comprises an air conveying main pipe (71), a first air conveying branch pipe (72) and a second air conveying branch pipe (73), the air conveying main pipe (71), the first air conveying branch pipe (72) and the second air conveying branch pipe (73) are connected through a three-way joint, the first air conveying branch pipe (72) is communicated with the first inlet, the second air conveying branch pipe (73) is communicated with the second inlet, a first switch (74) is arranged on the first air conveying branch pipe (72), a second switch (75) is arranged on the second air conveying branch pipe (73), and the first switch (74) and the second switch (75) are respectively electrically connected with the controller (20).

3. The high-speed mixer granulator according to claim 2, wherein the high-speed mixer granulator further comprises a water inlet system (80), the water inlet system (80) comprises a water delivery manifold (81), a first water delivery branch pipe (82) and a second water delivery branch pipe (83), the water delivery manifold (81), the first water delivery branch pipe (82) and the second water delivery branch pipe (83) are connected by a tee joint, the first water delivery branch pipe (82) is communicated with the first inlet, the second water delivery branch pipe (83) is communicated with the second inlet, a third switch (84) is arranged on the first water delivery branch pipe (82), a fourth switch (85) is arranged on the second water delivery branch pipe (83), and the third switch (84) and the fourth switch (85) are respectively electrically connected with the controller (20).

4. The high-speed mixing granulator according to claim 2, wherein the tank container (30) comprises a container body (310), a cover (320) and a connecting mechanism (330), wherein the cover (320) covers the container body (310) to form the granule preparation chamber (301), the feeding port (31) is disposed on the cover (320), the output port (32) is disposed on the circumferential side wall of the container body (310), the cover (320) is connected to the container body (310) through the connecting mechanism (330), and the connecting mechanism (330) is disposed on the frame (10) and electrically connected to the controller (20).

5. The high-speed mixing granulator of claim 4,

the connecting mechanism (330) comprises an uncovering cylinder (331) and a connecting arm (332), the uncovering cylinder (331) is mounted on the rack (10), a cylinder rod of the uncovering cylinder (331) drives the connecting arm (332) to rotate, and the cover body (320) is connected to the connecting arm (332);

the air inlet system (70) further comprises a third air delivery branch pipe (76), the third air delivery branch pipe (76) is communicated with the air delivery main pipe (71), the third air delivery branch pipe (76) is connected with the cover opening cylinder (331), a cover opening electromagnetic valve (77) is arranged on the third air delivery branch pipe (76), and the cover opening electromagnetic valve (77) is controlled by the controller (20).

6. The high-speed mixer granulator according to claim 5, wherein the air inlet system (70) further comprises a fourth air branch (78), the fourth air branch (78) is connected to the air manifold (71), the fourth air branch (78) is connected to the discharging cylinder (62), and a discharging solenoid valve (79) is provided on the fourth air branch (78), and the discharging solenoid valve (79) is controlled by the controller (20).

7. The high-speed mixing granulator according to claim 4, wherein the cover (320) further comprises an air outlet and an air exhaust (321) connected to the air outlet.

8. The high-speed mixing granulator of claim 7 wherein the cover (320) is further provided with a viewing port (322) through which the granulation chamber (301) can be viewed.

9. The high-speed mixer granulator according to claim 1 wherein the cutter blade set (53) comprises a plurality of U-shaped blades arranged at intervals along the axis of the cutter shaft (52).

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