CN112293544A

CN112293544A - Generator for preparing coffee cherry powder by fermenting coffee pericarp and pulp through microbial aerobic fermentation

Info

Publication number: CN112293544A
Application number: CN202011276562.0A
Authority: CN
Inventors: 陈宁生
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-02-02

Abstract

The invention relates to the field of coffee beans, in particular to a generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp. The coffee bean grinding and rolling machine can grind and roll coffee beans and is convenient for post-treatment of the coffee beans, and comprises a material distribution component, a grinding component, a driving component and a sealing cover, the coffee beans to be treated are placed into a material distribution frame through a material inlet frame, meanwhile, an upper end driving rod is driven to move when a crankshaft connecting rod moves, a material distribution sliding rod is driven to slide along an outer end sliding groove through the upper end driving rod, a material distribution plate is driven to move through a hinged connecting rod, and the falling of the coffee beans to be treated is accelerated; while the coffee beans to be treated are filtered by the filter plate.

Description

Generator for preparing coffee cherry powder by fermenting coffee pericarp and pulp through microbial aerobic fermentation

Technical Field

The invention relates to the field of coffee beans, in particular to a generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp.

Background

The generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp is a common device in the field of coffee beans, but the generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp has single function.

Disclosure of Invention

The invention aims to provide a generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp, which can crush and roll coffee beans and is convenient for post-treatment of the coffee beans.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a microorganism aerobic fermentation coffee pericarp pulp system coffee cherry powder generator, is including dividing material subassembly, crushing unit, drive assembly, sealed lid, its characterized in that: divide material subassembly and crushing subassembly to be connected, crushing subassembly is connected with drive assembly, and sealed lid is connected between dividing material subassembly and crushing subassembly.

As a further optimization of the technical scheme, the invention relates to a generator for producing coffee cherry powder by microorganism aerobic fermentation of coffee pericarp pulp, which comprises a material distribution outer frame, a material feeding outer frame, a hinged connecting rod, a material distribution sliding rod, outer end sliding grooves, spherical clamping grooves, material distribution plates, a filter plate, filter holes, spherical clamping rods and spherical clamping rod push springs, wherein the material feeding outer frame is fixedly connected and communicated with the material distribution outer frame, the hinged connecting rods are hinged with the material distribution sliding rod, the number of the hinged connecting rods is two, the outer end sliding grooves are arranged on the side wall of the material distribution outer frame, the spherical clamping grooves are provided with a plurality of spherical clamping grooves which are respectively arranged on two sides of the inner wall of the outer end sliding grooves, the lower ends of the material distribution plates are rotatably connected with the inner wall of the material distribution outer frame, the filter plate is fixedly connected with the material distribution outer frame, the filter holes are provided with a, the spherical clamping rod pushing spring is arranged between the two spherical clamping rods, and the spherical clamping rods are connected with the spherical clamping grooves in a matched mode.

As a further optimization of the technical scheme, the invention relates to a generator for preparing coffee cherry powder from coffee pericarp pulp through microbial aerobic fermentation, wherein a crushing assembly comprises a crushing outer frame, a first straight tooth, a first bevel tooth, a second straight tooth, an upper end driving rod, a crankshaft connecting rod, a driving crankshaft, a lower end driving rod, a middle end chute, a bearing rod, a straight tooth rod, a crushing hammer sliding rod, a cylindrical pipeline, a first clipper, a cross hole, a second bevel tooth, a first clipper pushing spring and a middle end driving sliding frame, wherein the first straight tooth is fixedly connected with the straight tooth rod, the straight tooth rod is rotatably connected with the crushing outer frame, the straight tooth rod, the first straight tooth, the crushing hammer sliding rod, the cylindrical pipeline, the first clipper, the cross hole, the second bevel tooth and the second clipper pushing spring are all provided with a plurality of straight tooth rod, the first straight tooth, the crushing hammer sliding rod, the cylindrical pipeline, the first clipper, the cross hole, the second bevel tooth and the second clipper pushing, a straight tooth II is rotationally connected with the crushing outer frame, a straight tooth II is in meshing transmission with the straight tooth I, a bevel tooth I is fixedly connected with the straight tooth II, a bevel tooth I is in meshing transmission with the bevel tooth II, a bevel tooth II is fixedly connected with a driving crankshaft, the driving crankshaft is rotationally connected with the crushing outer frame, an upper end driving rod is slidably connected with the upper end of a crankshaft connecting rod, a lower end driving rod is slidably connected with the lower end of the crankshaft connecting rod, the driving crankshaft is rotationally connected with the crankshaft connecting rod, a middle end chute is arranged on the crushing outer frame, a bearing rod is fixedly connected with the crushing outer frame, a barrel-shaped pipeline is arranged on the bearing rod, a first pusher is slidably connected with the barrel-shaped pipeline, a pusher spring is arranged between the first and the barrel-shaped pipeline, a cross hole is arranged on the bearing rod, a crushing hammer sliding rod is in matching connection with the straight tooth rod through the chute, a sliding rail, the middle-end driving sliding frame is rotatably connected with the crushing hammer slide bar, the middle-end driving sliding frame is slidably connected with the middle-end sliding groove, the middle-end driving sliding frame is fixedly connected with the lower end driving rod, the material distributing outer frame is fixedly connected with the crushing outer frame, the sealing cover is fixedly connected between the material distributing outer frame and the crushing outer frame, and the upper end driving rod is fixedly connected with the material distributing slide bar.

As a further optimization of the technical scheme, the invention relates to a generator for preparing coffee cherry powder from coffee pericarp and pulp through microbial aerobic fermentation, the driving component comprises a driving underframe, an input motor, an input friction disc, a first transmission friction disc push spring, an output friction disc, a first clutch slide bar, a second clutch slide bar, a first clutch disc, a second transmission friction disc push spring, a limiting plate and a lower rectangular frame, the input motor is fixedly connected with the driving underframe, the input friction disc is fixedly connected with the input motor, the first transmission friction disc is rotatably connected with the lower rectangular frame, the first transmission friction disc push spring is connected with the first transmission friction disc in a sleeved mode, the first transmission friction disc push spring is arranged between the first transmission friction disc and the lower rectangular frame, the second transmission friction disc is rotatably connected with the lower rectangular frame, the second transmission friction disc push spring is arranged between the second transmission friction disc and the, the transmission friction disc push spring II is connected with the transmission friction disc II in a sleeved mode, the input friction disc is arranged between the transmission friction disc I and the transmission friction disc II, the limiting plate is fixedly connected with the driving underframe, the lower end rectangular frame is connected with the limiting plate in a sliding mode, the clutch slide bar I is connected with the driving underframe in a rotating mode, the clutch slide bar II is fixedly connected with the clutch slide bar I, the output friction disc is fixedly connected with the clutch slide bar I, the clutch disc I is connected with the clutch slide bar II in a sliding mode, the push spring I is arranged between the clutch disc I and the clutch slide bar II, the clutch disc II is connected with the clutch disc I in a matched mode, the clutch disc II is fixedly connected with.

As a further optimization of the technical scheme, the invention relates to a generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp, wherein the lower end of the driving bottom frame is externally connected with a reaction vessel.

The generator for preparing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp has the beneficial effects that:

the invention relates to a generator for producing coffee cherry powder by microbial aerobic fermentation of coffee pericarp and pulp, which is characterized in that coffee beans to be treated are placed into a material distribution frame through a material inlet frame, meanwhile, an upper end driving rod is driven to move when a crankshaft connecting rod moves, a material distribution sliding rod is driven to slide along an outer end sliding groove through the upper end driving rod, a material distribution plate is driven to move through a hinged connecting rod, and the falling of the coffee beans to be treated is accelerated; while the coffee beans to be treated are filtered by the filter plate.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic view of a dispensing assembly of the present invention;

FIG. 4 is a schematic view of a second embodiment of the dispensing assembly of the present invention;

FIG. 5 is a third schematic view of the feed assembly of the present invention;

FIG. 6 is a first schematic view of the shredder assembly of the present invention;

FIG. 7 is a second schematic view of the shredder assembly of the present invention;

FIG. 8 is a first schematic structural diagram of a driving assembly of the present invention;

fig. 9 is a schematic structural diagram of a driving assembly of the present invention.

In the figure: a material distributing component 1; a material distribution outer frame 1-1; feeding an outer frame 1-2; a hinged connecting rod 1-3; a material distributing slide bar 1-4; outer end chutes 1-5; 1-6 parts of a spherical clamping groove; 1-7 parts of a material distributing plate; 1-8 parts of a filter plate; 1-9 of filter holes; 1-10 parts of a spherical clamping rod; 1-11 parts of a spherical clamping rod push spring; a crushing assembly 2; crushing the outer frame 2-1; 2-2 parts of straight teeth I; 2-3 of a first bevel gear; 2-4 parts of straight teeth II; an upper end driving rod 2-5; 2-6 crankshaft connecting rods; driving a crankshaft 2-7; a lower end driving rod 2-8; 2-9 of a middle-end chute; 2-10 of a bearing rod; 2-11 parts of a straight toothed bar; 2-12 of a crushing hammer; 2-13 of a crushing hammer slide bar; tubular pipelines 2-14; 2-15 parts of a clipper I; 2-16 parts of cross holes; 2-17 parts of a second bevel gear; 2-18 parts of a pusher push spring; the middle end drives the sliding frame 2-19; a drive assembly 3; a driving chassis 3-1; inputting a motor 3-2; 3-3 parts of input friction disc; 3-4 parts of a transmission friction disc; a first transmission friction disc push spring 3-5; 3-6 of an output friction disc; 3-7 of a clutch slide bar I; 3-8 parts of a clutch slide bar II; 3-9 parts of a clutch disc I; 3-10 parts of a second clutch disc; 3-11 of a second transmission friction disc; a second transmission friction disc push spring 3-12; 3-13 parts of a limiting plate; a lower rectangular frame 3-14; and a sealing cover 4.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 9, and a generator for producing coffee cherry powder by microbial aerobic fermentation of coffee cherry peel and pulp, includes a material distributing component 1, a crushing component 2, a driving component 3, and a sealing cover 4, and is characterized in that: divide material subassembly 1 to be connected with crushing unit 2, crushing unit 2 is connected with drive assembly 3, and sealed lid 4 is connected between dividing material subassembly 1 and crushing unit 2.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1-9, and the present embodiment further describes the first embodiment, where the material distributing assembly 1 includes a material distributing outer frame 1-1, a material feeding outer frame 1-2, a hinged connecting rod 1-3, a material distributing slide rod 1-4, an outer end chute 1-5, a spherical clamping groove 1-6, a material distributing plate 1-7, a filter plate 1-8, a filter hole 1-9, a spherical clamping rod 1-10, and a spherical clamping rod push spring 1-11, the material feeding outer frame 1-2 is fixedly connected and communicated with the material distributing outer frame 1-1, the hinged connecting rod 1-3 is hinged to the material distributing slide rod 1-4, two hinged connecting rods 1-3 are provided, the outer end chutes 1-5 are provided on the side wall of the material distributing outer frame 1-1, and a plurality of spherical clamping grooves 1-6 are provided, the device comprises a plurality of spherical clamping grooves 1-6, a material distributing plate 1-7, a filter plate 1-8, a material distributing frame 1-1, a plurality of filter holes 1-9, a plurality of spherical clamping rods 1-10, a material distributing slide rod 1-4, a spherical clamping rod push spring 1-11, a spherical clamping rod 1-10 and a spherical clamping groove 1-6, wherein the spherical clamping grooves 1-6 are respectively arranged on two sides of the inner wall of an outer end sliding groove 1-5, the lower end of the material distributing plate 1-7 is rotatably connected with the inner wall of the material distributing frame 1-1, the filter plate 1-8 is fixedly connected with the material distributing frame 1-1, the plurality of.

The third concrete implementation mode:

the first embodiment is further described with reference to fig. 1-9, wherein the crushing assembly 2 comprises a crushing outer frame 2-1, a first straight tooth 2-2, a first bevel tooth 2-3, a second straight tooth 2-4, an upper end drive rod 2-5, a crankshaft connecting rod 2-6, a drive crankshaft 2-7, a lower end drive rod 2-8, a middle end chute 2-9, a bearing rod 2-10, a straight tooth rod 2-11, a crushing hammer 2-12, a crushing hammer slide rod 2-13, a cylindrical pipeline 2-14, a first pusher 2-15, a cross hole 2-16, a second bevel tooth 2-17, a pusher push spring 2-18 and a middle end drive slide frame 2-19, the first straight tooth 2-2 is fixedly connected with the straight tooth rod 2-11, the straight tooth rod 2-11 is rotatably connected with the crushing outer frame 2-1, a plurality of straight tooth rods 2-11, straight tooth I2-2, crushing hammers 2-12, crushing hammer slide rods 2-13, barrel-shaped pipelines 2-14, clipper I2-15, cross holes 2-16, cone tooth II 2-17 and clipper push springs 2-18 are arranged, the straight tooth rods 2-11, the straight tooth I2-2, the crushing hammers 2-12, the crushing hammer slide rods 2-13, the barrel-shaped pipelines 2-14, the clipper I2-15, the cross holes 2-16, the cone tooth II 2-17 and the clipper push springs 2-18 are in one-to-one correspondence, the straight tooth II 2-4 is rotationally connected with a crushing outer frame 2-1, the straight tooth II 2-4 is meshed with the straight tooth I2-2 for transmission, the cone tooth I2-3 is fixedly connected with the straight tooth II 2-4, the cone tooth I2-3 is meshed with the cone tooth II 2-17 for transmission, the second bevel gear 2-17 is fixedly connected with a driving crankshaft 2-7, the driving crankshaft 2-7 is rotatably connected with a crushing outer frame 2-1, an upper end driving rod 2-5 is slidably connected with the upper end of a crankshaft connecting rod 2-6, a lower end driving rod 2-8 is slidably connected with the lower end of the crankshaft connecting rod 2-6, the driving crankshaft 2-7 is rotatably connected with the crankshaft connecting rod 2-6, a middle end chute 2-9 is arranged on the crushing outer frame 2-1, a bearing rod 2-10 is fixedly connected with the crushing outer frame 2-1, a cylindrical pipeline 2-14 is arranged on the bearing rod 2-10, a first pusher 2-15 is slidably connected with a cylindrical pipeline 2-14, a pusher push spring 2-18 is arranged between the first pusher 2-15 and the cylindrical pipeline 2-14, a cross hole 2-16 is arranged on the bearing rod 2-10, the crushing hammer sliding rod 2-13 is matched and connected with a sliding rail through a sliding groove 2-11, the sliding rail is arranged on a straight tooth rod 2-11, the sliding groove is arranged on the crushing hammer sliding rod 2-13, the crushing hammer 2-12 is fixedly connected with the crushing hammer sliding rod 2-13, a middle end driving sliding frame 2-19 is rotatably connected with the crushing hammer sliding rod 2-13, a middle end driving sliding frame 2-19 is slidably connected with a middle end sliding groove 2-9, a middle end driving sliding frame 2-19 is fixedly connected with a lower end driving rod 2-8, a material distribution outer frame 1-1 is fixedly connected with a crushing outer frame 2-1, a sealing cover 4 is fixedly connected between the material distribution outer frame 1-1 and the crushing outer frame 2-1, and an upper end driving rod 2-5 is fixedly connected with the material distribution sliding rod 1-4.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-9, and the embodiment will be further described, wherein the driving assembly 3 includes a driving chassis 3-1, an input motor 3-2, an input friction disk 3-3, a transmission friction disk first 3-4, a transmission friction disk push spring first 3-5, an output friction disk 3-6, a clutch slide rod first 3-7, a clutch slide rod second 3-8, a clutch disk first 3-9, a clutch disk second 3-10, a transmission friction disk second 3-11, a transmission friction disk push spring second 3-12, a limit plate 3-13, a lower rectangular frame 3-14, the input motor 3-2 is fixedly connected with the driving chassis 3-1, the input friction disk 3-3 is fixedly connected with the input motor 3-2, the transmission friction disk first 3-4 is rotatably connected with the lower rectangular frame 3-14, a first transmission friction disc push spring 3-5 is connected with a first transmission friction disc 3-4 in a sleeved mode, the first transmission friction disc push spring 3-5 is arranged between the first transmission friction disc 3-4 and a lower rectangular frame 3-14, a second transmission friction disc 3-11 is rotatably connected with the lower rectangular frame 3-14, a second transmission friction disc push spring 3-12 is arranged between the second transmission friction disc 3-11 and the lower rectangular frame 3-14, a second transmission friction disc push spring 3-12 is connected with the second transmission friction disc 3-11 in a sleeved mode, an input friction disc 3-3 is arranged between the first transmission friction disc 3-4 and the second transmission friction disc 3-11, a limiting plate 3-13 is fixedly connected with a driving bottom frame 3-1, the lower rectangular frame 3-14 is connected with the limiting plate 3-13 in a sliding mode, a first clutch slide rod 3-7 is rotatably connected with the driving bottom frame 3-1, a second clutch slide bar 3-8 is fixedly connected with a first clutch slide bar 3-7, an output friction disc 3-6 is fixedly connected with the first clutch slide bar 3-7, a first clutch disc 3-9 is slidably connected with the second clutch slide bar 3-8, a first push spring is arranged between the first clutch disc 3-9 and the second clutch slide bar 3-8, a second clutch disc 3-10 is connected with the first clutch disc 3-9 in a matching way, the second clutch disc 3-10 is fixedly connected with a driving crankshaft 2-7, and a crushing outer frame 2-1 is fixedly connected with a driving bottom frame 3-1;

starting an input motor 3-2, driving an input friction disc 3-3 to move through the input motor 3-2, driving a transmission friction disc I3-4 and a transmission friction disc II 3-11 to rotate through the input friction disc 3-3, driving an output friction disc 3-6 to rotate through the transmission friction disc I3-4 and the transmission friction disc II 3-11, driving a clutch slide bar I3-7 to rotate through the output friction disc 3-6, driving a clutch slide bar II 3-8 to rotate through the clutch slide bar I3-7, driving a clutch disc I3-9 to move through the clutch slide bar II 3-8, driving a clutch disc II 3-10 to move through the clutch disc I3-9, and further facilitating power output; meanwhile, the lower end rectangular frame 3-14 can slide along the limiting plate 3-13, and then the transmission positions of the first transmission friction disc 3-4 and the second transmission friction disc 3-11 between the input friction disc 3-3 and the output friction disc 3-6 are adjusted through the lower end rectangular frame 3-14, so that the rotating speed output through the second clutch disc 3-10 is changed, and further the machining speed of the device is conveniently adjusted.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 9, and the present embodiment further describes the first embodiment, in which the lower end of the driving chassis 3-1 is externally connected to a reaction vessel.

The invention relates to a generator for preparing coffee cherry powder by microorganism aerobic fermentation of coffee pericarp and pulp, which has the working principle that:

when in use, the input motor 3-2 is started, and the input friction disc 3-3 is driven to move by the input motor 3-2, further drives the first transmission friction disk 3-4 and the second transmission friction disk 3-11 to rotate through the input friction disk 3-3, the output friction discs 3-6 are driven to rotate by the transmission friction discs 3-4 and the transmission friction discs 3-11, the clutch slide bar I3-7 is driven to rotate by the output friction disc 3-6, the clutch slide bar II 3-8 is driven to rotate by the clutch slide bar I3-7, the clutch slide bar II 3-8 drives the clutch disc I3-9 to move, and the clutch disc I3-9 drives the clutch disc II 3-10 to move, so that power output is convenient; meanwhile, the lower end rectangular frame 3-14 can slide along the limiting plate 3-13, and then the transmission positions of the first transmission friction disc 3-4 and the second transmission friction disc 3-11 between the input friction disc 3-3 and the output friction disc 3-6 are adjusted through the lower end rectangular frame 3-14, so that the rotating speed output through the second clutch disc 3-10 is changed, and the machining speed of the device is conveniently adjusted; the second clutch disc 3-10 drives the driving crankshaft 2-7 to rotate, the lower end driving rod 2-8 is driven to move through the crankshaft connecting rod 2-6, the middle end driving sliding frame 2-19 is driven to slide along the middle end sliding groove 2-9 through the lower end driving rod 2-8, the crushing hammer sliding rod 2-13 is driven to slide in a reciprocating mode along the vertical direction of the straight toothed rod 2-11 through the middle end driving sliding frame 2-19, the crushing hammer 2-12 is driven to slide in a reciprocating mode in the vertical direction, and meanwhile, the crushing hammer 2-12 is in contact with coffee beans, so that the coffee beans are crushed; meanwhile, the driving crankshaft 2-7 rotates to drive the bevel teeth II 2-17 to rotate, further the bevel teeth II 2-17 drives the bevel teeth I2-3 to rotate, further the straight teeth I2-2 to rotate through the straight teeth II 2-4, further the straight teeth I2-2 drives the straight teeth rods 2-11 to rotate, further the straight teeth rods 2-11 drive the crushing hammer slide rods 2-13 to rotate, further the crushing hammer slide rods 2-13 drive the crushing hammers 2-12 to rotate, further the crushing of coffee beans is realized, meanwhile, the crushed coffee beans fall into a reaction vessel externally connected with the lower end of the driving chassis 3-1 through the cross holes 2-16, further the fermentation is realized through the contact of microorganisms, and further the treatment of the coffee beans is realized; coffee beans to be processed are placed into the material distribution frame 1-1 through the material feeding frame 1-2, meanwhile, when the crankshaft connecting rod 2-6 moves, the upper end driving rod 2-5 is driven to move, the material distribution sliding rod 1-4 is driven to slide along the outer end sliding groove 1-5 through the upper end driving rod 2-5, the material distribution plate 1-7 is driven to move through the hinged connecting rod 1-3, and then the falling of the coffee beans to be processed is accelerated; while the coffee beans to be treated are filtered by the filter plate 1-8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a microorganism aerobic fermentation coffee pericarp pulp system coffee cherry powder generator, is including dividing material subassembly (1), crushing unit (2), drive assembly (3), sealed lid (4), its characterized in that: divide material subassembly (1) to be connected with crushing unit (2), crushing unit (2) is connected with drive assembly (3), and sealed lid (4) are connected and are divided between material subassembly (1) and crushing unit (2).

2. The generator of claim 1, wherein the generator comprises: the material distribution assembly (1) comprises a material distribution outer frame (1-1), a material feeding outer frame (1-2), a hinged connecting rod (1-3), material distribution slide bars (1-4), an outer end sliding groove (1-5), a spherical clamping groove (1-6), a material distribution plate (1-7), a filter plate (1-8), filter holes (1-9), spherical clamping rods (1-10) and spherical clamping rod push springs (1-11), wherein the material feeding outer frame (1-2) is fixedly connected and communicated with the material distribution outer frame (1-1), the hinged connecting rod (1-3) is hinged with the material distribution slide bars (1-4), two hinged connecting rods (1-3) are arranged, the outer end sliding grooves (1-5) are arranged on the side wall of the material distribution outer frame (1-1), and a plurality of spherical clamping grooves (1-6) are arranged, the filter plate is characterized in that a plurality of spherical clamping grooves (1-6) are respectively arranged on two sides of the inner wall of an outer end sliding groove (1-5), the lower end of a material distributing plate (1-7) is rotatably connected with the inner wall of a material distributing outer frame (1-1), a filter plate (1-8) is fixedly connected with the material distributing outer frame (1-1), a plurality of filter holes (1-9) are arranged, a plurality of filter holes (1-9) are all arranged on the filter plate (1-8), spherical clamping rods (1-10) are slidably connected with material distributing sliding rods (1-4), spherical clamping rod pushing springs (1-11) are arranged between the two spherical clamping rods (1-10), and the spherical clamping rods (1-10) are connected with the spherical clamping grooves (1-6) in a matched mode.

3. The generator of claim 1, wherein the generator comprises: the crushing component (2) comprises a crushing outer frame (2-1), a straight tooth I (2-2), a bevel tooth I (2-3), a straight tooth II (2-4), an upper end driving rod (2-5), a crankshaft connecting rod (2-6), a driving crankshaft (2-7), a lower end driving rod (2-8), a middle end chute (2-9), a bearing rod (2-10), a straight tooth rod (2-11), a crushing hammer (2-12), a crushing hammer sliding rod (2-13), a cylindrical pipeline (2-14), a pusher I (2-15), a cross hole (2-16), a bevel tooth II (2-17), a pusher push spring (2-18) and a middle end driving sliding frame (2-19), wherein the straight tooth I (2-2) is fixedly connected with the straight tooth rod (2-11), the straight toothed bar (2-11) is rotationally connected with the crushing outer frame (2-1), the straight toothed bar (2-11), the straight toothed first (2-2), the crushing hammer (2-12), the crushing hammer slide bar (2-13), the cylindrical pipeline (2-14), the clipper first (2-15), the cross hole (2-16), the bevel gear second (2-17) and the clipper push spring (2-18) are all provided with a plurality of straight toothed bar (2-11), the straight toothed first (2-2), the crushing hammer (2-12), the crushing hammer slide bar (2-13), the cylindrical pipeline (2-14), the clipper first (2-15), the cross hole (2-16), the bevel gear second (2-17) and the clipper push spring (2-18) which are in one-to-one correspondence, the straight toothed second (2-4) is rotationally connected with the crushing outer frame (2-1), a straight tooth I (2-4) is in meshing transmission with a straight tooth I (2-2), a bevel tooth I (2-3) is fixedly connected with the straight tooth II (2-4), a bevel tooth I (2-3) is in meshing transmission with a bevel tooth II (2-17), the bevel tooth II (2-17) is fixedly connected with a driving crankshaft (2-7), the driving crankshaft (2-7) is rotationally connected with a crushing outer frame (2-1), an upper end driving rod (2-5) is in sliding connection with the upper end of a crankshaft connecting rod (2-6), a lower end driving rod (2-8) is in sliding connection with the lower end of the crankshaft connecting rod (2-6), the driving crankshaft (2-7) is rotationally connected with the crankshaft connecting rod (2-6), a middle end chute (2-9) is arranged on the crushing outer frame (2-1), a bearing rod (2-10) is fixedly connected with the crushing outer frame (2-1), the cylindrical pipeline (2-14) is arranged on a bearing rod (2-10), a first pusher (2-15) is connected with the cylindrical pipeline (2-14) in a sliding way, a pushing spring (2-18) of the pusher is arranged between the first pusher (2-15) and the cylindrical pipeline (2-14), a cross hole (2-16) is arranged on the bearing rod (2-10), a crushing hammer sliding rod (2-13) and a straight tooth rod (2-11) are connected with a sliding rail in a matching way through a sliding groove, the sliding rail is arranged on the straight tooth rod (2-11), the sliding groove is arranged on the crushing hammer sliding rod (2-13), a crushing hammer (2-12) is fixedly connected with the crushing hammer sliding rod (2-13), a middle end driving sliding frame (2-19) is rotationally connected with the crushing hammer sliding rod (2-13), a middle end driving sliding frame (2-19) is connected with a middle end sliding groove (2-9) in a sliding way, the middle-end driving sliding frame (2-19) is fixedly connected with the lower-end driving rod (2-8), the material distribution outer frame (1-1) is fixedly connected with the crushing outer frame (2-1), the sealing cover (4) is fixedly connected between the material distribution outer frame (1-1) and the crushing outer frame (2-1), and the upper-end driving rod (2-5) is fixedly connected with the material distribution sliding rod (1-4).

4. The generator of claim 1, wherein the generator comprises: the driving component (3) comprises a driving underframe (3-1), an input motor (3-2), an input friction disc (3-3), a transmission friction disc I (3-4), a transmission friction disc push spring I (3-5), an output friction disc (3-6), a clutch slide bar I (3-7), a clutch slide bar II (3-8), a clutch disc I (3-9), a clutch disc II (3-10), a transmission friction disc II (3-11), a transmission friction disc push spring II (3-12), a limiting plate (3-13) and a lower end rectangular frame (3-14), wherein the input motor (3-2) is fixedly connected with the driving underframe (3-1), the input friction disc (3-3) is fixedly connected with the input motor (3-2), and the transmission friction disc I (3-4) is rotatably connected with the lower end rectangular frame (3-14), a first transmission friction disc push spring (3-5) is connected with a first transmission friction disc (3-4) in a sleeved mode, the first transmission friction disc push spring (3-5) is arranged between the first transmission friction disc (3-4) and a lower end rectangular frame (3-14), a second transmission friction disc (3-11) is rotatably connected with the lower end rectangular frame (3-14), a second transmission friction disc push spring (3-12) is arranged between the second transmission friction disc (3-11) and the lower end rectangular frame (3-14), the second transmission friction disc push spring (3-12) is connected with the second transmission friction disc (3-11) in a sleeved mode, an input friction disc (3-3) is arranged between the first transmission friction disc (3-4) and the second transmission friction disc (3-11), a limiting plate (3-13) is fixedly connected with a driving underframe (3-1), the lower end rectangular frame (3-14) is connected with a limiting plate (3-13) in a sliding mode, a clutch slide bar I (3-7) is connected with a driving underframe (3-1) in a rotating mode, a clutch slide bar II (3-8) is fixedly connected with the clutch slide bar I (3-7), an output friction disc (3-6) is fixedly connected with the clutch slide bar I (3-7), a clutch disc I (3-9) is connected with the clutch slide bar II (3-8) in a sliding mode, a push spring I is arranged between the clutch disc I (3-9) and the clutch slide bar II (3-8), a clutch disc II (3-10) is connected with the clutch disc I (3-9) in a matching mode, a clutch disc II (3-10) is fixedly connected with a driving crankshaft (2-7), and a crushing outer frame (2-1) is fixedly connected with the driving underframe (3-1).

5. The microbial aerobic fermentation coffee cherry pulp-making coffee cherry powder generator of claim 4, wherein: the lower end of the driving underframe (3-1) is externally connected with a reaction vessel.