CN112047050A

CN112047050A - Semiconductor graphite processing equipment with automatic discharging structure and operation method thereof

Info

Publication number: CN112047050A
Application number: CN202010641717.XA
Authority: CN
Inventors: 郭志宏; 张培林; 武建军; 柴利春; 张作文; 王志辉
Original assignee: Datong Xincheng New Material Co Ltd
Current assignee: Datong Xincheng New Material Co Ltd
Priority date: 2020-07-06
Filing date: 2020-07-06
Publication date: 2020-12-08

Abstract

The invention discloses semiconductor graphite processing equipment with an automatic discharging structure, which comprises a bottom plate, a lifting mechanism, a conveying mechanism, a hinging mechanism and a material receiving mechanism, wherein a supporting plate is arranged on the top surface of the bottom plate, and the top surface of the bottom plate is movably connected with the bottom surface of the supporting plate through the lifting mechanism; the front end of the top surface of the supporting plate is provided with a U-shaped double-lug seat, the U-shaped double-lug seat is hinged with a T-shaped single-lug seat, the top surface of the T-shaped single-lug seat is provided with a fixed plate, the rear end surface of the fixed plate is provided with a round long box, a conveying mechanism is installed in the round long box, and the top surface of the supporting plate is movably connected with the bottom surface of the round long box through a hinge mechanism; and a material receiving mechanism is arranged on the rear end face of the bottom plate and below the discharging barrel. The invention also discloses an operation method of the semiconductor graphite processing equipment with the automatic discharging structure; the graphite powder unloading and collecting device solves the problem of inconvenience in unloading and collecting of graphite powder, facilitates simplification of graphite processing steps, and improves unloading and collecting efficiency of graphite powder.

Description

Semiconductor graphite processing equipment with automatic discharging structure and operation method thereof

Technical Field

The invention relates to the technical field of graphite processing, in particular to semiconductor graphite processing equipment with an automatic discharging structure and an operation method thereof.

Background

The general graphite powder adopts the principle of mechanical crushing, namely, the technical scheme is that the graphite powder is crushed in a mechanical mode, so that large particles are changed into small particles; the graphite powder crushed by the method is in a flake shape, a triangular shape and a similar spherical shape, and is not convenient to collect, so that the discharge and collection mode of the processed graphite powder is complex, the production is very difficult, and the graphite powder is not suitable for mass production of spherical graphite.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides semiconductor graphite processing equipment with an automatic discharging structure.

In order to achieve the purpose, the invention adopts the following technical scheme:

the semiconductor graphite processing equipment with the automatic discharging structure comprises a bottom plate, a lifting mechanism, a conveying mechanism, a hinging mechanism and a material receiving mechanism, wherein the bottom plate is in a rectangular plate shape horizontally and transversely placed, a supporting plate is arranged on the top surface of the bottom plate, and the top surface of the bottom plate is movably connected with the bottom surface of the supporting plate through the lifting mechanism; the front end of the top surface of the supporting plate is provided with a U-shaped double-lug seat, the U-shaped double-lug seat is hinged with a T-shaped single-lug seat, the top surface of the T-shaped single-lug seat is provided with a fixed plate, the rear end surface of the fixed plate is provided with a round long box, a conveying mechanism is installed in the round long box, and the top surface of the supporting plate is movably connected with the bottom surface of the round long box through a hinging mechanism; the circular long box is characterized in that a feeding barrel is arranged at the front end of the top surface of the circular long box, a discharging barrel is arranged at the rear end of the bottom surface of the circular long box, and a material receiving mechanism is arranged below the discharging barrel and on the rear end face of the bottom plate.

Preferably, the lifting mechanism comprises a telescopic cylinder, a lifting sliding barrel and a lifting sliding rod, a telescopic cylinder groove is formed in the middle of the top surface of the bottom plate in a recessed mode, the telescopic cylinder is installed in the telescopic cylinder groove, a telescopic connecting block is arranged at the end portion of a telescopic rod of the telescopic cylinder, and the telescopic connecting block is fixedly connected with the middle of the bottom surface of the supporting plate; four corners of bottom plate top surface all are equipped with the smooth section of thick bamboo of going up and down, every lifting spring is all installed to the bottom in the smooth section of thick bamboo of going up and down, every lifting spring top all is equipped with the lift slide bar, and every lift slide bar top respectively with the turning rigid coupling that backup pad bottom surface corresponds.

Preferably, a pair of positioning slide rails is arranged on the top surface of the bottom plate and positioned on two sides of the bottom of the telescopic cylinder, and a positioning slide block is clamped in the middle of each positioning slide rail; the top surface of each positioning sliding block is provided with a first hinge seat, and each first hinge seat is hinged with the bottom end of a positioning hinge rod; and a pair of second hinged seats is arranged on two sides of the bottom surface of the supporting plate, and each second hinged seat is hinged with the top end of the corresponding positioning hinged rod.

Preferably, the conveying mechanism comprises a motor, a conveying shaft and a conveying blade, the motor is mounted on the top surface of the fixing plate, and a coupler is arranged at the end part of a motor shaft of the motor; the middle part of the rear end face in the round long box is provided with a fixed bearing, a conveying shaft is inserted in the fixed bearing, the front end of the conveying shaft is coaxially connected with a coupler, and a conveying blade is sleeved on the conveying shaft.

Preferably, the hinge mechanism comprises a hinge cylinder, a threaded rod, a threaded barrel and a limiting hinge rod, a third hinge seat is arranged in the middle of the rear end face of the support plate and is hinged with the bottom of the hinge cylinder, a fourth hinge seat is arranged at the middle rear end of the bottom face of the round long box and is hinged with the end part of the hinge rod of the hinge cylinder; the supporting plate top surface is equipped with a pair of spacing bearing, the threaded rod both ends are inserted respectively and are established in the spacing bearing that corresponds, threaded rod middle part cover is equipped with a screw thread section of thick bamboo, screw thread section of thick bamboo top surface is equipped with the articulated seat of fifth, the articulated seat of fifth is articulated with spacing hinge bar bottom, circular long bottom of the case face middle part is equipped with the articulated seat of sixth, the articulated seat of sixth is articulated with spacing hinge bar top.

Preferably, a limiting slide rail is arranged on the top surface of the supporting plate between the pair of limiting bearings, a limiting slide block is arranged on the bottom surface of the threaded cylinder, and the limiting slide block is clamped on the limiting slide rail in a sliding manner; the rear end of the threaded rod penetrates through the corresponding limiting bearing, and a manual wheel is sleeved on the rear end of the threaded rod.

Preferably, the receiving mechanism comprises a connecting plate, a receiving plate and a receiving barrel, the connecting plate is arranged on the rear end face of the bottom plate, the receiving plate is arranged on the rear end face of the connecting plate, a circular groove is formed in the top face of the receiving plate in a sunken mode, and the receiving barrel is installed in the circular groove.

Preferably, the middle part is equipped with the splitter ring in the feed cylinder, the splitter ring outside limit is equipped with the polylith flow distribution plate, and every splitter plate outer end all with feed cylinder inside wall rigid coupling, ejection of compact cylinder bottom port department is equipped with sealed lid.

Preferably, four corners of the bottom surface of the bottom plate are respectively provided with a roller bracket, and the roller brackets are in rolling connection with rollers; a rectangular groove is formed in the middle of the bottom surface of the bottom plate in a concave mode, and a storage battery pack is installed in the rectangular groove; the bottom surface of the material collecting plate is provided with a pair of driven wheel supports, and the driven wheel supports are in rolling connection with the driven wheels.

The invention also provides an operation method of the semiconductor graphite processing equipment with the automatic discharging structure, which comprises the following steps:

the method comprises the following steps that firstly, a telescopic cylinder, a motor and a hinged cylinder are respectively and sequentially electrically connected with a storage battery through external power lines; the roller is pushed, the bottom plate is moved to a specified position, the driven wheel is driven to roll, and the material receiving plate and the material receiving barrel are moved to the specified position;

secondly, adjusting the height of the supporting plate through a lifting mechanism according to the height of graphite loading; the telescopic rod of the telescopic cylinder is controlled to stretch, the support plate is driven to lift through the telescopic connecting block, the lifting slide rod is driven to slide along the lifting slide cylinder, the lifting spring is driven to stretch and deform, and meanwhile, the positioning slide block is driven to slide along the positioning slide rail under the hinging action of the positioning hinging rod;

adjusting the inclination angle of the round long box through a hinge mechanism according to the graphite feeding angle to enable the feeding cylinder to be aligned with the graphite feeding position; under the hinging action of the limiting hinging rod, the manual wheel is rotated to drive the threaded rod to rotate in a spiral way in cooperation with the threaded barrel, so that the limiting sliding block is driven to slide along the limiting sliding rail, meanwhile, the hinging rod of the hinging cylinder is controlled to stretch, and under the hinging cooperation of the U-shaped double-lug seat and the T-shaped single-lug seat, the inclination angle of the rear end part of the round long box is changed;

step four, graphite enters the round long box through the feeding cylinder, the graphite is conveyed through the conveying mechanism, the motor is controlled to be started, a motor shaft of the motor drives the conveying shaft to synchronously rotate through a coupler, and the graphite is conveyed to the discharging cylinder through the feeding cylinder under the spiral coordination of the conveying blades;

and step five, opening a sealing cover on the discharge cylinder to enable the graphite to enter the material receiving cylinder until the material receiving cylinder is completely collected.

Compared with the prior art, the invention has the beneficial effects that:

1. the height of the supporting plate can be conveniently adjusted according to the height of graphite loading through the use of the lifting mechanism; the use of the hinge mechanism facilitates the adjustment of the inclination angle of the round long box according to the angle of graphite feeding;

2. by using the conveying mechanism, the graphite enters the round long box through the feeding cylinder, so that the graphite is conveniently conveyed; the material receiving mechanism is used, so that the processed graphite powder is convenient to unload and collect;

in conclusion, the graphite powder unloading and collecting device solves the problem of inconvenience in unloading and collecting of graphite powder, and can be adjusted in multiple directions by matching of various mechanisms, so that the graphite processing steps are simplified conveniently, and the unloading and collecting efficiency of the graphite powder is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a front sectional view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;

FIG. 4 is a top cross-sectional view of the feed barrel of the present invention;

FIG. 5 is a schematic diagram of the method of operation of the present invention;

number in the figure: the device comprises a bottom plate 1, a roller 11, a storage battery pack 12, a telescopic cylinder 13, a lifting slide cylinder 14, a lifting slide rod 15, a positioning hinge rod 16, a support plate 2, a fixing plate 21, a limiting bearing 22, a threaded rod 23, a threaded cylinder 24, a limiting hinge rod 25, a hinge cylinder 26, a round long box 3, a motor 31, a conveying shaft 32, a conveying blade 33, a feeding cylinder 34, a shunting ring 35, a shunting plate 36, a discharging cylinder 37, a receiving plate 4, a driven wheel 41, a connecting plate 42 and a receiving cylinder 43.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments 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.

Example 1: in order to solve the problem of inconvenient graphite powder unloading and collection and improve the unloading and collection efficiency of graphite powder, the embodiment provides semiconductor graphite processing equipment with an automatic unloading structure, and the equipment is shown in fig. 1-4 and comprises a bottom plate 1, a lifting mechanism, a conveying mechanism, a hinge mechanism and a material receiving mechanism, wherein the bottom plate 1 is in a horizontal and transverse rectangular plate shape, a supporting plate 2 which is transversely suspended in the air is arranged on the top surface of the bottom plate 1, and the top surface of the bottom plate 1 is movably connected with the bottom surface of the supporting plate 2 through the lifting mechanism; the front end of the top surface of the supporting plate 2 is provided with a U-shaped double-lug seat with an upward opening, the opening of the U-shaped double-lug seat is movably hinged with a T-shaped single-lug seat through a hinge shaft, the top surface of the T-shaped single-lug seat is provided with a fixed plate 21, the rear end surface of the fixed plate 21 is provided with a transversely placed round long box 3, a conveying mechanism is installed in the round long box 3, and the top surface of the supporting plate 2 is movably connected with the bottom surface of the round long box 3 through a hinge mechanism; the front end of the top surface of the round long box 3 is provided with a feed cylinder 34 in through connection, the rear end of the bottom surface of the round long box 3 is provided with a discharge cylinder 37 in through connection, and a material receiving mechanism is arranged below the discharge cylinder 37 and on the rear end surface of the bottom plate 1.

In the invention, the lifting mechanism comprises a telescopic cylinder 13, a lifting sliding barrel 14 and a lifting sliding rod 15, a telescopic cylinder groove is sunken in the middle of the top surface of the bottom plate 1, the telescopic cylinder 13 with an upward output end is installed in the telescopic cylinder groove, the type of the telescopic cylinder 13 is DSTH-CA, a telescopic connecting block is arranged at the end part of a telescopic rod of the telescopic cylinder 13, and the telescopic connecting block is fixedly connected with the middle of the bottom surface of the supporting plate 2; four corners of the top surface of the bottom plate 1 are respectively provided with a lifting sliding cylinder 14 with an upward opening, the bottom in each lifting sliding cylinder 14 is provided with a lifting spring, the top end of each lifting spring is provided with a lifting sliding rod 15 which penetrates through the lifting sliding cylinder 14 in a sliding manner, and the top end of each lifting sliding rod 15 is fixedly connected with the corner corresponding to the bottom surface of the supporting plate 2; a pair of positioning slide rails which are transversely and symmetrically arranged are arranged on the top surface of the bottom plate 1 and positioned on two sides of the bottom of the telescopic cylinder 13, and a positioning slide block which is in sliding connection is clamped in the middle of each positioning slide rail; the top surface of each positioning sliding block is provided with a first hinge seat with an upward opening, and the opening of each first hinge seat is movably hinged with the bottom end of a positioning hinge rod 16 through a pin shaft; a pair of second hinge seats with downward openings are arranged on two sides of the bottom surface of the supporting plate 2, and the opening of each second hinge seat is movably hinged with the top end of the corresponding positioning hinge rod 16 through a pin shaft; through elevating system's use, made things convenient for according to the height of graphite material loading to adjust the height of backup pad 2.

In the invention, the conveying mechanism comprises a motor 31, a conveying shaft 32 and a conveying blade 33, the motor 31 with a backward output end is installed on the top surface of the fixing plate 21, the model of the motor 31 is ZGY 3-0.2/2, and a shaft coupling which is coaxially connected is arranged at the end part of a motor shaft of the motor 31; a fixed bearing is arranged in the middle of the rear end face in the round long box 3, a conveying shaft 32 which faces forwards transversely is inserted in the fixed bearing, the front end of the conveying shaft 32 penetrates through the front end face of the round long sleeve 3 and is coaxially connected with the power output end of the coupler, and conveying blades 33 are spirally sleeved on the conveying shaft 32 in an staggered mode; through the use of the conveying mechanism, graphite enters the circular long box 3 through the feeding cylinder 34, and the graphite is conveniently conveyed.

In the invention, the hinge mechanism comprises a hinge cylinder 26, a threaded rod 23, a threaded cylinder 24 and a limiting hinge rod 25, a third hinge seat with a backward opening is arranged in the middle of the rear end face of the support plate 2, the opening of the third hinge seat is movably hinged with the bottom of the hinge cylinder 26 through a pin shaft, the type of the hinge cylinder 26 is HSG, a fourth hinge seat with a downward opening is arranged at the rear end of the bottom surface of the round long box 3, and the opening of the fourth hinge seat is movably hinged with the end part of the hinge rod of the hinge cylinder 26 through a pin shaft; the top surface of the supporting plate 2 is provided with a pair of limiting bearings 22, two ends of the threaded rod 23 are respectively inserted into the corresponding limiting bearings 22, the middle part of the threaded rod 23 is sleeved with a threaded cylinder 24 in a spiral connection mode, the top surface of the threaded cylinder 24 is provided with a fifth hinge seat with an upward opening, the opening of the fifth hinge seat is movably hinged with the bottom end of the limiting hinge rod 25 through a pin shaft, the middle part of the bottom surface of the round long box 3 is provided with a sixth hinge seat with a downward opening, and the opening of the sixth hinge seat is movably hinged with the top end of the limiting hinge rod 25 through a pin shaft; a transversely-placed limiting slide rail is arranged between the pair of limiting bearings 22 on the top surface of the support plate 2, and a limiting slide block is arranged on the bottom surface of the threaded barrel 24 and is clamped on the limiting slide rail in a sliding manner; the rear end of the threaded rod 23 penetrates through the corresponding limiting bearing 22, and a manual wheel is sleeved on the rear end of the threaded rod 23; through the use of the hinge mechanism, the angle of inclination of the round long box 3 can be conveniently adjusted according to the angle of graphite loading.

In the invention, the receiving mechanism comprises a connecting plate 42, a receiving plate 4 and a receiving barrel 43, the connecting plate 42 is arranged on the rear end face of the bottom plate 1, the receiving plate 4 is arranged on the rear end face of the connecting plate 42, a circular groove is sunken in the top surface of the receiving plate 4, the receiving barrel 43 with an upward opening is arranged in the circular groove, the opening of the receiving barrel 43 is right opposite to the bottom end opening of the discharging barrel 37, and the receiving mechanism is used to facilitate the discharging and collecting of the processed graphite powder; a splitter ring 35 is arranged in the middle of the feeding cylinder 34, a plurality of arc splitter plates 36 are uniformly staggered on the outer side edges of the splitter ring 35, the outer end of each splitter plate 36 is fixedly connected with the inner side wall of the feeding cylinder 34, and the splitter ring 35 is matched with the splitter plates 36 for use, so that large-particle graphite is prevented from entering the feeding cylinder 34; a sealing cover in spiral connection is arranged at the bottom end opening of the discharging barrel 37; four corners of the bottom surface of the bottom plate 1 are respectively provided with a roller bracket, and the openings of the roller brackets are respectively in rolling connection with the rollers 11 through roller shafts; a rectangular groove is formed in the middle of the bottom surface of the bottom plate 1 in a concave mode, a storage battery pack 12 is installed in the rectangular groove, and the type of the storage battery pack 12 is 6-GFM-38; the bottom surface of the material collecting plate 4 is provided with a pair of driven wheel brackets, and the openings of the driven wheel brackets are connected with driven wheels 41 in a rolling manner through driven wheel shafts; the roller 11 is matched with the driven wheel 41 for common use, so that the overall movement convenience of the equipment is improved.

Example 2: referring to fig. 5, in this embodiment, the present invention further provides an operating method of a semiconductor graphite processing apparatus having an automatic discharging structure, including the steps of:

step one, the telescopic cylinder 13, the motor 31 and the hinged cylinder 26 are respectively and electrically connected with the storage battery pack 12 in sequence through external power lines; the roller 11 is pushed, the bottom plate 1 is moved to a designated position, the driven wheel 41 is driven to roll, and the material receiving plate 4 and the material receiving barrel 43 are moved to the designated position;

secondly, adjusting the height of the supporting plate 2 through a lifting mechanism according to the height of graphite loading; the telescopic rod of the telescopic cylinder 13 is controlled to be telescopic, the support plate 2 is driven to lift through the telescopic connecting block, the lifting slide rod 15 is driven to slide along the lifting slide cylinder 14, the lifting spring is driven to be telescopic and deformed, and meanwhile, the positioning slide block is driven to slide along the positioning slide rail under the hinging action of the positioning hinging rod 16;

thirdly, adjusting the inclination angle of the round long box 3 through a hinge mechanism according to the graphite feeding angle to enable the feeding cylinder 34 to be aligned to the graphite feeding position; under the hinging action of the limiting hinging rod 25, the manual wheel is rotated to drive the threaded rod 23 to rotate spirally in cooperation with the threaded barrel 24, so that the limiting slide block is driven to slide along the limiting slide rail, meanwhile, the hinging rod of the hinging cylinder 26 is controlled to stretch, and under the hinging cooperation of the U-shaped double-lug seat and the T-shaped single-lug seat, the inclination angle of the rear end part of the round long box 3 is changed;

step four, graphite enters the round long box 3 through the feeding cylinder 34, the graphite is conveyed through the conveying mechanism, the motor 31 is controlled to be started, a motor shaft of the motor 31 drives the conveying shaft 32 to synchronously rotate through a coupler, and the graphite is conveyed to the discharging cylinder 37 through the feeding cylinder 34 under the spiral coordination of the conveying blades 33;

and step five, opening a sealing cover on the discharging barrel 37 to enable the graphite to enter the material receiving barrel 43 until the material receiving barrel 43 finishes collecting.

The graphite powder unloading and collecting device solves the problem of inconvenient graphite powder unloading and collecting, and can be adjusted in multiple directions by matching the mechanisms, so that the graphite processing steps are simplified conveniently, and the unloading and collecting efficiency of the graphite powder is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. Semiconductor graphite processing equipment with automatic discharge structure, including bottom plate (1), elevating system, conveying mechanism, hinge mechanism, receiving agencies, its characterized in that: the bottom plate (1) is in a horizontally and transversely placed rectangular plate shape, a supporting plate (2) is arranged on the top surface of the bottom plate (1), and the top surface of the bottom plate (1) is movably connected with the bottom surface of the supporting plate (2) through a lifting mechanism; the front end of the top surface of the supporting plate (2) is provided with a U-shaped double-lug seat, the U-shaped double-lug seat is hinged with a T-shaped single-lug seat, the top surface of the T-shaped single-lug seat is provided with a fixing plate (21), the rear end surface of the fixing plate (21) is provided with a round long box (3), a conveying mechanism is installed in the round long box (3), and the top surface of the supporting plate (2) is movably connected with the bottom surface of the round long box (3) through a hinging mechanism; the circular long box (3) top front end is equipped with a feeding section of thick bamboo (34), circular long box (3) bottom surface rear end is equipped with out feed cylinder (37), is located out feed cylinder (37) below and installs receiving agencies at bottom plate (1) rear end face.

2. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 1, wherein: the lifting mechanism comprises a telescopic cylinder (13), a lifting sliding barrel (14) and a lifting sliding rod (15), a telescopic cylinder groove is formed in the middle of the top surface of the bottom plate (1) in a recessed mode, the telescopic cylinder (13) is installed in the telescopic cylinder groove, a telescopic connecting block is arranged at the end portion of a telescopic rod of the telescopic cylinder (13), and the telescopic connecting block is fixedly connected with the middle of the bottom surface of the supporting plate (2); four corners of bottom plate (1) top surface all are equipped with lift slide (14), every lift spring is all installed to the bottom in lift slide (14), every the lift spring top all is equipped with lift slide (15), and every lift slide (15) top respectively with backup pad (2) bottom surface corresponding turning rigid coupling.

3. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 2, wherein: a pair of positioning slide rails is arranged on the top surface of the bottom plate (1) and positioned on the two sides of the bottom of the telescopic cylinder (13), and a positioning slide block is clamped in the middle of each positioning slide rail; the top surface of each positioning sliding block is provided with a first hinge seat, and each first hinge seat is hinged with the bottom end of a positioning hinge rod (16); a pair of second hinged seats is arranged on two sides of the bottom surface of the supporting plate (2), and each second hinged seat is hinged to the top end of the corresponding positioning hinged rod (16).

4. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 1, wherein: the conveying mechanism comprises a motor (31), a conveying shaft (32) and conveying blades (33), the motor (31) is mounted on the top surface of the fixing plate (21), and a coupler is arranged at the end part of a motor shaft of the motor (31); the circular long box (3) is characterized in that a fixed bearing is arranged in the middle of the inner rear end face of the circular long box (3), a conveying shaft (32) is inserted into the fixed bearing, the front end of the conveying shaft (32) is coaxially connected with a coupler, and a conveying blade (33) is sleeved on the conveying shaft (32).

5. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 1, wherein: the hinging mechanism comprises a hinging cylinder (26), a threaded rod (23), a threaded cylinder (24) and a limiting hinging rod (25), a third hinging seat is arranged in the middle of the rear end face of the supporting plate (2), the third hinging seat is hinged with the bottom of the hinging cylinder (26), a fourth hinging seat is arranged at the middle rear end of the bottom surface of the round long box (3), and the fourth hinging seat is hinged with the end part of the hinging rod of the hinging cylinder (26); backup pad (2) top surface is equipped with a pair of spacing bearing (22), threaded rod (23) both ends are inserted respectively and are established in corresponding spacing bearing (22), threaded rod (23) middle part cover is equipped with a screw thread section of thick bamboo (24), screw thread section of thick bamboo (24) top surface is equipped with the articulated seat of fifth, the articulated seat of fifth is articulated with spacing hinge bar (25) bottom, circular long case (3) bottom surface middle part is equipped with the articulated seat of sixth, the articulated seat of sixth is articulated with spacing hinge bar (25) top.

6. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 5, wherein: a limiting slide rail is arranged between the pair of limiting bearings (22) on the top surface of the supporting plate (2), a limiting slide block is arranged on the bottom surface of the threaded barrel (24), and the limiting slide block is clamped on the limiting slide rail in a sliding manner; the rear end of the threaded rod (23) penetrates through the corresponding limiting bearing (22), and a manual wheel is sleeved on the rear end of the threaded rod (23).

7. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 1, wherein: receiving agencies includes connecting plate (42), receipts flitch (4), receives feed cylinder (43), bottom plate (1) rear end face is equipped with connecting plate (42), connecting plate (42) rear end face is equipped with receives flitch (4), it has circular recess to receive flitch (4) top surface sunken, install in the circular recess and receive feed cylinder (43).

8. The semiconductor graphite processing equipment with the automatic discharging structure as claimed in claim 1, wherein: the middle part is equipped with splitter ring (35) in feed cylinder (34), splitter ring (35) outside limit is equipped with polylith flow distribution plate (36), and every flow distribution plate (36) outer end all with feed cylinder (34) inside wall rigid coupling, play feed cylinder (37) bottom mouth department is equipped with sealed lid.

9. The semiconductor graphite processing apparatus with an automatic discharging structure according to claim 7, wherein: four corners of the bottom surface of the bottom plate (1) are respectively provided with a roller wheel bracket, and the roller wheel brackets are connected with the roller wheels (11) in a rolling manner; a rectangular groove is formed in the middle of the bottom surface of the bottom plate (1) in a concave mode, and a storage battery pack (12) is installed in the rectangular groove; the bottom surface of the material collecting plate (4) is provided with a pair of driven wheel supports, and the driven wheel supports are in rolling connection with the driven wheels (41).

10. The method for operating the semiconductor graphite processing apparatus having an automatic discharging structure according to any one of claims 1 to 9, characterized by comprising the steps of:

the method comprises the following steps that firstly, a telescopic cylinder (13), a motor (31) and a hinged cylinder (26) are respectively and sequentially electrically connected with a storage battery pack (12) through external power lines; the pushing roller (11) moves the bottom plate (1) to a designated position, further drives the driven wheel (41) to roll, and moves the material receiving plate (4) and the material receiving barrel (43) to the designated position;

secondly, adjusting the height of the supporting plate (2) through a lifting mechanism according to the height of graphite loading; the telescopic rod of the telescopic cylinder (13) is controlled to stretch, the support plate (2) is driven to lift through the telescopic connecting block, the lifting slide rod (15) is driven to slide along the lifting slide cylinder (14), the lifting spring is driven to stretch and deform, and meanwhile, the positioning slide block is driven to slide along the positioning slide rail under the hinging action of the positioning hinging rod (16);

thirdly, adjusting the inclination angle of the round long box (3) through a hinge mechanism according to the graphite feeding angle to enable the feeding cylinder (34) to be aligned to the graphite feeding position; under the hinging action of the matched limiting hinging rod (25), the manual wheel is rotated to drive the threaded rod (23) to be matched with the threaded barrel (24) to rotate spirally, so that the limiting slide block is driven to slide along the limiting slide rail, meanwhile, the hinging rod of the hinging cylinder (26) is controlled to stretch, and under the hinging matching of the U-shaped double-lug seat and the T-shaped single-lug seat, the inclination angle of the rear end part of the round long box (3) is changed;

step four, graphite enters the round long box (3) through the feeding barrel (34), the graphite is conveyed through the conveying mechanism, the motor (31) is controlled to be started, a motor shaft of the motor (31) drives the conveying shaft (32) to synchronously rotate through a coupler, and the graphite is conveyed to the discharging barrel (37) through the feeding barrel (34) under the spiral matching of the conveying blades (33);

and step five, opening a sealing cover on the discharging barrel (37) to enable the graphite to enter the material receiving barrel (43) until the material receiving barrel (43) is completely collected.