阅读说明：本技术 自动上料的红冲坯料石墨搅拌环保装置 (Automatic red towards blank graphite stirring environment-friendly device of material loading ) 是由 俞才王 黄杭杰 张�杰 丁磊 于 2021-10-18 设计创作，主要内容包括：本发明涉及红冲胚料上墨技术领域,尤其涉及一种自动上料的红冲坯料石墨搅拌环保装置。包括红冲胚料搅拌机,所述的红冲胚料搅拌机的进料口端上设有提升机机架,在提升机机架上设有呈L形的料斗,所述的料斗通过翻转机构与提升机机架相连,所述的料斗一端上设有下料口,另一端上设有上料口,在上料口上设有料车装载组件,所述的红冲胚料搅拌机和提升机机架之间还设有石墨进料组件。与现有的技术相比,本自动上料的红冲坯料石墨搅拌环保装置的优点在于：1、设计合理,自动化程度高。2、能够防止石墨洒落,还能够实现石墨的回收,保障了厂区的生产环境,使其更为环保。3、结构简单,维护便利,有效的降低了使用成本。(The invention relates to the technical field of red punching blank inking, in particular to an automatic-feeding red punching blank graphite stirring environment-friendly device. Including red towards embryo material mixer, red towards the feed inlet of embryo material mixer serve and be equipped with the lifting machine frame, be equipped with the hopper that is L shape in the lifting machine frame, the hopper pass through tilting mechanism and lifting machine frame and link to each other, one of hopper serve and be equipped with the feed opening, be equipped with the material loading mouth on the other end, be equipped with the skip on the feed opening and load the subassembly, red towards embryo material mixer and lifting machine frame between still be equipped with graphite feeding subassembly. Compared with the prior art, this automatic feeding's red towards blank graphite stirring environment-friendly device's advantage lies in: 1. reasonable in design, degree of automation is high. 2. The graphite can be prevented from being scattered, the graphite can be recovered, the production environment of a factory is guaranteed, and the graphite is more environment-friendly. 3. Simple structure, it is convenient to maintain, the effectual use cost that has reduced.)

1. The utility model provides an automatic material loading's red blank graphite stirring environment-friendly device that dashes, its characterized in that, including red blank material mixer (1) that dashes, red feed inlet (1a) of blank material mixer (1) serve and be equipped with lifting machine frame (2), be equipped with hopper (21) that are L shape on lifting machine frame (2), hopper (21) link to each other with lifting machine frame (2) through tilting mechanism (22), hopper (21) one serve and be equipped with feed opening (211), be equipped with material loading mouth (212) on the other end, be equipped with skip loading subassembly (23) on material loading mouth (212), red blank material mixer (1) and lifting machine frame (2) between still be equipped with graphite feeding subassembly (3).

2. The automatic-feeding environment-friendly red punching blank graphite stirring device is characterized in that the red punching blank stirring machine (1) comprises a stirrer frame (11), a stirring barrel (12) is arranged on the stirrer frame (11), a spiral feeding guide strip (13) is arranged in the stirring barrel (12), one end of the stirring barrel (12) is provided with the feeding hole (1a), the other end of the stirring barrel is provided with the discharging hole (1b), a stirring barrel rotating mechanism (14) is arranged between the stirring barrel (12) and the stirrer frame (11), and a graphite recovery assembly (15) is arranged on the stirring barrel (12).

3. The automatic-feeding red punching blank graphite stirring environment-friendly device is characterized in that a protective shell (16) is sleeved on the stirring barrel (12), a first opening (161) and a second opening (162) which can be matched with the feeding hole (1a) and the discharging hole (1b) are formed in the protective shell (16), and a feeding dustproof assembly (17) and a discharging dustproof assembly (18) are respectively arranged on the feeding hole (1a) and the discharging hole (1b) of the stirring barrel (12).

4. The automatic-feeding red-punching blank graphite stirring environment-friendly device as claimed in claim 1, 2 or 3, wherein the stirring barrel rotating mechanism (14) comprises roller groups (141) respectively arranged at two sides of the stirring barrel (12), a ring gear (142) is arranged on the stirring barrel (12), the ring gear (142) is connected with a driving gear (143) at the bottom, and the driving gear (143) is connected with a gear driver (144).

5. The automatic-feeding red-punching blank graphite stirring environment-friendly device is characterized in that, the stirring barrel (12) comprises a mixing coating roller (121) with two open ends and a graphite recovery roller (122), the inner end of the mixing coating roller (121) is connected with the inner end of the graphite recovery roller (122), a roller clapboard (123) is arranged between the mixing coating roller (121) and the graphite recovery roller (122), a material passing opening (124) is arranged on the roller clapboard (123), a material shoveling guide plate (125) which is obliquely arranged is arranged on the material passing opening (124), the graphite recovery roller (122) is provided with the graphite recovery component (15), the outer end of the mixing coating roller (121) is provided with the feeding dustproof component (17), and a discharging dustproof assembly (18) is arranged at the outer end of the graphite recovery roller (122).

6. The automatic-feeding red-punching blank graphite stirring environment-friendly device is characterized in that the graphite recovery assembly (15) comprises a graphite recovery drawer (151), a graphite recovery funnel (152) is connected to the graphite recovery drawer (151), the upper end of the graphite recovery funnel (152) is connected with an ink collection annular cover (153) of the graphite recovery roller (122), an annular filter screen (154) of the graphite recovery roller (122) is arranged on the inner side of the ink collection annular cover (153), and a movable gap is formed between the annular filter screen (154) and the ink collection annular cover (153).

7. The automatic-feeding red punching blank graphite stirring environment-friendly device is characterized in that the feeding dustproof assembly (17) comprises a feeding dustproof baffle plate (171) arranged on the first opening (161), the feeding dustproof baffle plate (171) is connected with the protective shell (16) through a slide block and slide rail structure, and a linear lifting driver (172) is arranged between the feeding dustproof baffle plate (171) and the protective shell (16).

8. The automatic red punching blank graphite stirring environment-friendly device of material loading of claim 5, characterized in that, ejection of compact dustproof subassembly (18) including set up back panel beating (181) that link to each other with protective housing (16) on first opening (161), back panel beating (181) below be equipped with movable sealing plate (182), movable sealing plate (182) upper end articulate on back panel beating (181), and be equipped with shrouding turnover linear actuator (183) between movable sealing plate (182) and back panel beating (181), shrouding turnover linear actuator (183) both ends articulate respectively on movable sealing plate (182) and back panel beating (181).

9. The automatic-feeding red-punching blank graphite stirring environment-friendly device as claimed in claim 1, 2 or 3, wherein the turnover mechanism (22) comprises two hopper connecting pieces (221) arranged at the bottom of one end of the discharging opening (211) of the hopper (21), an elevator connecting shaft (222) movably connected with the two hopper connecting pieces (221) penetrates through the two hopper connecting pieces, two ends of the elevator connecting shaft (222) are respectively connected with the elevator rack (2) through a bearing with a vertical seat, and a rotation driving assembly (24) is arranged between the hopper (21) and the elevator rack (2).

10. The automatic-feeding red-punching blank graphite stirring environment-friendly device as claimed in claim 9, wherein the rotary driving assembly (24) comprises a winch rotating shaft (241) arranged at the top of the elevator frame (2), two ends of the winch rotating shaft (241) are respectively connected with the elevator frame (2) through a bearing with a vertical seat, two ends of the winch rotating shaft (241) are respectively provided with a driven winch pulley (242), one end of the winch rotating shaft (241) is also provided with a driving wheel (243), two sides of the hopper (21) are respectively provided with a guide wheel set (244), a vertical pulley (245) is arranged above each guide wheel set (244), a winch rope through hole (246) is arranged on the side wall of the hopper (21) above the vertical pulley (245), a hollow blocking pipe (247) which can be used for penetrating the winch rope and blocking a pushing handle of the material car is arranged between the two winch rope through holes (246), one side of the hoister frame (2) is provided with an electric winch (248).

Technical Field

The invention relates to the technical field of graphite coating, in particular to an automatic-feeding environment-friendly device for stirring red punching blank graphite.

Background

With the advance of society and the development of science and technology, the requirement of processing type enterprises on mechanical automation is higher and higher. At present red towards embryo material for example copper product, in order to prevent that the surface from blackening in the course of working, need at the surface coating graphite, among the prior art when carrying out graphite coating, the method that adopts all is manual operation, put into the basket that is equipped with graphite with red towards embryo material and mix the coating, this kind of method wastes time and energy, production efficiency is lower, with the mechanized production lattice incomes, and the manual feeding easily appears scattering, not only form extravagantly, the inaccurate condition of pay-off still appears easily, simultaneously, the mode degree of automation of pay-off is low, production efficiency has been reduced.

For example, chinese patent document discloses a graphite stirring coating apparatus [ application No.: 201910665922.7], a frame, a feeding component and a graphite inlet are arranged on the frame, a one-way discharging and mixing mechanism which can rotate relative to the frame is arranged on the frame, the one-way discharging and mixing mechanism is communicated with the feeding component and the graphite inlet, and when and only when the one-way discharging and mixing mechanism rotates clockwise or anticlockwise, the material in the one-way discharging and mixing mechanism can slide to the outside of the one-way discharging and mixing mechanism.

Although the scheme greatly reduces the manual operation in the coating process, the production efficiency is higher, and the method is suitable for mechanized production. However, it is less automated.

Disclosure of Invention

Above-mentioned scheme is relatively poor at the lubricated effect in the use, and the lubricating oil loss is lost efficacy after long-term the use, leads to the wearing and tearing of accessory to make equipment can't normally work.

Disclosure of Invention

The invention aims to solve the problems and provides the automatic feeding environment-friendly device for stirring the red punching blank graphite, which is reasonable in design and high in automation degree.

In order to achieve the purpose, the invention adopts the following technical scheme: this automatic blank graphite stirring environment-friendly device is dashed to red of material loading, a serial communication port, including red blank material mixer that dashes, red feed inlet that dashes blank material mixer serve and be equipped with the lifting machine frame, be equipped with the hopper that is L shape in the lifting machine frame, the hopper pass through tilting mechanism and lift machine frame and link to each other, one of hopper serve and be equipped with the feed opening, be equipped with the material loading mouth on the other end, be equipped with skip loading component on the feed opening, red blank material mixer and lifting machine frame between still be equipped with graphite feeding component.

In foretell automatic feeding's red blank graphite stirring environment-friendly device that dashes, red blank mixer that dashes include the agitator frame, be equipped with the agitator in the agitator frame, be equipped with spiral pay-off gib block in the agitator, agitator one end be equipped with the feed inlet, the other end are equipped with the discharge gate, agitator and agitator frame between be equipped with agitator rotary mechanism, be equipped with graphite recovery subassembly on the agitator.

In foretell automatic feeding's red blank graphite stirring environment-friendly device that dashes, the agitator on the cover be equipped with protective housing, be equipped with on protective housing can with first opening and the second opening of feed inlet and discharge gate complex, feed inlet and the discharge gate of agitator on be equipped with the dustproof subassembly of feeding and the dustproof subassembly of ejection of compact respectively.

In the above automatic-feeding environment-friendly device for stirring graphite in red stamping blank, the stirring barrel rotating mechanism comprises roller groups respectively arranged at two sides of the stirring barrel, the stirring barrel is provided with a ring gear, the ring gear is connected with the driving gear at the bottom, and the driving gear is connected with a gear driver.

In foretell automatic feeding's red towards blank graphite stirring environment-friendly device, the agitator include that the open mixed coating cylinder in both ends and graphite retrieve the cylinder, mixed coating cylinder the inner with graphite retrieve the cylinder the inner and link to each other, be equipped with the cylinder baffle between mixed coating cylinder and graphite retrieve the cylinder, seted up the material passing mouth on the cylinder baffle, be equipped with the shovel material baffle that the slope set up on the material passing mouth, graphite retrieve and be equipped with on the cylinder graphite retrieve the subassembly, mixed coating cylinder outer end be equipped with the dustproof subassembly of feeding, graphite retrieve and be equipped with the dustproof subassembly of ejection of compact on the cylinder outer end.

In foretell automatic feeding's red towards blank graphite stirring environment-friendly device, graphite recovery subassembly include graphite recovery drawer, retrieve the drawer at graphite and be connected with graphite recovery funnel, graphite recovery funnel upper end link to each other with the collection china ink annular cover of graphite recovery cylinder, be equipped with the annular filter screen of graphite recovery cylinder in collection china ink annular cover inboard, be equipped with movable gap between annular filter screen and collection china ink annular cover.

In foretell automatic feeding's red towards blank graphite stirring environment-friendly device, feeding dustproof subassembly including setting up the feeding dustproof baffle on first opening, feeding dustproof baffle pass through slider slide rail structure and link to each other with protective housing, be equipped with sharp lift drive between feeding dustproof baffle and protective housing.

In foretell automatic feeding's red towards blank graphite stirring environment-friendly device, the dustproof subassembly of ejection of compact including setting up the back panel beating that links to each other with protective housing on first opening, back panel beating below be equipped with the activity and seal the board, the activity seal the board upper end and articulate on the panel beating of back, and seal in the activity and be equipped with the shrouding between board and the back panel beating and turn up linear actuator, the shrouding turn up linear actuator both ends and articulate respectively on the board is sealed in the activity and the back panel beating.

In the above automatic-feeding red-punching blank graphite stirring environment-friendly device, the turnover mechanism comprises two hopper connecting pieces arranged at the bottom of one end of the discharging opening of the hopper, a lifting machine connecting shaft movably connected with the two hopper connecting pieces is arranged on the two hopper connecting pieces in a penetrating manner, two ends of the lifting machine connecting shaft are respectively connected with a lifting machine frame through a bearing with a vertical seat, and a rotary driving assembly is arranged between the hopper and the lifting machine frame.

Among foretell automatic feeding's red towards blank graphite stirring environment-friendly device, rotary drive subassembly including setting up the capstan winch pivot at lifting machine frame top, capstan winch pivot both ends link to each other with the lifting machine frame through taking vertical pedestal bearing respectively, all be equipped with driven capstan winch pulley at capstan winch pivot both ends, still be equipped with the action wheel on capstan winch pivot one end, the hopper both sides all be equipped with the direction wheelset, every direction wheelset top is equipped with vertical pulley, has seted up the perforation of capstan winch rope on the hopper lateral wall of vertical pulley top, survey to be equipped with between the perforation of capstan winch rope at two and to be used for wearing to establish the capstan winch rope and can block the hollow pipe that blocks that the skip pushes away the handle, lifting machine frame one side be equipped with the electric capstan winch.

Compared with the prior art, this automatic feeding's red towards blank graphite stirring environment-friendly device's advantage lies in: 1. reasonable in design, degree of automation is high. 2. The graphite can be prevented from being scattered, the graphite can be recovered, the production environment of a factory is guaranteed, and the graphite is more environment-friendly. 3. Simple structure, it is convenient to maintain, the effectual use cost that has reduced.

Drawings

FIG. 1 is a schematic diagram of the structure provided by the present invention.

Fig. 2 is a schematic cross-sectional structure provided by the present invention.

Fig. 3 is a schematic view of a partial structure provided by the present invention.

Fig. 4 is a schematic structural view of the mixing tank provided by the invention.

Fig. 5 is a schematic structural diagram of the discharging dustproof assembly provided by the invention.

Figure 6 is a schematic view of the structure of the enclosure provided by the present invention.

Fig. 7 is a schematic structural view of a hopper coupler provided by the present invention.

Fig. 8 is a schematic structural view of the skip discharging movement-preventing component provided by the invention.

In the figure, a red blank punching material mixer 1, a hoister frame 2, a hopper 21, a feeding hole 1a, a turnover mechanism 22, a discharging hole 211, a feeding hole 212, a skip loading assembly 23, a graphite feeding assembly 3, a stirrer frame 11, a stirring barrel 12, a discharging hole 1b, a stirring barrel rotating mechanism 14, a spiral feeding guide strip 13, a graphite recovery assembly 15, a protective shell 16, a first opening 161, a second opening 162, a feeding dustproof assembly 17, a discharging dustproof assembly 18, a roller group 141, a ring gear 142, a driving gear 143, a gear driver 144, a material passing hole 124, a shoveling guide plate 125, a mixing coating roller 121, a graphite recovery roller 122, a roller partition plate 123, a head cover plate 126, a graphite recovery drawer 151, a graphite recovery funnel 152, an ink collecting ring-shaped cover 153, a ring-shaped filter screen 154, a feeding dustproof baffle 171, a linear lifting driver 172, a rear metal plate 181, a movable sealing plate 182, a black lead wire, a black, The blanking plate turning-up linear driver 183, the hopper connecting piece 221, the elevator connecting shaft 222, the rotary driving component 24, the winch rotating shaft 241, the driven winch pulley 242, the driving wheel 243, the guide wheel set 244, the vertical pulley 245, the winch rope perforation 246, the hollow blocking pipe 247, the electric winch 248, the skip discharging anti-moving component 25, the supporting rod 251, the strip-shaped pressing plate 252, the pressing plate height adjusting structure 26, the height adjusting plate 261, the height adjusting through groove 262, the adjusting bolt 263, the blanking bin 31, the bin cover 32, the blanking pipeline 34, the feeder 33 and the feeder base 35.

Detailed Description

As shown in fig. 1-8, the automatic-feeding environment-friendly red-punching blank graphite stirring device comprises a red-punching blank stirring machine 1, wherein an elevator frame 2 is arranged at the end of a feeding port 1a of the red-punching blank stirring machine 1, an L-shaped hopper 21 is arranged on the elevator frame 2, the hopper 21 is connected with the elevator frame 2 through a turnover mechanism 22, one end of the hopper 21 is provided with a discharging port 211, the other end of the hopper is provided with a feeding port 212, the feeding port 212 is provided with a skip loading assembly 23, and a graphite feeding assembly 3 is further arranged between the red-punching blank stirring machine 1 and the elevator frame 2.

More specifically, red blank material mixer 1 that dashes includes agitator frame 11, is equipped with agitator 12 on agitator frame 11, is equipped with spiral pay-off gib block 13 in agitator 12, and agitator 12 one end is equipped with feed inlet 1a, and the other end is equipped with discharge gate 1b, is equipped with agitator rotary mechanism 14 between agitator 12 and the agitator frame 11, is equipped with graphite recovery subassembly 15 on agitator 12.

In order to prevent graphite from diffusing into the air, the stirring barrel 12 is sleeved with a protective shell 16, the protective shell 16 is provided with a first opening 161 and a second opening 162 which can be matched with the feeding port 1a and the discharging port 1b, and the feeding port 1a and the discharging port 1b of the stirring barrel 12 are respectively provided with a feeding dustproof assembly 17 and a discharging dustproof assembly 18.

The stirring barrel rotating mechanism 14 comprises roller groups 141 respectively arranged at two sides of the stirring barrel 12, a ring gear 142 is arranged on the stirring barrel 12, the ring gear 142 is connected with a driving gear 143 at the bottom, the driving gear 143 is connected with a gear driver 144, the roller groups 141 comprise two rollers and a linkage shaft, and the gear driver 144 comprises a driving motor and a gearbox.

Concretely, agitator 12 includes that both ends are open mixes coating drum 121 and graphite and retrieves cylinder 122, mixes coating drum 121 inner and retrieve cylinder 122 inner with graphite and link to each other, is equipped with cylinder baffle 123 between mixing coating drum 121 and graphite recovery cylinder 122, has seted up feed opening 124 on cylinder baffle 123, is equipped with the shovel material baffle 125 that the slope set up on feed opening 124, is equipped with on graphite recovery cylinder 122 subassembly 15 is retrieved to graphite, mixes coating drum 121 outer end and is equipped with feeding dustproof subassembly 17 is equipped with ejection of compact dustproof subassembly 18 on graphite recovery cylinder 122 outer end, is equipped with annular head apron 126 on mixing coating drum 121 outer port, and the internal diameter of head apron 126 is dwindled by inner to outer end gradually.

Graphite recovery assembly 15 includes graphite recovery drawer 151, be connected with graphite recovery funnel 152 on graphite recovery drawer 151, graphite recovery funnel 152 upper end links to each other with graphite recovery cylinder 122's collection china ink annular cover 153, be equipped with graphite recovery cylinder 122's annular filter screen 154 in collection china ink annular cover 153 inboard, be equipped with the movable gap between annular filter screen 154 and collection china ink annular cover 153, annular filter screen 154 includes a plurality of body of rod that evenly distributed and axial set up on the circumferencial direction, be equipped with four axially distributed's solid fixed ring and a plurality of evenly distributed and axial setting horizontal muscle on the circumferencial direction on a plurality of body of rod peripheries.

The feeding dustproof assembly 17 comprises a feeding dustproof baffle 171 arranged on the first opening 161, the feeding dustproof baffle 171 is connected with the protective shell 16 through a slide block and slide rail structure, and a linear lifting driver 172 is arranged between the feeding dustproof baffle 171 and the protective shell 16; the discharging dustproof assembly 18 comprises a rear metal plate 181 arranged on the first opening 161 and connected with the protective shell 16, a movable sealing plate 182 is arranged below the rear metal plate 181, the upper end of the movable sealing plate 182 is hinged to the rear metal plate 181, a sealing plate turning linear driver 183 is arranged between the movable sealing plate 182 and the rear metal plate 181, and two ends of the sealing plate turning linear driver 183 are respectively hinged to the movable sealing plate 182 and the rear metal plate 181.

The discharging dustproof assembly 18 further comprises a sealing cover 122a arranged at the outer end of the graphite recovery roller 122, a discharging slope 122b inclined is arranged below the sealing cover, observation ports are respectively arranged on the sealing cover and the rear metal plate 181, and a transparent observation plate is arranged on the observation ports.

The turnover mechanism 22 comprises two hopper connecting pieces 221 arranged at the bottom of one end of the discharging opening 211 of the hopper 21, an elevator connecting shaft 222 movably connected with the two hopper connecting pieces 221 is arranged on the two hopper connecting pieces 221 in a penetrating way, two ends of the elevator connecting shaft 222 are respectively connected with the elevator frame 2 through a bearing with a vertical seat, and a rotary driving assembly 24 is arranged between the hopper 21 and the elevator frame 2; the rotary driving assembly 24 comprises a winch rotating shaft 241 arranged at the top of the elevator frame 2, two ends of the winch rotating shaft 241 are connected with the elevator frame 2 through a bearing with a vertical seat respectively, driven winch pulleys 242 are arranged at two ends of the winch rotating shaft 241, a driving wheel 243 is further arranged at one end of the winch rotating shaft 241, guide wheel sets 244 are arranged on two sides of the hopper 21, a vertical pulley 245 is arranged above each guide wheel set 244, a winch rope perforation 246 is arranged on the side wall of the hopper 21 above the vertical pulley 245, a hollow blocking pipe 247 capable of penetrating through a winch rope and blocking a trolley pushing handle is arranged between the two winch rope perforations 246, an electric winch 248 is arranged on one side of the elevator frame 2, a polyurethane cushion layer is arranged in the mixed coating roller 121 and is located below the spiral feeding guide strip 13.

The skip car loading assembly 23 comprises a skip car loading opening arranged on the feeding port 212, the skip car unloading movement-preventing assembly 25 is arranged on the feeding port 212, the skip car unloading movement-preventing assembly 25 comprises a supporting rod 251 arranged on the feeding port 212, two ends of the supporting rod 251 are respectively arranged on the side walls of two sides of the hopper 21, a strip-shaped pressing plate 252 is arranged on the supporting rod 251, and the strip-shaped pressing plate 252 is connected with the supporting rod 251 through a pressing plate height-adjusting structure 26.

In order to prevent the skip from shifting and adapt to the skip of different specifications after the upset, the pressing plate heightening structure 26 comprises a height adjusting plate 261 arranged at two ends of the strip-shaped pressing plate 252, a height adjusting through groove 262 is formed in the height adjusting plate 261, and an adjusting bolt 263 screwed on the supporting rod 251 is arranged in the height adjusting through groove 262 in a penetrating manner.

In order to facilitate graphite feeding, a graphite feeding component 3 fixed on the feeding hole of the red blank material stirring machine 1 is arranged above the feeding hole 211, the graphite feeding component 3 comprises a lower bin 31, a bin cover 32 is arranged on the lower bin 31, the lower bin 31 is connected with a feeding pipeline 34 through a feeder 33, and the feeder 33 is fixed between the red blank material stirring machine 1 and the elevator frame 2 through a feeder base 35.

In order to reduce the noise that hopper 21 and lifting machine frame 2 collided and caused, and promote the durability, prevent to damage, there is buffer structure 27 between hopper 21 and the lifting machine frame 2, and buffer structure 27 is including setting up the polyurethane blotter 271 on lifting machine frame 2 or hopper 21, and lifting machine frame 2 includes that two are trapezoidal side bearer, and both sides frame links to each other through a plurality of connecting rods.

The linear actuator in the present application includes any one of pneumatic, hydraulic or electric.

The using method comprises the following steps:

in the process of feeding the red punched blank, the electric winch 248 is paid off to enable the hopper 21 to rotate around the elevator connecting shaft 222, at the moment, one end, far away from the red punched blank stirrer 1, of the hopper 21 is located on the bottom surface (namely, the feeding port 212 is located on the bottom surface, the discharging port 211 is moved out of the feeding port 1a of the red punched blank stirrer 1), the skip is pushed into the hopper 21 and then limited and prevented from moving through the skip discharging and preventing moving assembly 25, then the hopper 21 rotates to feed after the electric winch takes up the wire, at the moment, the feeding port 212 of the hopper 21 is located above, the discharging port 211 is located in the feeding port 1a, the red punched blank in the skip is moved out of the skip and then enters the mixing and coating roller 121 through the hopper 21, the discharging port 211 and the feeding port 1a in sequence, and simultaneously the graphite stored in the discharging bin 31 enters the mixing and coating roller 121 through the feeder 33 and the discharging pipe 34;

in the coating process of the red blank punching material, the mixed coating roller 121 rotates, so that graphite is coated on the red blank punching material, the red blank punching material moves towards the graphite recovery roller 122 under the action of the spiral feeding guide strip 13, the red blank punching material enters the graphite recovery roller 122 from the material passing port 124 after being scooped up by the material scooping guide plate 125, and the graphite can be retained in the mixed coating roller 121 due to the existence of the roller partition plate 123;

after the coating is finished, the red blank material enters the graphite recovery assembly 15, redundant graphite falls into the ink collecting annular cover 153 through the annular filter screen 154 and then enters the graphite recovery drawer 151 through the graphite recovery funnel 152, the ink collecting annular cover 153 is fixed, and the annular filter screen 154 synchronously rotates along with the mixing coating roller 121;

finally, discharging is carried out, and after the movable sealing plate 182 is opened through the sealing plate turning linear driver 183, the red punching blank is moved out of the discharging slope 122 b.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the red blank material mixer 1, the elevator frame 2, the hopper 21, the material inlet 1a, the turnover mechanism 22, the material outlet 211, the material inlet 212, the skip loading assembly 23, the graphite feeding assembly 3, the mixer frame 11, the mixing tank 12, the material outlet 1b, the mixing tank rotating mechanism 14, the spiral feeding guide strip 13, the graphite recycling assembly 15, the protective housing 16, the first opening 161, the second opening 162, the feeding dustproof assembly 17, the discharging dustproof assembly 18, the roller set 141, the ring gear 142, the driving gear 143, the gear driver 144, the material passing opening 124, the material shoveling guide plate 125, the mixing and coating roller 121, the graphite recycling roller 122, the roller partition plate 123, the head cover plate 126, the graphite recycling drawer 151, the graphite recycling hopper 152, the ink collecting ring cover 153, the ring filter 154, the feeding dustproof baffle 171, the linear lifting driver 172, the metal plate 181, the metal plate, The terms of the movable sealing plate 182, the sealing plate turning linear driver 183, the hopper connector 221, the elevator connecting shaft 222, the rotary driving assembly 24, the winch rotating shaft 241, the driven winch pulley 242, the driving wheel 243, the guide wheel set 244, the vertical pulley 245, the winch rope perforation 246, the hollow blocking pipe 247, the electric winch 248, the skip discharging movement preventing assembly 25, the supporting rod 251, the strip-shaped pressing plate 252, the pressing plate height adjusting structure 26, the height adjusting plate 261, the height adjusting through groove 262, the adjusting bolt 263, the discharging bin 31, the bin cover 32, the discharging pipeline 34, the feeder 33, the feeder base 35 and the like do not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.