CN111203924A

CN111203924A - Sectional type medicinal material slicing equipment and use method thereof

Info

Publication number: CN111203924A
Application number: CN202010015723.4A
Authority: CN
Inventors: 苏九宇
Original assignee: Individual
Current assignee: Shandong Guangyu Tang Traditional Chinse Medicine Co ltd
Priority date: 2018-07-26
Filing date: 2018-07-26
Publication date: 2020-05-29
Anticipated expiration: 2038-07-26
Also published as: CN109079877B; CN109079877A; CN111203924B

Abstract

The invention provides sectional type medicinal material slicing equipment and a using method thereof, wherein the slicing equipment comprises a supporting leg, a slicing supporting box body is welded on the surface of the supporting leg, a sectional slicing collecting mechanism is arranged inside the slicing supporting box body, a straightening and sorting feeding mechanism is arranged on the upper surface of the slicing supporting box body, a power supporting rod is welded on the lower surface of the slicing supporting box body, a motor is welded on the surface of the power supporting rod, and an output shaft of the motor is fixedly connected with a screening slicing rotating shaft through a coupler. This be used for processing in batches of medicinal material is with root segment type medicinal material section equipment feeding, section and collection through same drive device operation to go on in step, and supplement each other again mutual noninterference between each structure in addition, so can be so that the stable going on in batches of medicinal material section work, improve the efficiency of processing, thereby effectual general section equipment of having solved is not very convenient to use in the medicinal material course of working, the problem that medicinal material section process is more consuming time.

Description

Sectional type medicinal material slicing equipment and use method thereof

The invention relates to a divisional application of root-part sectional type medicinal material slicing equipment for Paris polyphylla batch processing, which is applied for 26.07-26.2018 and with the application number of CN 201810831724.9.

Technical Field

The invention relates to the technical field of traditional Chinese medicinal materials, in particular to sectional type medicinal material slicing equipment and a using method thereof.

Background

The paris polyphylla is a traditional Chinese medicinal material, also called 'paris polyphylla', as the name suggests, the flowering branch part of the paris polyphylla is a branch supported by a plurality of leaves, mature fruits can be reserved, and the most valuable part of the paris polyphylla is a rhizome part growing underground, so that the paris polyphylla has the effects of clearing heat and removing toxicity, relieving swelling and pain, cooling liver and arresting convulsion.

The processing process of the paris polyphylla mainly comprises the steps of firstly cleaning the outside by using clean water, then selecting a budding part for planting, heating the rest by using hot water, slicing, drying by using small fire after slicing or directly exposing to the sun for airing, but the paris polyphylla is special in shape and is in a long strip shape, the diameter of the mature paris polyphylla is 3-4 cm, the length of the paris polyphylla is 5-10 cm, the slicing difficulty is higher in general processing, not only is the paris polyphylla very sticky after being sliced, but the paris polyphylla is not easy to be blanked by general mechanical equipment during slicing, the machinery is very easy to be blocked, and the paris polyphylla slices are often piled and extruded into paste in the slicing process, in order to solve the problem, the clear water is used for assisting the mechanical slicing by the machinery, although the situation can be relieved, the clear water can not be quickly debonded when contacting the, this causes the loss of medicine property very easily, and general section equipment is not convenient for use in paris polyphylla course of section, and paris polyphylla section process is consuming time more, so needs a root segment formula medicinal material section equipment for paris polyphylla batch processing.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides root part section type medicinal material slicing equipment for processing the paris polyphylla in batches, and solves the problem that the slicing process of the paris polyphylla is time-consuming because common slicing equipment is not convenient to use in the processing process of the paris polyphylla.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a be used for paris polyphylla to process in batches with segmentation medicinal material section equipment of cutting into slices, including the supporting leg, the skin weld of supporting leg has section supporting box, the inside of section supporting box is provided with segmentation section collection mechanism, the upper surface of section supporting box is provided with the pendulum and selects separately feed mechanism, the lower skin weld of section supporting box has the power bracing piece, the skin weld of power bracing piece has the motor, the output shaft of motor passes through shaft coupling fixedly connected with screening section pivot, the one end of screening section pivot is run through the section supporting box and is extended to the upper surface of section supporting box, the box feed inlet has been seted up to the upper surface of section supporting box, the box feed inlet is located the top that the section was cut into slices and is collected the.

Preferably, the sectional slice collecting mechanism comprises a mechanism supporting body, the surface of the mechanism supporting body is circular, a central through hole is formed in the surface of the mechanism supporting body, the screening slice rotating shaft is located in the central through hole, and a medicine bag cavity is formed between the surface of the mechanism supporting body and the inner wall of the slice supporting box body.

Preferably, a plurality of section placing grooves are formed in the surface of the mechanism supporting body, the inner walls of the section placing grooves are circular, the section placing grooves are located under the feed inlet of the box body, the diameter of the inner walls of the section placing grooves is 4 cm, the depth of the section placing grooves is 10 cm to 15 cm, a plurality of pushing and falling piece grooves are formed in the inner walls of the section placing grooves, the inner walls of the pushing and falling piece grooves are communicated with the inner walls of the section placing grooves, the length of the inner walls of the pushing and falling piece grooves is 0.4 cm, and a plurality of section collecting medicine bags are bound on the surface of the mechanism supporting body.

Preferably, a plurality of segmented slicing blades are welded on the surface of the screening slicing rotating shaft, the distance between every two adjacent segmented slicing blades is 0.5 cm, a plurality of blade sliding grooves are formed in the surface of the mechanism supporting body, the inner walls of the blade sliding grooves are communicated with the inner walls of the segmented slicing placing grooves, push-up arc-shaped blocks are welded on the upper surfaces of the segmented slicing blades, the surfaces of the push-up arc-shaped blocks are arc-shaped, the wall thickness of the push-up arc-shaped blocks is gradually thickened along the rotating direction of the segmented slicing blades, the thickest wall thickness of the push-up arc-shaped blocks is 0.1 cm, push-down arc-shaped blocks are welded on the lower surfaces of the segmented slicing blades, the surfaces of the push-down arc-shaped blocks are arc-shaped, the wall thickness of the push-down arc-shaped blocks is gradually increased along the rotating direction of the segmented slicing blades, the thickest wall thickness of the push-down arc-shaped blocks is 0.1 cm, a plurality, the surface of the lower pushing arc-shaped block and the surface of the upper pushing arc-shaped block are both connected with the inner wall of the circular ring groove in a sliding manner.

Preferably, the disc spout has been seted up on the surface of mechanism's supporter, and the inner wall of disc spout and the inner wall intercommunication that the groove was put to the segmentation section, and the skin weld of screening section pivot has the control disc, and a plurality of control arc wall has been seted up on the surface of control disc, and the inner wall of control arc wall is the arc form, and the quantity of control arc wall is the same with the quantity of segmentation section blade, and the control disc is located the top of segmentation section blade, control arc wall and the crisscross distribution of segmentation section blade.

Preferably, the feeding mechanism is selected separately in the centering includes the arc shell body, and the cross-sectional view of arc shell body inner wall is the arc form, and the top view of arc shell body is circular form, and the inner wall welding of arc shell body has a plurality of arc guide body, and the guide import has been seted up to the bottom of arc guide body and the bottom of arc shell body, and the guide import is located the top of box feed inlet, and the inner wall cross-sectional view of arc guide body is the arc form, and the top view of arc guide body is the arc shape.

Preferably, the one end of screening section pivot extends to the inside of arc shell body, and the surface of arc shell body is provided with the bearing, the inner circle of bearing and the surface weld of screening section pivot, and the inner wall welding of arc shell body has the backup pad, and a plurality of face feed inlet has been seted up on the surface of backup pad, and the one end of screening section pivot runs through and extends to the upper surface of backup pad, and the surface of backup pad is provided with the bearing, the inner circle of bearing and the surface weld of screening section pivot.

Preferably, the skin weld of backup pad has the arc cover body, and a plurality of swing mouth has been seted up on the surface of the arc cover body, and the inner wall of swing mouth articulates there is first swinging arms, and the inner wall sliding connection of arc guide body has the arc pendulum body, and the skin weld of arc pendulum body has the connecting block, and the skin weld of connecting block has the connecting rod, and the connecting rod keeps away from the one end of connecting block and the skin weld of first swinging arms, and the skin weld of screening section pivot has the second swinging arms, the surface of second swinging arms and the surface sliding connection of first swinging arms.

Preferably, the surface of the slicing support box body is hinged with an operating door, a box door lock catch is fixedly mounted on the surface of the operating door, and the surface of the operating door is fixedly connected with the surface of the slicing support box body through the box body lock catch.

(III) advantageous effects

(1) When the device is used, a large number of paris polyphylla rhizomes are placed in the aligning and sorting feeding mechanism, vertically and downwards enter the feeding hole of the box body under the action of the aligning and sorting feeding mechanism, then enter the segmented slice placing groove in the segmented slice collecting mechanism, and paris polyphylla is directly sliced into slices under the action of the segmented slice collecting mechanism and is separately pushed into the segmented slice placing groove, so that the effects of avoiding adhesion and slicing paris polyphylla in batches are achieved.

(2) According to the invention, the arc-shaped outer shell is arranged, so that the arc-shaped outer shell can play a role in supporting, aligning, sorting and feeding mechanisms, and a large number of paris polyphylla roots can be stacked on the arc-shaped outer shell, so that the mass processing is convenient.

(3) According to the invention, the arc-shaped material guiding bodies are arranged, the arc-shaped material guiding bodies correspond to the material guiding inlets one by one, the arc-shaped material guiding bodies are attached to the arc-shaped outer shell, the diameters of the arc-shaped material guiding bodies gradually shrink from top to bottom, the guiding of the paris polyphylla rhizome is convenient, the direction of the paris polyphylla rhizome is gradually corrected in the process of sliding down, and the branches downwards enter the material guiding inlets.

(4) According to the invention, the arc-shaped pendulum material body is arranged, the screening slice rotating shaft drives the second pendulum rod to rotate, the second pendulum rod drives the first pendulum rod to continuously swing, the first pendulum rod drives the arc-shaped pendulum material body to continuously swing through the connecting rod and the connecting block, and the arc-shaped pendulum material body can continuously swing in the slice supporting box body, so that the rhizome of the paris polyphylla in the arc-shaped guide material body can not be shaken up and down comprehensively in a layered mode, and the rhizome of the paris polyphylla is prevented from blocking a guide inlet in a static state.

(5) According to the invention, the arc-shaped cover body is arranged, so that the screening and slicing rotating shaft and the second swinging rod can be shielded by the arc-shaped cover body, the potential safety hazard is reduced, a person can conveniently approach the aligning and sorting feeding mechanism and carry out manual operation on the aligning and sorting feeding mechanism, and the arc-shaped cover body, the supporting plate and the inner wall of the arc-shaped outer shell body can provide the function of supporting the rhizome of the paris polyphylla, so that the blanking quantity can be conveniently and manually controlled.

(6) According to the invention, the sectional slice placing grooves are arranged, so that the first aspect is that the sectional slice placing grooves provide slicing places, the second aspect is that the entering amount of the paris polyphylla rhizome can be limited, the paris polyphylla rhizome is prevented from being stuck and blocked, and the third aspect is that the slicing accuracy can be improved in a limited environment.

(7) According to the invention, by arranging the segmented slicing blade, on one hand, the screening slicing rotating shaft drives the segmented slicing blade to rotate, the segmented slicing blade enters the segmented slice placing groove to slice the rhizome of the paris polyphylla, on the other hand, the segmented slicing blade can isolate two adjacent paris polyphylla from top to bottom, and the adhesion of mucus is avoided.

(8) According to the invention, the upper pushing arc-shaped block and the lower pushing arc-shaped block are arranged, the screening slicing rotating shaft drives the segmented slicing blade to rotate, the segmented slicing blade firstly enters the segmented slicing placing groove and completely cuts off the rhizome of the paris polyphylla, then the segmented slicing blade drives the upper pushing arc-shaped block and the lower pushing arc-shaped block enter the segmented slicing placing groove, the upper pushing arc-shaped block and the lower pushing arc-shaped block push the paris polyphylla from the edge of the segmented slicing placing groove, and the paris polyphylla is pushed out of the segmented slicing placing groove and enters the segmented collecting medicine bag for collection.

(9) According to the invention, the arc-shaped groove and the segmented slicing blade are controlled to be distributed in a staggered manner by arranging the disc sliding groove, on the first hand, when the segmented slicing blade slices a paris polyphylla, the disc sliding groove can prevent the rhizome of the paris polyphylla on the disc sliding groove from falling, and after the segmented slicing blade completely leaves the segmented slicing placing groove, the arc-shaped groove and the segmented slicing placing groove are controlled to be superposed and can continue to feed, so that the slicing of the segmented slicing blade is prevented from being interfered.

(10) The feeding, slicing and collecting of the invention are operated by the same driving device and are carried out synchronously, and all structures supplement each other without mutual interference, thus the batch operation of the paris polyphylla slicing work can be stably carried out, the processing efficiency is improved, and the problem that the paris polyphylla slicing process is time-consuming when the common slicing device is not convenient to use in the paris polyphylla processing process is effectively solved.

Drawings

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

FIG. 2 is a cross-sectional view of the segmented slice collection mechanism of the present invention;

FIG. 3 is a top view of the mechanism support structure of the present invention;

FIG. 4 is a top view of the push-up arc block structure of the present invention;

FIG. 5 is a perspective view of a push-up arc block structure of the present invention;

FIG. 6 is a top view of a control arc slot configuration of the present invention;

FIG. 7 is a cross-sectional view of the present invention swing sorting feeder;

FIG. 8 is a top view of an arcuate conductor structure according to the present invention;

fig. 9 is a front view showing the construction of the operating door of the present invention.

The automatic medicine bag feeding device comprises 1 supporting leg, 2 slicing supporting boxes, 3 segmented slicing collecting mechanisms, 301 mechanism supporting bodies, 302 central through holes, 303 medicine bag cavities, 304 segmented slicing placing grooves, 305 pushing falling piece grooves, 306 segmented medicine bag collecting bodies, 307 segmented slicing blades, 308 blade sliding grooves, 309 pushing arc-shaped blocks, 3010 pushing arc-shaped blocks, 3011 circular ring sliding grooves, 3012 circular disc sliding grooves, 3013 control circular discs, 3014 control arc-shaped grooves, 4 swinging sorting and feeding mechanisms, 401 arc-shaped outer shells, 402 arc-shaped guide bodies, 403 guide inlets, 404 supporting plates, 405 plate surface feeding holes, 406 arc-shaped cover bodies, 407 swinging holes, 408 first swinging rods, 409 arc-shaped swing bodies, 4010 connecting blocks, 4011 connecting rods, 4012 second swinging rods, 5 power supporting rods, 6 motors, 7 screening slicing rotating shafts, 8 box feeding holes, 9 operating doors and 10 box door buckling locks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-9, an embodiment of the present invention provides a root segment type medicinal material slicing apparatus for processing paris polyphylla in batches, which comprises a support leg 1, a slicing support box 2 welded on the surface of the support leg 1, a segment slicing and collecting mechanism 3 arranged inside the slicing support box 2, a straightening and sorting and feeding mechanism 4 arranged on the upper surface of the slicing support box 2, a power support rod 5 welded on the lower surface of the slicing support box 2, a motor 6 welded on the surface of the power support rod 5, a screening and slicing rotating shaft 7 fixedly connected to an output shaft of the motor 6 through a coupling, one end of the screening and slicing rotating shaft 7 penetrating through the slicing support box 2 and extending to the upper surface of the slicing support box 2, a box feed port 8 arranged on the upper surface of the slicing support box 2, the segment slicing and collecting mechanism 3 including a mechanism support body 301, wherein the, the surface of the mechanism supporting body 301 is provided with a central through hole 302, the screening slice rotating shaft 7 is positioned inside the central through hole 302, a medicine bag cavity 303 is arranged between the surface of the mechanism supporting body 301 and the inner wall of the slice supporting box body 2, the surface of the mechanism supporting body 301 is provided with a plurality of sectional slice placing grooves 304, the inner walls of the sectional slice placing grooves 304 are circular, the sectional slice placing grooves 304 are positioned under a box body feed inlet 8, the diameter of the inner walls of the sectional slice placing grooves 304 is 4 cm, the depth of the sectional slice placing grooves 304 is 10 cm to 15 cm, the inner walls of the sectional slice placing grooves 304 are provided with a plurality of pushing and dropping grooves 305, the inner walls of the pushing and dropping grooves 305 are communicated with the inner walls of the sectional slice placing grooves 304, the length of the inner walls of the pushing and dropping grooves 305 is 0.4 cm, the surface of the mechanism supporting body 301 is connected with a plurality of sectional collecting medicine bags 306, a plurality of sectional slicing blades 307 are welded on, the distance between two adjacent sectional slicing blades 307 is 0.5 cm, the surface of the mechanism supporting body 301 is provided with a plurality of blade sliding grooves 308, the inner walls of the blade sliding grooves 308 are communicated with the inner walls of the sectional slicing placing grooves 304, the upper surface of the sectional slicing blades 307 is welded with an upward pushing arc-shaped block 309, the surface of the upward pushing arc-shaped block 309 is arc-shaped, the wall thickness of the upward pushing arc-shaped block 309 gradually thickens along the rotating direction of the sectional slicing blades 307, the thickest wall thickness of the upward pushing arc-shaped block 309 is 0.1 cm, the lower surface of the sectional slicing blades 307 is welded with a downward pushing arc-shaped block 3010, the surface of the downward pushing arc-shaped block 3010 is arc-shaped, along the rotating direction of the sectional slicing blades 307, the wall thickness of the downward pushing arc-shaped block 3010 gradually thickens, the thickest wall thickness of the downward pushing arc-shaped block 3010 is 0.1 cm, the mechanism supporting body 301 is internally provided with a plurality of circular ring-shaped grooves 3011, the surface of the lower push arc-shaped block 3010 and the surface of the upper push arc-shaped block 309 are both connected with the inner wall of the circular ring-shaped groove 3011 in a sliding manner, the surface of the mechanism supporting body 301 is provided with a disc chute 3012, the inner wall of the disc chute 3012 is communicated with the inner wall of the sectional slice placing groove 304, the surface of the screening slice rotating shaft 7 is welded with a control disc 3013, the surface of the control disc 3013 is provided with a plurality of control arc-shaped grooves 3014, the inner wall of the control arc-shaped groove 3014 is arc-shaped, the number of the control arc-shaped grooves 3014 is the same as the number of the sectional slice blades 307, the control disc 3013 is positioned above the sectional slice blades 307, the control arc-shaped grooves 3014 and the sectional slice blades 307 are distributed in a staggered manner, the centering sorting and feeding mechanism 4 comprises an arc-shaped outer shell 401, the cross-sectional view of the inner wall of the arc-, the bottom of the arc guide body 402 and the bottom of the arc outer shell 401 are provided with a guide inlet 403, the guide inlet 403 is positioned above the box body feed inlet 8, the cross-sectional view of the inner wall of the arc guide body 402 is arc-shaped, the top view of the arc guide body 402 is arc-shaped, one end of the screening and slicing rotating shaft 7 extends to the inside of the arc outer shell 401, the surface of the arc outer shell 401 is provided with a bearing, the inner ring of the bearing is welded with the surface of the screening and slicing rotating shaft 7, the inner wall of the arc outer shell 401 is welded with a support plate 404, the surface of the support plate 404 is provided with a plurality of plate surface feed inlets 405, one end of the screening and slicing rotating shaft 7 penetrates and extends to the upper surface of the support plate 404, the surface of the support plate 404 is provided with a bearing, the inner ring of the bearing is welded with the surface, the inner wall of swing mouth 407 articulates there is first swinging arms 408, the inner wall sliding connection of arc guide body 402 has arc pendulum body 409, the skin weld of arc pendulum body 409 has connecting block 4010, the skin weld of connecting block 4010 has connecting rod 4011, connecting rod 4011 keeps away from the one end of connecting block 4010 and the skin weld of first swinging arms 408, the skin weld of screening section pivot 7 has second swinging arms 4012, the surface of second swinging arms 4012 and the surface sliding connection of first swinging arms 408, box feed inlet 8 is located the top of segmentation section collection mechanism 3, box feed inlet 8 is located and just selects separately the below of feed mechanism 4, the surface of section support box 2 articulates there is operating door 9, the fixed surface of operating door 9 installs chamber door padlock 10, the surface of operating door 9 passes through the box padlock and supports the fixed surface of box 2 to be connected.

When the device is used, a power supply is connected, the motor 6 is started, the rhizome of the paris polyphylla is placed on the arranging, sorting and feeding mechanism 4, the rhizome slides downwards through the plate surface feed inlet 405 and enters the arc-shaped guide body 402, the motor 6 rotates with the screening and slicing rotating shaft 7, the screening and slicing rotating shaft 7 drives the second swinging rod 4012 to rotate, the second swinging rod 4012 drives the first swinging rod 408 to swing continuously, the first swinging rod 408 drives the arc-shaped swing body 409 to swing continuously through the connecting rod 4011 and the connecting block 4010, the arc-shaped swing body 409 can swing continuously in the slicing support box body 2 to shake the rhizome of the paris polyphylla in the arc-shaped guide body 402 up and down in a non-hierarchical and comprehensive mode, the rhizome of the paris polyphylla enters the segmented slice placing groove 304 through the box body feed inlet 8 under the guiding effect of the arc-shaped guide body 402, the screening and slicing rotating shaft 7 drives the segmented slice blade 307 to rotate, the segmented slicing blade 307 firstly enters the segmented slice placing groove 304 and completely cuts off the rhizome of the paris polyphylla, then the segmented slicing blade 307 drives the push-up arc-

shaped blocks

309 and 3010 to enter the segmented slice placing groove 304, the push-up arc-shaped block 309 and the push-down arc-shaped block 3010 start to push the paris polyphylla slice from the edge of the segmented slice placing groove 304, the paris polyphylla is pushed out of the segmented slice placing groove 304 to enter the segmented collection medicine bag 306, and therefore the whole process of synchronously feeding, slicing and collecting root-part segmented medicinal material slicing equipment for processing paris polyphylla in batches is completed.

Claims

1. The utility model provides a sectional type medicinal material slicing machine, includes supporting leg (1), its characterized in that: the slicing and sorting device is characterized in that a slicing and supporting box body (2) is welded on the surface of the supporting leg (1), a segmented slicing and collecting mechanism (3) is arranged inside the slicing and supporting box body (2), a swinging and sorting feeding mechanism (4) is arranged on the upper surface of the slicing and supporting box body (2), a power supporting rod (5) is welded on the lower surface of the slicing and supporting box body (2), a motor (6) is welded on the surface of the power supporting rod (5), an output shaft of the motor (6) is fixedly connected with a screening and slicing rotating shaft (7) through a coupler, one end of the screening and slicing rotating shaft (7) penetrates through the slicing and supporting box body (2) and extends to the upper surface of the slicing and supporting box body (2), a box body feeding hole (8) is formed in the upper surface of the slicing and supporting box body (2), the box body feeding hole (8) is located above the segmented;

the sectional slice collecting mechanism (3) comprises a mechanism supporting body (301), the surface of the mechanism supporting body (301) is circular, a central through hole (302) is formed in the surface of the mechanism supporting body (301), the screening slice rotating shaft (7) is positioned in the central through hole (302), and a medicine bag cavity (303) is formed between the surface of the mechanism supporting body (301) and the inner wall of the slice supporting box body (2);

the mechanism supporting body (301) is provided with a plurality of sectional slice placing grooves (304) on the surface, the inner walls of the sectional slice placing grooves (304) are circular, the sectional slice placing grooves (304) are positioned right below a box body feed inlet (8), the diameter of the inner walls of the sectional slice placing grooves (304) is 4 cm, the depth of the sectional slice placing grooves (304) is 10 cm to 15 cm, the inner walls of the sectional slice placing grooves (304) are provided with a plurality of pushing and falling grooves (305), the inner walls of the pushing and falling grooves (305) are communicated with the inner walls of the sectional slice placing grooves (304), the length of the inner walls of the pushing and falling grooves (305) is 0.4 cm, and a plurality of sectional collecting medicine bags (306) are bound on the surface of the mechanism supporting body (301);

the screening slicing machine is characterized in that a plurality of segmented slicing blades (307) are welded on the surface of a screening slicing rotating shaft (7), the distance between every two adjacent segmented slicing blades (307) is 0.5 cm, a plurality of blade sliding grooves (308) are formed in the surface of a mechanism supporting body (301), the inner walls of the blade sliding grooves (308) are communicated with the inner walls of segmented slicing placing grooves (304), an upward pushing arc-shaped block (309) is welded on the upper surface of each segmented slicing blade (307), the surface of the upward pushing arc-shaped block (309) is arc-shaped, the wall thickness of the upward pushing arc-shaped block (309) is gradually thickened along the rotating direction of the segmented slicing blades (307), the thickest wall thickness of the upward pushing arc-shaped block (309) is 0.1 cm, a downward pushing arc-shaped block (3010) is welded on the lower surface of each segmented slicing blade (307), the surface of the downward pushing arc-shaped thickening block (3010) is arc-shaped, the wall thickness of the downward pushing block (3010) is gradually increased, the thickest wall thickness of the lower pushing arc-shaped block (3010) is 0.1 cm, a plurality of circular ring-shaped grooves (3011) are formed in the mechanism supporting body (301), the inner walls of the circular ring-shaped grooves (3011) are communicated with the inner walls of the segmented slice placing grooves (304), and the surfaces of the lower pushing arc-shaped block (3010) and the upper pushing arc-shaped block (309) are in sliding connection with the inner walls of the circular ring-shaped grooves (3011);

the mechanism comprises a mechanism support body (301), a disc sliding groove (3012) is formed in the surface of the mechanism support body (301), the inner wall of the disc sliding groove (3012) is communicated with the inner wall of a sectional slice placing groove (304), a control disc (3013) is welded on the surface of a screening slice rotating shaft (7), a plurality of control arc-shaped grooves (3014) are formed in the surface of the control disc (3013), the inner wall of each control arc-shaped groove (3014) is arc-shaped, the number of the control arc-shaped grooves (3014) is the same as that of sectional slice blades (307), the control disc (3013) is located above the sectional slice blades (307), and the control arc-shaped grooves (3014) and the sectional slice blades (307) are distributed in a; put and select separately feed mechanism (4) and include arc shell body (401), the one end of screening section pivot (7) extends to the inside of arc shell body (401), the surface of section supporting box (2) articulates there is operating door (9).

2. The sectional type medicinal material slicing device of claim 1, wherein: the cross-sectional view of arc shell body (401) inner wall is the arc form, the plan view of arc shell body (401) is circular form, the inner wall welding of arc shell body (401) has a plurality of arc guide body (402), guide import (403) have been seted up to the bottom of arc guide body (402) and the bottom of arc shell body (401), guide import (403) are located the top of box feed inlet (8), the inner wall cross-sectional view of arc guide body (402) is the arc form, the plan view of arc guide body (402) is the arc shape.

3. The sectional type medicinal material slicing device of claim 2, wherein: the surface of arc shell body (401) is provided with the bearing, the inner circle of bearing and the surface weld of screening section pivot (7), the inner wall welding of arc shell body (401) has backup pad (404), a plurality of face feed inlet (405) have been seted up on the surface of backup pad (404), the one end of screening section pivot (7) is run through and is extended to the upper surface of backup pad (404), the surface of backup pad (404) is provided with the bearing, the inner circle of bearing and the surface weld of screening section pivot (7).

4. The sectional type medicinal material slicing device of claim 3, wherein: the surface welding of backup pad (404) has the arc cover body (406), a plurality of swing mouth (407) have been seted up on the surface of the arc cover body (406), the inner wall of swing mouth (407) articulates there is first swinging arms (408), the inner wall sliding connection of arc guide body (402) has arc pendulum body (409), the surface welding of arc pendulum body (409) has connecting block (4010), the surface welding of connecting block (4010) has connecting rod (4011), the one end of connecting block (4010) and the surface welding of first swinging arms (408) are kept away from in connecting rod (4011), the surface welding of screening section pivot (7) has second swinging arms (4012), the surface sliding connection of the surface of second swinging arms (4012) and first swinging arms (408).

5. The sectional type medicinal material slicing device of claim 1, wherein: a box door lock catch (10) is fixedly arranged on the surface of the operating door (9), and the surface of the operating door (9) is fixedly connected with the surface of the slicing support box body (2) through the box body lock catch.

6. A method of using the segmented device for slicing medicinal material according to any one of claims 1 to 5, wherein: when the automatic sorting machine is used, a power supply is connected, the motor (6) is started, medicinal material roots are placed on the swing sorting feeding mechanism (4), the roots slide downwards through the plate surface feeding hole (405) and enter the arc-shaped guide body (402), the motor (6) drives the screening and slicing rotating shaft (7) to rotate, the screening and slicing rotating shaft (7) drives the second swinging rod (4012) to rotate, the second swinging rod (4012) drives the first swinging rod (408) to swing continuously, the first swinging rod (408) drives the arc-shaped swing body (409) to swing continuously through the connecting rod (4011) and the connecting block (4010), the arc-shaped swing body (409) can swing the medicinal material roots in the arc-shaped guide body (402) up and down in a non-hierarchical and comprehensive mode through continuous swinging in the inside of the slice supporting box body (2), the medicinal material roots enter the segmented slice placing groove (304) through the box body feeding hole (8) under the guiding effect of the arc-shaped guide body (402), screening section pivot (7) drive segmentation section blade (307) and rotate, segmentation section blade (307) get into segmentation section and place the inside medicinal material rhizome and stem piece of cutting into pieces of groove (304), segmentation section blade (307) advance into segmentation section and place inside groove (304) and cut off the medicinal material rhizome completely, then segmentation section blade (307) drive push-up arc piece (309) and (3010) get into segmentation section and place inside groove (304), push-up arc piece (309) and push-down arc piece (3010) begin to promote the medicinal material piece from the edge of segmentation section and place groove (304), release segmentation section and place groove (304) and get into inside segmentation collection medicine bag (306) with the medicinal material, thereby it is whole with the feeding of root part segmentation medicinal material section equipment for medicinal material batch processing to have accomplished, the process of going on with collection in step.