阅读说明：本技术 一种防碎化桦褐孔菌分块处理方法 (Anti-fragmentation inonotus obliquus blocking treatment method ) 是由 吴明学 于 2021-05-25 设计创作，主要内容包括：本发明涉及一种桦褐孔菌领域,尤其涉及一种防碎化桦褐孔菌分块处理方法。本发明的技术问题为：提供一种防碎化桦褐孔菌分块处理方法。技术方案：一种防碎化桦褐孔菌分块处理方法,该防碎化桦褐孔菌分块处理方法采用如下加工设备,该加工设备包括有撕裂预处理系统、辅助支撑系统、错位分块系统、热辅助裂壳系统、风机和加热箱；工作机床板下方与支撑脚柱进行焊接。本发明实现了桦褐孔菌的自动分块操作,对大块的桦褐孔菌进行插孔,然后通过这些孔进行反向施力,避免了使用重物敲击破碎造成的桦褐孔菌碎化浪费的问题,保证了桦褐孔菌分开后不会产生大量碎屑,不会出现粒径较小的碎块和碎渣的效果。(The invention relates to the field of inonotus obliquus, and in particular relates to a fragmentation-preventing inonotus obliquus blocking treatment method. The technical problem of the invention is as follows: provides a fragmentation-proof inonotus obliquus blocking treatment method. The technical scheme is as follows: a fragmentation-proof inonotus obliquus blocking treatment method adopts the following processing equipment, and the processing equipment comprises a tearing pretreatment system, an auxiliary support system, a staggered blocking system, a heat-assisted shell cracking system, a fan and a heating box; the lower part of the bed plate of the working machine is welded with the supporting foot posts. According to the invention, the automatic blocking operation of the inonotus obliquus is realized, the large inonotus obliquus is subjected to inserting holes, and then reverse force application is carried out through the holes, so that the problem of inonotus obliquus fragmentation waste caused by knocking and crushing by using a heavy object is avoided, a large amount of fragments are not generated after the inonotus obliquus is separated, and the effects of fragments and slag with small particle size are not generated.)

1. A fragmentation-proof inonotus obliquus blocking processing method adopts the following processing equipment, and the processing equipment comprises a working machine bed plate, supporting foot columns and fixed mounting columns, and is characterized by further comprising an operation control screen, a tearing pretreatment system, an auxiliary supporting system, a dislocation blocking system, a heat auxiliary cracking system, a collecting box, a fan and a heating box; the lower part of the bed plate of the working machine is welded with the supporting leg; the upper part of the working machine tool plate is connected with the fixed mounting column through a bolt; the fixed mounting column is connected with the operation control screen; the upper part of the working machine tool plate is connected with a tearing pretreatment system; the upper part of the bed plate of the working machine is connected with an auxiliary supporting system; the auxiliary supporting system is connected with the tearing pretreatment system; the upper part of the working machine tool plate is connected with a staggered block system; the staggered partitioning system is connected with the tearing pretreatment system; the tearing pretreatment system is connected with the heat-assisted shell cracking system; the upper part of the working machine tool plate is connected with the collecting box; the upper part of the working machine tool plate is connected with a fan through a bolt; the upper part of the working machine tool plate is connected with the heating box through bolts;

the fragmentation-preventing inonotus obliquus blocking treatment method comprises the following steps:

the method comprises the following steps: tearing and slotting, namely fixing the inonotus obliquus to a tearing pretreatment system, inserting the tearing pretreatment system into the inonotus obliquus from the bottom, and controlling a heat-assisted shell cracking system to heat and dry the inonotus obliquus to evaporate water of the inonotus obliquus;

step two: the method comprises the following steps of staggered tearing, namely, after a hole is inserted into the surface of the inonotus obliquus by a tearing pretreatment system, fixing the inonotus obliquus to a staggered partitioning system, and dislocating and partitioning the inonotus obliquus into small blocks by the staggered partitioning system through the hole inserted into the surface of the inonotus obliquus by the tearing pretreatment system;

step three: support the adjustment, fix when tearing pretreatment systems to the crooked inonotus obliquus of part growth, can't stabilize fixedly, control auxiliary stay system this moment supports crooked inonotus obliquus, then can guarantee to tear pretreatment systems and can carry out stable operation to inonotus obliquus.

2. The method for processing the inonotus obliquus into pieces according to claim 1, wherein the tearing pretreatment system comprises a mounting portal frame, an electric telescopic lifting platform, a mounting fixing rod, a first electric rotating shaft seat, a first sharp knife acanthopore plate, a second electric rotating shaft seat, a second sharp knife acanthopore plate, a third electric rotating shaft seat, a third sharp knife acanthopore plate, a fourth electric rotating shaft seat, a fourth sharp knife acanthopore plate, a first electric rotating clamping plate, a second electric rotating clamping plate, a third electric rotating clamping plate, a first pore plate, a sharp knife acantho, a collecting mounting plate, a limiting sliding rod, a first cam, a first shaft bearing seat and a working bed; installing the lower part of the portal frame to be in bolted connection with a working machine tool plate; the electric telescopic lifting platform is connected with the installation portal frame through bolts; the mounting fixed rod is fixedly connected with the electric telescopic lifting platform; the first electric rotating shaft seat is connected with the mounting fixing rod; the first sharp knife acanthosis plate is connected with the first electric rotating shaft seat; the second electric rotating shaft seat is connected with the first sharp knife acanthosis plate; the second sharp knife acanthosis plate is connected with the second electric rotating shaft seat; the third electric rotating shaft seat is connected with the mounting fixing rod; the third sharp knife acanthosis plate is connected with the third electric rotating shaft seat; the fourth electric rotating shaft seat is connected with the third sharp knife-stab plate; the fourth sharp knife acanthosis plate is connected with the fourth electric rotating shaft seat; the first electric rotating clamping plate is connected with the working bed; the second electric rotating clamping plate is connected with the working bed; the third electric rotating clamping plate is connected with the working bed; the first hole position plate is fixedly connected with the working bed; a pointed knife thorn is arranged on the inner side of the first hole site plate; the upper part of the assembly mounting plate is fixedly connected with the pointed knife thorn; the limiting slide rod is in sliding connection with the set mounting plate; the lower part of the limiting slide rod is fixedly connected with a working machine tool plate; the first cam is in transmission connection with the set mounting plate; the first cam is connected with the dislocation blocking system; the lower part of the first bearing seat is connected with a working machine tool plate through a bolt; the first bearing seat is connected with the staggered partitioning system; the lower part of the working bed is connected with a working machine tool plate through bolts; the working bed is connected with the auxiliary supporting system; the working bed is connected with a heat-assisted cracking system.

3. The method for processing the fragmentation-preventing Inonotus obliquus into blocks according to claim 2, wherein the auxiliary support system comprises a first mounting frame plate, a support rubber plate, a second mounting frame plate, a first electric expansion plate and a second electric expansion plate; the lower part of the first mounting frame plate is connected with a working machine tool plate through a bolt; the first mounting frame plate is fixedly connected with the working bed; the supporting rubber plate is rotatably connected with the first mounting frame plate; the lower part of the second mounting frame plate is connected with a working machine tool plate through bolts; the second mounting frame plate is rotatably connected with the supporting rubber plate; the second mounting frame plate is fixedly connected with the working bed; the first electric expansion plate is rotatably connected with the supporting rubber plate; the first electric expansion plate is in sliding connection with the first mounting frame plate; the second electric expansion plate is rotatably connected with the supporting rubber plate; the second electric expansion plate is connected with the second mounting frame plate in a sliding mode.

4. The method for processing the fragmentation-preventing Inonotus obliquus into pieces according to claim 3, wherein the dislocation-blocking system comprises a power motor, a rotating shaft rod, a second cam, a lifting control rod, a first slotting limiting plate, a second bearing seat, a first control mechanism, a second control mechanism, a first installation lath, a second installation lath, a limiting strip column, a second hole position plate, a first pointed inserting plate, a second pointed inserting plate, a first transmission return spring, a third pointed inserting plate, a second transmission return spring, a first installation plate, a third transmission return spring, a fourth pointed inserting plate, a fourth transmission return spring and a second installation plate; the lower part of the power motor is connected with a working machine tool plate through a bolt; the rotating shaft rod is fixedly connected with an output shaft of the power motor; the rotating shaft rod is rotatably connected with the first bearing seat; the rotating shaft rod is fixedly connected with the first cam; the axle center of the second cam is fixedly connected with the rotating shaft rod; the lifting control rod is in transmission connection with the second cam; the first slotting limiting plate is in sliding connection with the lifting control rod; the lower part of the first slotting limit plate is connected with a working machine tool plate through a bolt; the second slotting limiting plate is in sliding connection with the lifting control rod; the lower part of the second slotting limit plate is connected with a working machine tool plate through a bolt; the lower part of the second bearing seat is connected with a working machine tool plate through a bolt; the second bearing block is rotationally connected with the rotating shaft rod; the first control mechanism is connected with the lifting control rod; the second control mechanism is connected with the lifting control rod; the lower part of the first installation batten is connected with a first control mechanism; the lower part of the first installation batten is connected with a second control mechanism; the lower part of the second mounting strip is connected with a first control mechanism; the lower part of the second mounting strip is connected with a second control mechanism; the limiting strip column is in sliding connection with the first mounting strip plate; the limiting strip column is in sliding connection with the second mounting strip plate; the second hole position plate is fixedly connected with the limiting strip column; the lower part of the second hole position plate is fixedly connected with a working machine tool plate; the second hole site plate is connected with the first control mechanism; the first pointed end inserting plate is fixedly connected with the first mounting strip plate; the first pointed end inserting plate is connected with the second hole site plate in a sliding manner; the second pointed end inserting plate is fixedly connected with the second mounting strip plate; the second pointed end inserting plate is in sliding connection with the second hole site plate; the first transmission return spring is connected with the first pointed end plugboard; the third tip plug board is connected with the first transmission return spring; the third tip plug board is in sliding connection with the second hole site board; the second transmission return spring is connected with the third tip inserting plate; the first mounting plate is connected with a second transmission return spring; the first mounting plate is fixedly connected with the second hole site plate; the third transmission return spring is connected with the second pointed inserting plate; the fourth pointed end plugboard is connected with a third transmission return spring; the fourth pointed end inserting plate is in sliding connection with the second hole site plate; the fourth transmission return spring is connected with the fourth pointed inserting plate; the second mounting plate is connected with a fourth transmission return spring; the second mounting plate is fixedly connected with the second hole site plate.

5. The method for processing the fragmentation-resistant Inonotus obliquus according to claim 4, wherein the heat-assisted shell cracking system comprises a third mounting plate, an electric slide rail plate, an electric slide seat, a third mounting plate and a hot air cylinder; the third installation batten is fixedly connected with the working bed; the lower part of the electric slide rail plate is connected with a third mounting strip plate through bolts; the electric sliding seat is connected with the electric sliding rail plate in a sliding manner; the lower part of the third mounting plate is connected with the electric sliding seat through a bolt; the hot air cylinder is inserted with the third mounting plate.

6. The method for processing the fragmentation-proof inonotus obliquus blocks as claimed in claim 5, wherein the first control mechanism comprises a mounting column bar, a slotted top control rod, a first limit slider, a second limit slider, a staggered shifting plate, a torsion spring rotating shaft column, a first mounting block, a control round rod, a second mounting block, a first connecting shaft frame, a second connecting shaft frame, a first connecting shaft seat plate and a second connecting shaft seat plate; the mounting column bar is connected with the lifting control rod through a bolt; the lower part of the slotted upper jacking control rod is fixedly connected with the mounting column bar; the first limiting slide block is in sliding connection with the slotted upper jacking control rod; the first limiting slide block is fixedly connected with the second hole site plate; the second limiting slide block is in sliding connection with the slotted upper jacking control rod; the second limiting slide block is fixedly connected with the second hole site plate; a staggered shifting plate is arranged above the slotted upper jacking control rod; the torsion spring rotating shaft column is connected with the second hole position plate; the torsion spring rotating shaft column is connected with the dislocation poking plate; the lower part of the first mounting block is fixedly connected with a lifting control rod; the control round rod is fixedly connected with the first mounting block; the second mounting block is fixedly connected with the control round rod; the lower part of the second mounting block is fixedly connected with the lifting control rod; the first connecting shaft bracket is rotationally connected with the control round rod; the second connecting shaft bracket is rotationally connected with the control round rod; the first connecting shaft base plate is rotatably connected with the first connecting shaft frame; the upper part of the first connecting shaft seat plate is fixedly connected with the second mounting strip plate; the second connecting shaft base plate is rotationally connected with the second connecting shaft frame; the upper part of the second connecting shaft seat plate is fixedly connected with the first mounting strip plate.

7. The method for processing the fragmented Inonotus obliquus according to claim 2, wherein the first, second and third electric rotating clamping plates are provided with rubber sleeves on their surfaces.

8. The method of claim 4, wherein a baffle is attached to the second hole site plate adjacent to the tear pretreatment system.

Technical Field

The invention relates to the field of inonotus obliquus, and in particular relates to a fragmentation-preventing inonotus obliquus blocking treatment method.

Background

Birch tears are colorless or slightly yellowish transparent liquid, have delicate fragrance of pine, contain carbohydrate, amino acid, organic acid, and various inorganic salts which are necessary and easily absorbed by human body, and contain essential oil, betulin, saponin compound, cytokinin, etc.

At present, in the prior art, the size of inonotus obliquus is large, the inonotus obliquus is often required to be firstly crushed in the actual selling and using processes, the medicinal material is manually crushed by knocking with a heavy object, but in the knocking process with the heavy object, the inonotus obliquus inevitably generates small-particle-size fragments and dregs, the small-particle-size fragments and dregs do not have enough medicinal value, the small-particle-size fragments cannot be sold and used, waste is caused, meanwhile, the size of the fragments cannot be controlled by manual knocking, the accidental occurrence is strong, the problem that the fragments fly during knocking occurs, the fragments are difficult to collect subsequently, and the fragments can fly to a human body to cause injury; and some inonotus obliquus grows in the handing-over department of branch and trunk, and its cutting section is curved class arc state, and when handling a part section, another part section is in unsettled state certainly, if unsettled part is bulky, lacks supporting mechanism again, the phenomenon that the fracture dropped can appear when knocking the process.

Aiming at the problems, a fragmentation-preventing inonotus obliquus blocking treatment method is provided.

Disclosure of Invention

In order to overcome the problems that in the prior art, the size of the Inonotus obliquus is large, the Inonotus obliquus is often required to be firstly crushed in the actual sale and use processes, the medicinal material is manually and often crushed by knocking with a heavy object, but in the knocking process with the heavy object, the Inonotus obliquus inevitably generates small-particle-size fragments and dregs which do not have enough medicinal value and cannot be sold and used, waste is caused, meanwhile, the size of the fragments cannot be controlled by manual knocking, the accidental occurrence is strong, and the fragments fly during knocking process, are difficult to collect subsequently and can fly to the human body to cause injury; and some inonotus obliquus grows in the junction of branch and trunk, its cut section is the curved arc-like state, when dealing with some sections, another part section is in the unsettled state inevitably, if unsettled part is bulky, lack the supporting mechanism again, may appear breaking the shortcoming that drops the phenomenon when knocking the process, the technical problem of the invention is: provides a fragmentation-proof inonotus obliquus blocking treatment method.

The technical scheme is as follows: a fragmentation-proof inonotus obliquus blocking treatment method adopts the following processing equipment, and the processing equipment comprises a working machine bed plate, supporting foot columns, fixed mounting columns, an operation control screen, a tearing pretreatment system, an auxiliary supporting system, a staggered blocking system, a heat-assisted cracking system, a collecting box, a fan and a heating box; the lower part of the bed plate of the working machine is welded with the supporting leg; the upper part of the working machine tool plate is connected with the fixed mounting column through a bolt; the fixed mounting column is connected with the operation control screen; the upper part of the working machine tool plate is connected with a tearing pretreatment system; the upper part of the bed plate of the working machine is connected with an auxiliary supporting system; the auxiliary supporting system is connected with the tearing pretreatment system; the upper part of the working machine tool plate is connected with a staggered block system; the staggered partitioning system is connected with the tearing pretreatment system; the tearing pretreatment system is connected with the heat-assisted shell cracking system; the upper part of the working machine tool plate is connected with the collecting box; the upper part of the working machine tool plate is connected with a fan through a bolt; the upper part of the working machine tool plate is connected with the heating box through bolts;

the fragmentation-preventing inonotus obliquus blocking treatment method comprises the following steps:

the method comprises the following steps: tearing and slotting, namely fixing the inonotus obliquus to a tearing pretreatment system, inserting the tearing pretreatment system into the inonotus obliquus from the bottom, and controlling a heat-assisted shell cracking system to heat and dry the inonotus obliquus to evaporate water of the inonotus obliquus;

step two: the method comprises the following steps of staggered tearing, namely, after a hole is inserted into the surface of the inonotus obliquus by a tearing pretreatment system, fixing the inonotus obliquus to a staggered partitioning system, and dislocating and partitioning the inonotus obliquus into small blocks by the staggered partitioning system through the hole inserted into the surface of the inonotus obliquus by the tearing pretreatment system;

step three: support the adjustment, fix when tearing pretreatment systems to the crooked inonotus obliquus of part growth, can't stabilize fixedly, control auxiliary stay system this moment supports crooked inonotus obliquus, then can guarantee to tear pretreatment systems and can carry out stable operation to inonotus obliquus.

In addition, it is particularly preferable that the tearing pretreatment system comprises an installation portal frame, an electric telescopic lifting platform, an installation fixing rod, a first electric rotating shaft seat, a first sharp knife acanthosis plate, a second electric rotating shaft seat, a second sharp knife acanthosis plate, a third electric rotating shaft seat, a third sharp knife acanthosis plate, a fourth electric rotating shaft seat, a fourth sharp knife acanthosis plate, a first electric rotating clamping plate, a second electric rotating clamping plate, a third electric rotating clamping plate, a first hole position plate, a sharp knife acanthosis, a set mounting plate, a limit slide bar, a first cam, a first bearing seat and a working bed; installing the lower part of the portal frame to be in bolted connection with a working machine tool plate; the electric telescopic lifting platform is connected with the installation portal frame through bolts; the mounting fixed rod is fixedly connected with the electric telescopic lifting platform; the first electric rotating shaft seat is connected with the mounting fixing rod; the first sharp knife acanthosis plate is connected with the first electric rotating shaft seat; the second electric rotating shaft seat is connected with the first sharp knife acanthosis plate; the second sharp knife acanthosis plate is connected with the second electric rotating shaft seat; the third electric rotating shaft seat is connected with the mounting fixing rod; the third sharp knife acanthosis plate is connected with the third electric rotating shaft seat; the fourth electric rotating shaft seat is connected with the third sharp knife-stab plate; the fourth sharp knife acanthosis plate is connected with the fourth electric rotating shaft seat; the first electric rotating clamping plate is connected with the working bed; the second electric rotating clamping plate is connected with the working bed; the third electric rotating clamping plate is connected with the working bed; the first hole position plate is fixedly connected with the working bed; a pointed knife thorn is arranged on the inner side of the first hole site plate; the upper part of the assembly mounting plate is fixedly connected with the pointed knife thorn; the limiting slide rod is in sliding connection with the set mounting plate; the lower part of the limiting slide rod is fixedly connected with a working machine tool plate; the first cam is in transmission connection with the set mounting plate; the first cam is connected with the dislocation blocking system; the lower part of the first bearing seat is connected with a working machine tool plate through a bolt; the first bearing seat is connected with the staggered partitioning system; the lower part of the working bed is connected with a working machine tool plate through bolts; the working bed is connected with the auxiliary supporting system; the working bed is connected with a heat-assisted cracking system.

In addition, it is particularly preferred that the auxiliary supporting system comprises a first mounting frame plate, a supporting rubber plate, a second mounting frame plate, a first electric expansion plate and a second electric expansion plate; the lower part of the first mounting frame plate is connected with a working machine tool plate through a bolt; the first mounting frame plate is fixedly connected with the working bed; the supporting rubber plate is rotatably connected with the first mounting frame plate; the lower part of the second mounting frame plate is connected with a working machine tool plate through bolts; the second mounting frame plate is rotatably connected with the supporting rubber plate; the second mounting frame plate is fixedly connected with the working bed; the first electric expansion plate is rotatably connected with the supporting rubber plate; the first electric expansion plate is in sliding connection with the first mounting frame plate; the second electric expansion plate is rotatably connected with the supporting rubber plate; the second electric expansion plate is connected with the second mounting frame plate in a sliding mode.

In addition, it is particularly preferable that the dislocation blocking system comprises a power motor, a spindle rod, a second cam, a lifting control rod, a first slotting limiting plate, a second bearing seat, a first control mechanism, a second control mechanism, a first mounting lath, a second mounting lath, a limiting strip column, a second hole position plate, a first pointed inserting plate, a second pointed inserting plate, a first transmission return spring, a third pointed inserting plate, a second transmission return spring, a first mounting plate, a third transmission return spring, a fourth pointed inserting plate, a fourth transmission return spring and a second mounting plate; the lower part of the power motor is connected with a working machine tool plate through a bolt; the rotating shaft rod is fixedly connected with an output shaft of the power motor; the rotating shaft rod is rotatably connected with the first bearing seat; the rotating shaft rod is fixedly connected with the first cam; the axle center of the second cam is fixedly connected with the rotating shaft rod; the lifting control rod is in transmission connection with the second cam; the first slotting limiting plate is in sliding connection with the lifting control rod; the lower part of the first slotting limit plate is connected with a working machine tool plate through a bolt; the second slotting limiting plate is in sliding connection with the lifting control rod; the lower part of the second slotting limit plate is connected with a working machine tool plate through a bolt; the lower part of the second bearing seat is connected with a working machine tool plate through a bolt; the second bearing block is rotationally connected with the rotating shaft rod; the first control mechanism is connected with the lifting control rod; the second control mechanism is connected with the lifting control rod; the lower part of the first installation batten is connected with a first control mechanism; the lower part of the first installation batten is connected with a second control mechanism; the lower part of the second mounting strip is connected with a first control mechanism; the lower part of the second mounting strip is connected with a second control mechanism; the limiting strip column is in sliding connection with the first mounting strip plate; the limiting strip column is in sliding connection with the second mounting strip plate; the second hole position plate is fixedly connected with the limiting strip column; the lower part of the second hole position plate is fixedly connected with a working machine tool plate; the second hole site plate is connected with the first control mechanism; the first pointed end inserting plate is fixedly connected with the first mounting strip plate; the first pointed end inserting plate is connected with the second hole site plate in a sliding manner; the second pointed end inserting plate is fixedly connected with the second mounting strip plate; the second pointed end inserting plate is in sliding connection with the second hole site plate; the first transmission return spring is connected with the first pointed end plugboard; the third tip plug board is connected with the first transmission return spring; the third tip plug board is in sliding connection with the second hole site board; the second transmission return spring is connected with the third tip inserting plate; the first mounting plate is connected with a second transmission return spring; the first mounting plate is fixedly connected with the second hole site plate; the third transmission return spring is connected with the second pointed inserting plate; the fourth pointed end plugboard is connected with a third transmission return spring; the fourth pointed end inserting plate is in sliding connection with the second hole site plate; the fourth transmission return spring is connected with the fourth pointed inserting plate; the second mounting plate is connected with a fourth transmission return spring; the second mounting plate is fixedly connected with the second hole site plate.

In addition, particularly preferably, the heat-assisted cracking system comprises a third mounting strip plate, an electric slide rail plate, an electric slide seat, a third mounting plate and a hot air cylinder; the third installation batten is fixedly connected with the working bed; the lower part of the electric slide rail plate is connected with a third mounting strip plate through bolts; the electric sliding seat is connected with the electric sliding rail plate in a sliding manner; the lower part of the third mounting plate is connected with the electric sliding seat through a bolt; the hot air cylinder is inserted with the third mounting plate.

In addition, it is particularly preferable that the first control mechanism comprises an installation column bar, a slotted jacking control rod, a first limit slider, a second limit slider, a staggered shifting plate, a torsion spring rotating shaft column, a first installation block, a control round rod, a second installation block, a first connecting shaft frame, a second connecting shaft frame, a first connecting shaft seat plate and a second connecting shaft seat plate; the mounting column bar is connected with the lifting control rod through a bolt; the lower part of the slotted upper jacking control rod is fixedly connected with the mounting column bar; the first limiting slide block is in sliding connection with the slotted upper jacking control rod; the first limiting slide block is fixedly connected with the second hole site plate; the second limiting slide block is in sliding connection with the slotted upper jacking control rod; the second limiting slide block is fixedly connected with the second hole site plate; a staggered shifting plate is arranged above the slotted upper jacking control rod; the torsion spring rotating shaft column is connected with the second hole position plate; the torsion spring rotating shaft column is connected with the dislocation poking plate; the lower part of the first mounting block is fixedly connected with a lifting control rod; the control round rod is fixedly connected with the first mounting block; the second mounting block is fixedly connected with the control round rod; the lower part of the second mounting block is fixedly connected with the lifting control rod; the first connecting shaft bracket is rotationally connected with the control round rod; the second connecting shaft bracket is rotationally connected with the control round rod; the first connecting shaft base plate is rotatably connected with the first connecting shaft frame; the upper part of the first connecting shaft seat plate is fixedly connected with the second mounting strip plate; the second connecting shaft base plate is rotationally connected with the second connecting shaft frame; the upper part of the second connecting shaft seat plate is fixedly connected with the first mounting strip plate.

Furthermore, it is particularly preferred that the surfaces of the first electric rotary clamping plate, the second electric rotary clamping plate and the third electric rotary clamping plate are each provided with a rubber sleeve.

In addition, it is particularly preferred that a baffle is connected to the second hole site plate on the side near the tear pretreatment system.

Has the advantages that: the method comprises the following steps of (A) in order to solve the problems that in the prior art, the size of the Inonotus obliquus is large, the Inonotus obliquus is often required to be firstly crushed in the actual sale and use process, the medicinal material is manually and often crushed by knocking with a heavy object, but in the knocking process with the heavy object, the Inonotus obliquus inevitably generates small-particle-size fragments and slag, the small-particle-size fragments and slag do not have enough medicinal value, the medicinal material cannot be sold and used, waste is caused, meanwhile, the size of the fragments cannot be controlled by manual knocking, the accidental performance is strong, the fragments are bounced off in the knocking process, the fragments are difficult to collect subsequently, and the fragments can be bounced off to the human body to cause injury; and some inonotus obliquus grows in the junction of the branch and trunk, its cut section is the curved arc-like state, when processing a part of section, another part of section is in the suspended state inevitably, if the suspended part is bulky, lack the supporting mechanism, may appear the problem of phenomenon that the fracture drops during knocking process;

firstly, fixing the inonotus obliquus to the tearing pretreatment system, inserting the tearing pretreatment system into the inonotus obliquus from the bottom, controlling the heat-assisted shell cracking system to spray hot air to heat and dry the inonotus obliquus, collecting partial scraps into the collecting box to evaporate water of the inonotus obliquus, after the tearing pretreatment system inserts holes in the surface of the inonotus obliquus, placing the inonotus obliquus with the holes in a transparent film bag made of latex material, fixing the inonotus obliquus to the dislocation blocking system, and dividing the inonotus obliquus into small blocks by the dislocation holes inserted in the surface of the inonotus obliquus by the tearing pretreatment system;

(III), realized the automatic piecemeal operation of inonotus obliquus, carry out the jack to massive inonotus obliquus, insert a plurality of holes in its bottom, then carry out reverse application of force through these holes, cause inonotus obliquus to split into a plurality of fritters, avoided using the heavy object to strike the extravagant problem of inonotus obliquus fragmentation that the breakage caused, guaranteed that inonotus obliquus can not produce a large amount of pieces after separately, the less fragment of particle diameter and disintegrating slag can not appear, obtain the effect of the impartial suitable inonotus obliquus piece of size.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a tear-pretreatment system according to the present invention;

FIG. 3 is a schematic perspective view of a first portion of the tear pretreatment system of the present invention;

FIG. 4 is a perspective view of a second portion of the tear pretreatment system of the present invention;

FIG. 5 is a schematic perspective view of an auxiliary support system according to the present invention;

FIG. 6 is a schematic perspective view of the staggered block system of the present invention;

FIG. 7 is a schematic perspective view of a first portion of the staggered block system of the present invention;

FIG. 8 is a perspective view of a second portion of the malposition block system of the present invention;

FIG. 9 is a schematic perspective view of a thermally assisted spalling system of the present invention;

fig. 10 is a schematic perspective view of a first control mechanism according to the present invention.

Labeled as: 1-a working machine bed plate, 2-a support leg column, 3-a fixed mounting column, 4-an operation control screen, 5-a tear pretreatment system, 6-an auxiliary support system, 7-a dislocation blocking system, 8-a heat auxiliary cracking system, 9-a collection box, 10-a fan, 11-a heating box, 501-a mounting portal frame, 502-an electric telescopic lifting platform, 503-a mounting fixing rod, 504-a first electric rotating shaft seat, 505-a first sharp knife stab plate, 506-a second electric rotating shaft seat, 507-a second sharp knife stab plate, 508-a third electric rotating shaft seat, 509-a third sharp knife stab plate, 5010-a fourth electric rotating shaft seat, 5011-a fourth sharp knife stab plate, 5012-a first electric rotating clamping plate, 5013-a second electric rotating clamping plate, 5014-third electric rotary clamping plate, 5015-first hole position plate, 5016-pointed bayonet, 5017-collective mounting plate, 5018-limit slide bar, 5019-first cam, 5020-first bearing seat, 5021-work bed, 601-first mounting plate, 602-support rubber plate, 603-second mounting plate, 604-first electric telescopic plate, 605-second electric telescopic plate, 701-motor, 702-rotating shaft, 703-second cam, 704-lift control lever, 705-first slot position limiting plate, 706-second slot position limiting plate, 707-second shaft, 708-first control mechanism, 709-second control mechanism, 7010-first mounting bar, 7011-second mounting bar, 7012-limit bar, 7013-second hole position plate, 7014-first tip inserting plate, 7015-second tip inserting plate, 7016-first transmission return spring, 7017-third tip inserting plate, 7018-second transmission return spring, 7019-first mounting plate, 7020-third transmission return spring, 7021-fourth tip inserting plate, 7022-fourth transmission return spring, 7023-second mounting plate, 801-third mounting strip plate, 802-electric slide rail plate, 803-electric slide carriage, 804-third mounting plate, 805-hot air cylinder, 70801-mounting bar, 70802-slotted top control bar, 70803-first limit slide block, 70804-second offset limit slide block, 70805-toggle plate, 70806-torsion spring pivot column, 70807-first mounting block, 70808-control round bar, 70809-a second mounting block, 70810-a first axle bracket, 70811-a second axle bracket, 70812-a first axle seat plate, 70813-a second axle seat plate.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

A fragmentation-proof inonotus obliquus blocking treatment method is disclosed, as shown in figures 1-10, and the fragmentation-proof inonotus obliquus blocking treatment method adopts processing equipment which comprises a working machine bed plate 1, a supporting foot column 2, a fixed mounting column 3, an operation control screen 4, a tearing pretreatment system 5, an auxiliary supporting system 6, a dislocation blocking system 7, a heat auxiliary cracking system 8, a collecting box 9, a fan 10 and a heating box 11; the lower part of the bed plate 1 of the working machine is welded with the supporting leg column 2; the upper part of the working machine bed plate 1 is connected with a fixed mounting column 3 through a bolt; the fixed mounting column 3 is connected with the operation control screen 4; the upper part of the working machine bed plate 1 is connected with a tearing pretreatment system 5; the upper part of the working machine bed plate 1 is connected with an auxiliary supporting system 6; the auxiliary supporting system 6 is connected with the tearing pretreatment system 5; the upper part of the working machine bed plate 1 is connected with a staggered partitioning system 7; the dislocation blocking system 7 is connected with the tearing pretreatment system 5; the tearing pretreatment system 5 is connected with a heat-assisted shell cracking system 8; the upper part of the bed plate 1 of the working machine is connected with a collecting box 9; the upper part of the working machine bed plate 1 is connected with a fan 10 through a bolt; the upper part of the bed plate 1 of the working machine is connected with the heating box 11 through bolts;

the fragmentation-preventing inonotus obliquus blocking treatment method comprises the following steps:

the method comprises the following steps: tearing and slotting, namely fixing the inonotus obliquus to a tearing pretreatment system 5, inserting the tearing pretreatment system 5 into the inonotus obliquus from the bottom, and controlling a heat-assisted shell cracking system 8 to heat and dry the inonotus obliquus to evaporate water of the inonotus obliquus;

step two: staggered tearing, namely, after a hole is inserted into the surface of the inonotus obliquus by the tearing pretreatment system 5, fixing the inonotus obliquus to the staggered partitioning system 7, and dislocating and partitioning the inonotus obliquus into small blocks by the staggered partitioning system 7 through the hole inserted into the surface of the inonotus obliquus by the tearing pretreatment system 5;

step three: support the adjustment, fix when tearing pretreatment systems 5 to the crooked inonotus obliquus of part growth, can't stabilize fixedly, control auxiliary stay system 6 this moment supports crooked inonotus obliquus, then can guarantee to tear pretreatment systems 5 and can carry out stable operation to inonotus obliquus.

The working principle is as follows: when the device of the fragmentation-preventing inonotus obliquus blocking treatment method is used, the device is fixed to a working plane, then a power supply is connected externally, the device can be controlled to operate by an operation control screen 4, a fan 10, a heating box 11 and a heat-assisted shell cracking system 8 are communicated by using a pipeline, then the heat-assisted shell cracking system 8 can spray hot air, then the inonotus obliquus is fixed to a tearing pretreatment system 5, the tearing pretreatment system 5 is inserted into the inonotus obliquus from the bottom, meanwhile, the heat-assisted shell cracking system 8 is controlled to spray hot air to the inonotus obliquus to be heated and dried, partial scraps are collected into a collection box 9 to evaporate the moisture of the inonotus obliquus, after the tearing pretreatment system 5 inserts holes in the surface of the inonotus obliquus, the inonotus obliquus which is inserted into a transparent film bag made of latex material, the inonotus obliquus is fixed to a dislocation blocking system 7, dislocation blocking system 7 divides into the fritter with the inonotus obliquus dislocation through tearing the hole that pretreatment systems 5 inserted on inonotus obliquus surface, the automatic blocking operation of inonotus obliquus has been realized, carry out the jack to bold inonotus obliquus, insert a plurality of holes in its bottom, then carry out reverse application of force through these holes, cause inonotus obliquus to split into a plurality of fritters, the extravagant problem of inonotus obliquus fragmentation that the breakage caused is strikeed to the use heavy object has been avoided, guaranteed that inonotus obliquus can not produce a large amount of pieces after separately, the less fragment and the disintegrating slag of particle diameter can not appear, obtain the effect of the impartial suitable inonotus obliquus piece of size.

The tearing pretreatment system 5 comprises a mounting portal frame 501, an electric telescopic lifting platform 502, a mounting fixing rod 503, a first electric rotating shaft seat 504, a first sharp knife stab plate 505, a second electric rotating shaft seat 506, a second sharp knife stab plate 507, a third electric rotating shaft seat 508, a third sharp knife stab plate 509, a fourth electric rotating shaft seat 5010, a fourth sharp knife stab plate 5011, a first electric rotating clamp plate 5012, a second electric rotating clamp plate 5013, a third electric rotating clamp plate 5014, a first hole position plate 5015, a sharp knife stab 5016, a set mounting plate 5017, a limiting sliding rod 5018, a first cam 5019, a first shaft 5020 and a working bed 5021; the lower part of the installation portal frame 501 is connected with a working machine bed plate 1 through bolts; the electric telescopic lifting platform 502 is connected with the installation portal frame 501 through bolts; the mounting fixing rod 503 is fixedly connected with the electric telescopic lifting platform 502; the first electric rotating shaft seat 504 is connected with the mounting fixing rod 503; the first bayonet plate 505 is connected to the first electric spindle base 504; the second electric rotating shaft seat 506 is connected with the first sharp knife stab plate 505; the second sharp knife stab plate 507 is connected with the second electric rotating shaft seat 506; the third electric spindle base 508 is connected with the mounting fixing rod 503; the third acuate cutting blade 509 is connected to the third electric spindle base 508; the fourth electric spindle base 5010 is connected to the third acuate cutting blade 509; the fourth sharp knife stab plate 5011 is connected with a fourth electric spindle base 5010; the first electric rotating clamping plate 5012 is connected with a working bed 5021; the second electric rotating clamping plate 5013 is connected with a working bed 5021; the third electric rotating clamping plate 5014 is connected with a working bed 5021; the first hole site plate 5015 is fixedly connected with a working bed 5021; a pointed knife spine 5016 is arranged on the inner side of the first hole site plate 5015; the upper part of the integrated mounting plate 5017 is fixedly connected with a pointed knife spine 5016; the limiting slide rod 5018 is in sliding connection with the set mounting plate 5017; the lower part of the limit slide bar 5018 is fixedly connected with a working machine bed plate 1; the first cam 5019 is in transmission connection with the set mounting plate 5017; the first cam 5019 is connected with the malposition partitioning system 7; the lower part of the first bearing block 5020 is connected with a working machine bed plate 1 through a bolt; the first bearing block 5020 is connected with the dislocation blocking system 7; the lower part of the working bed 5021 is connected with a working machine bed plate 1 through a bolt; the working bed 5021 is connected with the auxiliary support system 6; the work bed 5021 is connected with the heat assisted dehiscence system 8.

Firstly, the inonotus obliquus is placed on the top of the first hole site plate 5015, then the first electric rotary clamping plate 5012, the second electric rotary clamping plate 5013 and the third electric rotary clamping plate 5014 are controlled to rotate upwards to clamp and fix the inonotus obliquus from three directions, then the power of the power motor 701 is controlled to be switched on, the rotating shaft rod 702 drives the first cam 5019 to rotate through a series of transmission, then the first cam 5019 drives the collective mounting plate 5017 to move upwards, that is, the collective mounting plate 5017 slides upwards on the surface of the limit slide bar 5018, then the collective mounting plate 5017 drives the plurality of pointed knifes 5016 to move upwards from the holes of the first hole site plate 5015, and at this time, the inonotus obliquus is fixed, and then inside a plurality of first hole site boards 5015 inserted to inonotus obliquus from the below, control heat assisted shell system 8 and carry out hot-blast drying to inonotus obliquus simultaneously, accomplished the jack before the inonotus obliquus tears the piecemeal.

The auxiliary supporting system 6 comprises a first mounting frame plate 601, a supporting rubber plate 602, a second mounting frame plate 603, a first electric expansion plate 604 and a second electric expansion plate 605; the lower part of the first mounting frame plate 601 is connected with a working machine bed plate 1 through bolts; the first mounting frame plate 601 is fixedly connected with the working bed 5021; the supporting rubber plate 602 is rotatably connected with the first mounting frame plate 601; the lower part of the second mounting frame plate 603 is connected with a working machine bed plate 1 through bolts; the second mounting frame plate 603 is rotatably connected to the supporting rubber plate 602; the second mounting frame plate 603 is fixedly connected with the working bed 5021; the first electric expansion plate 604 is rotatably connected with the supporting rubber plate 602; the first electric expansion plate 604 is slidably connected with the first mounting frame plate 601; the second electric expansion plate 605 is rotatably connected with the supporting rubber plate 602; the second electric extension plate 605 is slidably connected to the second mounting frame plate 603.

Some inonotus obliquus grow in the handing-over department of branch and trunk, its cutting section is curved class arc state, when handling some sections, another part section is necessarily in unsettled state, if unsettled partial volume is great, lack the support mechanism again, the phenomenon that the fracture dropped can appear when handling, need control first electronic expansion plate 604 and the electronic expansion plate 605 of second upwards extension of this moment, and then first electronic expansion plate 604 and the electronic expansion plate 605 of second drive support rubber slab 602 one side upwards rotates, and then can support the crooked part in inonotus obliquus one side after supporting rubber slab 602 slopes, can adjust the height of first electronic expansion plate 604 and the electronic expansion plate 605 of second to the inonotus obliquus of different bending degree in order to adapt to, avoid appearing the phenomenon that the fracture dropped in the processing procedure.

The malposition partitioning system 7 comprises a power motor 701, a rotating shaft rod 702, a second cam 703, a lifting control rod 704, a first slotting limit plate 705, a second slotting limit plate 706, a second bearing block 707, a first control mechanism 708, a second control mechanism 709, a first mounting strip 7010, a second mounting strip 7011, a limit strip 7012, a second hole site plate 7013, a first pointed inserting plate 7014, a second pointed inserting plate 7015, a first transmission return spring 7016, a third pointed inserting plate 7017, a second transmission return spring 7018, a first mounting plate 7019, a third transmission return spring 7020, a fourth pointed inserting plate 7021, a fourth transmission return spring 7022 and a second mounting plate 7023; the lower part of the power motor 701 is connected with a working machine bed plate 1 through bolts; the rotating shaft rod 702 is fixedly connected with an output shaft of the power motor 701; the rotating shaft rod 702 is rotatably connected with the first bearing seat 5020; the rotating shaft lever 702 is fixedly connected with the first cam 5019; the axle center of the second cam 703 is fixedly connected with the rotating shaft rod 702; the lifting control rod 704 is in driving connection with the second cam 703; the first slotted limiting plate 705 is in sliding connection with the lifting control rod 704; the lower part of the first slotting limit plate 705 is connected with a working machine bed plate 1 through bolts; the second slotted limiting plate 706 is in sliding connection with the lifting control rod 704; the lower part of the second grooving limiting plate 706 is connected with the working machine bed plate 1 through bolts; the lower part of the second bearing block 707 is connected with a working machine bed plate 1 through bolts; the second bearing block 707 is rotationally connected with the rotating shaft rod 702; the first control mechanism 708 is coupled to the lift lever 704; the second control mechanism 709 is connected with the lifting control rod 704; the lower part of the first mounting bar 7010 is connected with a first control mechanism 708; the lower part of the first mounting bar 7010 is connected with a second control mechanism 709; the lower part of the second mounting bar 7011 is connected with the first control mechanism 708; the lower part of the second mounting bar 7011 is connected with a second control mechanism 709; the limit bar 7012 is slidably connected to the first mounting bar 7010; the limit bar 7012 is slidably connected with the second mounting bar 7011; the second hole site plate 7013 is fixedly connected with the limit bar 7012; the lower part of the second hole site plate 7013 is fixedly connected with the bed plate 1 of the working machine; the second aperture plate 7013 is connected to the first control mechanism 708; the first pointed inserting plate 7014 is fixedly connected with the first mounting strip 7010; the first pointed inserting plate 7014 is in sliding connection with the second hole site plate 7013; the second pointed inserting plate 7015 is fixedly connected with the second mounting strip 7011; the second pointed inserting plate 7015 is in sliding connection with the second hole site plate 7013; the first drive return spring 7016 is connected to the first tip insert plate 7014; the third tip inserting plate 7017 is connected with a first transmission return spring 7016; the third tip inserting plate 7017 is in sliding connection with the second hole site plate 7013; the second transmission return spring 7018 is connected with the third tip inserting plate 7017; the first mounting plate 7019 is connected to a second drive return spring 7018; the first mounting plate 7019 is fixedly connected with the second hole site plate 7013; the third transmission return spring 7020 is connected to the second tip insertion plate 7015; the fourth prong board 7021 is connected to a third drive return spring 7020; the fourth cusp inserting plate 7021 is in sliding connection with the second hole site plate 7013; the fourth transmission return spring 7022 is connected with the fourth tip inserting plate 7021; the second mounting plate 7023 is connected to a fourth transmission return spring 7022; the second mounting plate 7023 is fixedly connected to the second hole site plate 7013.

After the pre-treatment system 5 is torn and a hole is inserted in the surface of the inonotus obliquus, the inonotus obliquus inserted in the hole is placed into a transparent film bag made of latex material, then the hole into which the inonotus obliquus is torn and inserted by the pre-treatment system 5 is aligned with a plurality of first pointed inserting plates 7014 and second pointed inserting plates 7015, the transparent film bag made of latex material of the corresponding hole is upwards inserted into the hole by the first pointed inserting plates 7014 and the second pointed inserting plates 7015, then the power of the power motor 701 is controlled to be switched on again, the power motor 701 drives the rotating shaft rod 702 to rotate, then the rotating shaft rod 702 drives the second cam 703 to rotate, then the second cam 703 rotates to drive the lifting control rod 704 to move upwards, then the lifting control rod 704 slides upwards in the first slotting limiting plate 705 and the second slotting limiting plate 706, and simultaneously the lifting control rod 704 drives the first control mechanism 708 and the second control mechanism 709 to move upwards, further, the first control mechanism 708 and the second control mechanism 709 move upward to drive the first mounting batten 7010 and the second mounting batten 7011 to slide away from each other on the surface of the limiting strip 7012, further the first mounting batten 7010 and the second mounting batten 7011 respectively drive the first pointed inserting plate 7014 and the second pointed inserting plate 7015 to slide towards two sides inside the second hole plate 7013, further the first pointed inserting plate 7014 drives the third pointed inserting plate 7017 to slide inside the second hole plate 7013 through the first transmission return spring 7016, further drives the second transmission return spring 7018 to compress, similarly, the second pointed inserting plate 7015 drives the fourth pointed inserting plate 7021 to slide inside the second hole plate 7013 through the third transmission return spring 7020, further drives the fourth transmission return spring 7022 to compress, thereby realizing the sliding motion of the first pointed inserting plate 7014, the second pointed inserting plate 7015, the third pointed inserting plate 7017 and the fourth pointed inserting plate 7021, the first pointed inserting plate 7014 and the third pointed inserting plate 7017 move to one side, the second pointed inserting plate 7015 and the fourth pointed inserting plate 7021 move to the other side, at the moment, the first pointed inserting plate 7014, the second pointed inserting plate 7015, the third pointed inserting plate 7017 and the fourth pointed inserting plate 7021 are inserted into the inserting holes of the inonotus obliquus, the inonotus obliquus is broken into two sides, the distances among the holes are equal, fragments with similar sizes can be obtained, meanwhile, the first control mechanism 708 and the second control mechanism 709 can drive the inonotus obliquus to be twisted and dislocated, the inonotus obliquus is twisted while being broken into small pieces, the small pieces can be taken out from the transparent film bag made of the material manually, meanwhile, the transparent film bag made of the material avoids the elastic flying of the inonotus obliquus latex fragments, and the stable fragments of the inonotus obliquus are finished.

The heat-assisted cracking system 8 comprises a third mounting strip plate 801, an electric sliding rail plate 802, an electric sliding seat 803, a third mounting plate 804 and a hot air cylinder 805; the third installation batten 801 is fixedly connected with the working bed 5021; the lower part of the electric slide rail plate 802 is connected with a third installation lath 801 by bolts; the electric sliding base 803 is in sliding connection with the electric sliding rail plate 802; the lower part of the third mounting plate 804 is connected with the electric sliding seat 803 through a bolt; the hot air cylinder 805 is inserted into the third mounting plate 804.

Firstly, the power supply of the hot air cylinder 805 is controlled to be connected, the electric slide rail plate 802 is controlled to drive the electric slide seat 803 to move, then the electric slide seat 803 drives the hot air cylinder 805 to move through the third mounting plate 804, namely, the hot air cylinder 805 heats the inonotus obliquus in the moving process, and the water of the inonotus obliquus is evaporated, so that the inonotus obliquus is easy to split.

The first control mechanism 708 comprises an installation column bar 70801, a slotted upper ejection control rod 70802, a first limit slider 70803, a second limit slider 70804, a dislocation shifting plate 70805, a torsion spring rotating shaft column 70806, a first installation block 70807, a control round rod 70808, a second installation block 70809, a first connecting shaft frame 70810, a second connecting shaft frame 70811, a first connecting shaft seat plate 70812 and a second connecting shaft seat plate 70813; the mounting bar 70801 is in bolted connection with the lifting control rod 704; the lower part of the slotted upper jacking control rod 70802 is fixedly connected with the mounting column 70801; the first limit sliding block 70803 is in sliding connection with the slotted upper ejection control rod 70802; the first limit slider 70803 is fixedly connected with the second hole site plate 7013; the second limit slide block 70804 is in sliding connection with the slotted upper ejection control rod 70802; the second limit slide block 70804 is fixedly connected with the second hole site plate 7013; a staggered shifting plate 70805 is arranged above the slotted upper jacking control rod 70802; the torsion spring rotating shaft column 70806 is connected with the second hole site plate 7013; the torsion spring rotating shaft column 70806 is connected with the dislocation poking plate 70805; the lower part of the first mounting block 70807 is fixedly connected with the lifting control rod 704; the control round rod 70808 is fixedly connected with the first mounting block 70807; the second mounting block 70809 is fixedly connected with the control round bar 70808; the lower part of the second mounting block 70809 is fixedly connected with the lifting control rod 704; the first connecting shaft bracket 70810 is rotationally connected with the control round bar 70808; the second shaft connecting rack 70811 is rotationally connected with the control round rod 70808; the first shaft connecting plate 70812 is rotatably connected with the first shaft connecting frame 70810; the upper part of the first connecting shaft seat plate 70812 is fixedly connected with the second mounting strip plate 7011; the second connecting shaft seat plate 70813 is rotationally connected with the second connecting shaft rack 70811; the upper part of the second connecting shaft seat plate 70813 is fixedly connected with the first mounting bar 7010.

Firstly, the control rod 704 is lifted to drive the installation column 70801, the first installation block 70807, the control round rod 70808, the second installation block 70809, the first connecting shaft frame 70810, the second connecting shaft frame 70811, the first connecting shaft seat plate 70812 and the second connecting shaft seat plate 70813 to move upwards, then when the control round rod 70808 moves upwards, the control round rod 70808 drives the bottoms of the first connecting shaft frame 70810 and the second connecting shaft frame 70811 to move upwards, the upper parts of the first connecting shaft frame 70810 and the second connecting shaft frame 70811 are opened towards two sides, then the upper sides of the first connecting shaft frame 70810 and the second connecting shaft frame 70811 respectively drive the first connecting shaft seat plate 70812 and the second connecting shaft seat plate 70813 to move away towards two sides, and then the first connecting shaft seat plate 70812 and the second connecting shaft seat plate 70813 respectively drive the second installation column 7011 and the first installation plate 7010 to move towards two sides, and simultaneously the installation column 70801 moves upwards, then the upper top column 70801 is installed to drive the control rod 70802 to move upwards, namely, the slotted ejecting control rod 70802 slides upwards inside the first limit slider 70803 and the second limit slider 70804, then the slotted ejecting control rod 70802 moves upwards to eject against one side of the dislocation shifting plate 70805, and then the slotted ejecting control rod 70802 drives one side of the dislocation shifting plate 70805 to rotate and contact with the inonotus obliquus on the inner side to eject inwards, and meanwhile, the second control mechanism 709 carries out inner ejecting dislocation on the opposite position of the other side of the inonotus obliquus, and the two positions are dislocated, and simultaneously, the inonotus obliquus is broken off, and then the inonotus obliquus is broken into small pieces.

The first electric rotating clamping plate 5012, the second electric rotating clamping plate 5013, and the third electric rotating clamping plate 5014 are all provided with rubber sleeves on their surfaces.

So as to increase the frictional force of the first, second and third electric rotating clamping plates 5012, 5013 and 5014 in contact with Inonotus obliquus.

A baffle is attached to the second hole site plate 7013 on the side near the tear pretreatment system 5.

So that when the hot air cylinder 805 blows the inonotus obliquus, the scattered debris of the inonotus obliquus can be blown away and intercepted by the baffle plate, and then the scattered debris is collected into the collecting box 9 to be collected.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.