CN115178173A

CN115178173A - Efficient preparation method of water-based ink

Info

Publication number: CN115178173A
Application number: CN202211064806.8A
Authority: CN
Inventors: 梁日宏; 季刊一; 吴西
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-01
Filing date: 2022-09-01
Publication date: 2022-10-14

Abstract

The invention discloses a preparation method of efficient water-based ink, wherein a stirring barrel is sleeved and clamped at the top end of a fixed support frame, a transmission motor is installed at the bottom end of the stirring barrel through a motor base, a transmission fixing rod is clamped at the position, corresponding to the position of the stirring barrel, of the top end of an output shaft of the transmission motor, a placing net barrel is connected at the bottom end of a sealing protective cover through threads, a transmission gear is installed at the position, close to the position of the sealing protective cover, of the top end of a limiting linkage rod, a pushing fixing plate is welded at the bottom end of a driven gear, and the transmission fixing rod and the limiting linkage rod are matched with each other, so that pigment placed in the placing net barrel can be pushed out through the transmission gear and the driven gear when raw materials are mixed and stirred, the pigment and water are subjected to opposite impact mixing, the pigment is subjected to dispersed blanking, the condition that the pigment is accumulated and cannot be fully mixed due to concentrated blanking is avoided, the pigment can be more dispersed when being mixed, and the mixing effect is ensured.

Description

Efficient preparation method of water-based ink

Technical Field

The invention relates to the technical field of water-based ink, in particular to a high-efficiency preparation method of water-based ink.

Background

The water-based ink is called as water-based ink for short, and is mainly prepared by compounding and grinding water-soluble resin, organic pigment, solvent and related auxiliary agents, and is particularly suitable for packaging and printing products with strict requirements on sanitary conditions, such as cigarettes, wine, foods, beverages, medicines, toys for children and the like, and is generally produced by a mixing, stirring and emulsifying method when the water-based ink is produced at present.

However, when the water-based ink is mixed and treated at present, the raw materials are generally injected at a single position directly, so that the situation that the raw materials are sunk due to insufficient mixing in a short time is easily caused because a large amount of raw materials are injected simultaneously during production, the raw material mixing effect is influenced, the mixing time is prolonged, and the production efficiency and the product quality are greatly influenced.

Disclosure of Invention

The invention provides an efficient preparation method of water-based ink, which can effectively solve the problems that the existing method for mixing and treating the water-based ink is generally directly injecting raw materials at a single position, so that a large amount of raw materials are injected simultaneously during production, the raw materials are easy to sink due to insufficient mixing in a short time, the effect of mixing the raw materials is influenced, the mixing time is prolonged, and the production efficiency and the product quality are greatly influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency water-based ink preparation method comprises the following steps:

s1: the raw material ratio is as follows: the required raw materials are respectively placed into a stirring barrel, a placing mesh cylinder, a blanking fixed cylinder and a blanking fixed box according to the proportion, so that the raw materials are rapidly classified and placed;

s2: filling raw materials: the fixed placing rack, the blanking fixed cylinder and the blanking fixed box are driven by the linkage motor, the linkage gear and the auxiliary gear to change the blanking position, so that the pigment and the auxiliary material are respectively injected into the position of the water body, and the mixing effect among the raw materials is ensured;

s3: stirring and mixing: the raw materials are stirred and mixed through the fixed support frame, the stirring barrel, the transmission motor and the stirring fixed plate, so that water and the pigment are emulsified and mixed, and the mixing production of the water-based ink is finished;

s4: rolling and mixing: the water-based ink is rolled and stirred in the rolling box through opposite rolling rotation of the rolling motor and the rolling roller, so that the color of the water-based ink is more uniform, the pigment which is not completely mixed is reduced, and the mixing effect is ensured;

s5: screening and separating: the water-based ink is subjected to vibration screening through the vibration spring, the linkage clamping frame, the vibration motor and the screening net cylinder, so that the water-based ink is further treated, and the quality of the produced ink is ensured;

s6: filling and storing: through servo motor, regulation fixed plate, the electric push rod that rises, cup joint a fixed section of thick bamboo and place fixed bucket and save water-based ink for can collect the storage fast after production is accomplished.

Preferably, one side of the fixed support frame is provided with a limiting in-out component, and the limiting in-out component comprises a stirring barrel, a transmission motor, a transmission fixing rod, an insertion connecting hole, a fixed electromagnet, a fixed support cover, a sealing protective cover, a net placing barrel, a limiting linkage rod, a transmission gear, a driven gear, a material pushing fixing plate, an input pipe, a support connecting plate, a linkage motor, a linkage gear, a blanking fixing hole, a linkage fixing hole, a fixed placing frame, a blanking fixing barrel, a reset spring, a sealing base plate, an adsorption electromagnet, a blanking fixing box, a linkage spring, a linkage base plate, a movable electric sliding rail, a feeding push plate and an auxiliary gear;

the placing net cylinder is embedded into the inner side of the stirring barrel, the sealing protective cover is clamped at the position of the top end of the fixed supporting cover, the sealing base plate is adsorbed and fixed through the adsorption electromagnet, the bottom end of the limiting linkage rod is embedded into the inner side of the insertion connecting hole in the inner side of the transmission fixing rod, the transmission fixing rod is driven to rotate by the transmission motor, the limiting linkage rod is driven to rotate by the transmission fixing rod, the transmission gear is driven to rotate by the limiting linkage rod, and the pushing fixing plate is driven to push through the meshing transmission of the transmission gear and the driven gear;

the linkage motor drives the linkage gear to rotate, the linkage gear is meshed with the auxiliary gear, the fixed placing frame is driven to rotate along the fixed supporting cover, the blanking fixed cylinder and the blanking fixed box are respectively rotated to the blanking fixed hole and the linkage fixed hole, and the reset spring drives the sealing base plate and the linkage spring to drive the linkage base plate to rotate.

Preferably, the top end of the fixed support frame is sleeved and clamped with a stirring barrel, the bottom end of the stirring barrel is provided with a transmission motor through a motor base, the top end of an output shaft of the transmission motor is clamped with a transmission fixed rod corresponding to the position of the stirring barrel, the middle part of the top end of the transmission fixed rod is provided with an insertion connection hole, the inner side of the insertion connection hole is embedded and provided with a fixed electromagnet, the top end of the stirring barrel is clamped with a fixed support cover, the middle part of the top end of the fixed support cover is embedded and clamped with a sealing protection cover, the bottom end of the sealing protection cover is connected with a placing net drum through threads, the inner side of the placing net drum is rotatably connected with a limiting linkage rod corresponding to the position of the insertion connection hole, the top end of the limiting linkage rod is close to the position of the sealing protection cover and is provided with a transmission gear, the bottom end of the sealing protection cover is rotatably connected with a driven gear corresponding to the position of the transmission gear, the bottom end of the driven gear is welded with a fixed plate for pushing, and the top end of the sealing protection cover is symmetrically connected with an input tube in a penetrating way;

the automatic feeding device is characterized in that a supporting connecting plate is welded to the top of the side end of the stirring barrel, a linkage motor is installed at the bottom of the supporting connecting plate through a motor base, a linkage gear is installed at the position, close to a fixed supporting cover, of the top end of an output shaft of the linkage motor, a linkage gear is installed at the position, close to the fixed supporting cover, of the top end of the fixed supporting cover, a feeding fixing hole is formed in the top end of the fixed supporting cover, a linkage fixing hole is formed in the top end of the fixed supporting cover, a sealing cushion plate is welded to the position, corresponding to the feeding fixing hole, of one end of the reset spring is connected with a feeding fixing box in a penetrating mode, a linkage spring is welded to the bottom end of the feeding fixing box, a linkage cushion plate is symmetrically embedded into the inner side of the feeding fixing box, and a movable electric slide rail is installed on the inner side of the feeding fixing box, and a sliding rail is connected with a feeding push plate through a sliding seat, and an auxiliary gear is welded to the position, of the linkage gear is installed on the position, and the fixed bottom end of the linkage gear.

Preferably, place the embedding of net section of thick bamboo and place in the agitator inboard, spacing gangbar bottom embedding is installed in inserting the connecting hole inboard, drive gear and driven gear meshing are connected, drive motor, fixed electromagnet, linkage motor, adsorption electromagnet and adsorption electromagnet input and external control ware output electric connection, external control ware input and external power supply output electric connection.

Preferably, the linkage gear is connected with the auxiliary gear in a meshed mode, the top end of the sealing base plate is attached to the bottom end of the adsorption electromagnet, the bottom ends of the sealing base plate and the linkage base plate are attached to the top end of the fixed supporting cover, and the maximum rotation angle of the sealing base plate and the linkage base plate is 90 degrees.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. be provided with spacing business turn over subassembly, mutually support through transmission dead lever and spacing gangbar, make can drive to push away the pigment that the material fixed plate will place in placing the net section of thick bamboo through drive gear and driven gear when mixing the raw materials and stir and release, make pigment and water subtend striking mix, make pigment dispersion unloading, the condition that both avoided not enough intensive mixing because of the pigment that concentrated unloading leads to piles up, make pigment can disperse more when mixing again, the effect of mixing has been guaranteed, through the linkage motor, linkage gear and auxiliary treatment drive unloading fixed cylinder and unloading fixed box carry out the position change, make can avoid leading to mixing insufficient condition because of single position input when dropping into the auxiliary agent, simultaneously through different placer with the auxiliary agent separation, thereby control auxiliary agent's unloading time and unloading volume, when the accuse volume when having guaranteed to mix, thereby further assurance effect and the efficiency of mixing.

2. Be provided with and roll the screening subassembly, it rolls the processing to roll printing ink through rolling the motor drive and rolling roller subtend rotation, it gathers together the mixture each other to drive central printing ink and both ends printing ink simultaneously, thereby the large granule thing content in the printing ink has been reduced, make the colour of printing ink more even simultaneously, the condition of avoiding appearing great colour difference takes place, drive linkage joint frame and screening net section of thick bamboo vibrations screening through vibrations spring and vibrating motor, thereby carry out separation treatment to printing ink, through rolling and screening dual processing, thereby the content of large granule pigment in the printing ink has been reduced, make its emulsified more abundant simultaneously, the quality and the lubrication degree of printing ink have been guaranteed, avoid the follow-up separation that appears to deposit.

3. Be provided with the clean subassembly of stirring, change the position of clean fixed plate through linkage electric push rod, cooperation stirring fixed plate stirs water and pigment simultaneously and mixes, make can carry out cleaning treatment to the bucket wall according to the stirring needs when the stirring, thereby avoid pigment to adhere to on the bucket wall, stability when having guaranteed the stirring and mixing with the ejection of compact, it cleans to rolling the side to drive supplementary scraper blade through clean electric slide rail, strike off the movable plate through fixed electric slide rail drive and link the scraper blade and clean unloading linkage box side, thereby avoid appearing because of the comparatively thick condition that influences unloading speed of gluing of pigment when the unloading, thereby the speed and the efficiency of mixing and the ejection of compact have been guaranteed.

To sum up, through spacing business turn over subassembly and rolling screening subassembly and mutually support, make can be through multistep operation when producing printing ink, make it mix emulsification more abundant, the effect and the efficiency of mixed processing have been guaranteed, through spacing business turn over subassembly, it mutually supports with the clean subassembly of stirring to roll screening subassembly, make can clean the processing in step when stirring with the ejection of compact, the cleanliness factor of bucket wall and ejection of compact position has been guaranteed, avoid adhering to the condition emergence of influence production because of pigment and printing ink bond, mutually support through a plurality of subassemblies, the speed of production and the quality of product have been guaranteed.

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 specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic flow diagram of the process of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic structural view of a limited access assembly of the present invention;

FIG. 4 is a schematic view of the installation structure of the net drum of the present invention;

FIG. 5 is a schematic view of the installation structure of the blanking fixing barrel of the present invention;

FIG. 6 is a schematic view of the mounting structure of the driven gear of the present invention;

FIG. 7 is a schematic structural view of a crushing screen assembly of the present invention;

FIG. 8 is a schematic view of the installation structure of the blanking linkage box of the present invention;

FIG. 9 is a schematic structural view of the agitation cleaning assembly of the present invention;

FIG. 10 is a schematic view of the linkage blade mounting configuration of the present invention;

reference numbers in the figures: 1. fixing a support frame;

2. a limiting in-out component; 201. a stirring barrel; 202. a drive motor; 203. a transmission fixing rod; 204. inserting into the connecting hole; 205. fixing the electromagnet; 206. fixing the support cover; 207. sealing the protective cover; 208. placing the net drum; 209. a limiting linkage rod; 210. a transmission gear; 211. a driven gear; 212. a material pushing fixing plate; 213. an input tube; 214. supporting the connecting plate; 215. a linkage motor; 216. a linkage gear; 217. blanking fixing holes; 218. a linkage fixing hole; 219. fixing the placing rack; 220. a blanking fixing cylinder; 221. a return spring; 222. sealing the base plate; 223. an adsorption electromagnet; 224. a blanking fixing box; 225. a linkage spring; 226. linking the base plates; 227. moving the electric slide rail; 228. a feeding push plate; 229. an auxiliary gear;

3. rolling and screening the components; 301. rolling a box; 302. rolling a motor; 303. rolling a roller; 304. a limit screw; 305. rotating the fixed frame; 306. blanking linkage boxes; 307. mounting a support plate; 308. an auxiliary linkage rod; 309. sealing the isolation plate; 310. pressing down the spring; 311. inserting into the mounting hole; 312. fixing the pin; 313. a servo motor; 314. adjusting the fixed plate; 315. raising the electric push rod; 316. a fixed cylinder is sleeved; 317. placing a fixed barrel; 318. fixing the clamping ring; 319. vibrating the spring; 320. a linkage clamping frame; 321. a vibration motor; 322. clamping a pin; 323. screening the net drum; 324. adjusting the discharging box;

4. a stirring cleaning component; 401. a stirring fixing plate; 402. fixing the support sleeve; 403. linking the electric push rod; 404. cleaning the fixing plate; 405. an auxiliary support sleeve; 406. a limiting fixing box; 407. cleaning the electric sliding rail; 408. an auxiliary squeegee; 409. installing a fixed box; 410. fixing the electric slide rail; 411. scraping the moving plate; 412. a push spring; 413. a linkage scraper plate; 414. supporting the spring.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1 to 10, the present invention provides a technical solution, and a method for preparing high efficiency water-based ink, comprising the following steps:

s1: the raw material ratio is as follows: the required raw materials are respectively placed into the stirring barrel 201, the placing net barrel 208, the blanking fixed barrel 220 and the blanking fixed box 224 according to the proportion, so that the raw materials are rapidly classified and placed;

s2: filling raw materials: the fixed placing rack 219, the blanking fixed cylinder 220 and the blanking fixed box 224 are driven by the linkage motor 215, the linkage gear 216 and the auxiliary gear 229 to change the blanking position, so that the pigment and the auxiliary material are respectively injected into the position of the water body, and the mixing effect among the raw materials is ensured;

s3: stirring and mixing: raw materials are stirred and mixed through the fixed support frame 1, the stirring barrel 201, the transmission motor 202 and the stirring fixing plate 401, so that water and pigment are emulsified and mixed, and the mixing production of the water-based ink is completed;

s4: rolling and mixing: the water-based ink is rolled and stirred in the rolling box 301 through opposite rolling rotation of the rolling motor 302 and the rolling roller 303, so that the color of the water-based ink is more uniform, the pigment which is not completely mixed is reduced, and the mixing effect is ensured;

s5: screening and separating: the water-based ink is subjected to vibration screening through the vibration spring 319, the linkage clamping frame 320, the vibration motor 321 and the screening net drum 323, so that the water-based ink is further treated, and the quality of the produced ink is ensured;

s6: filling and storing: the water-based ink is stored through the servo motor 313, the adjusting fixing plate 314, the lifting electric push rod 315, the sleeving fixing barrel 316 and the placing fixing barrel 317, so that the water-based ink can be rapidly collected and stored after production is completed.

A limiting in-out component 2 is installed on one side of the fixed support frame 1, and the limiting in-out component 2 comprises a stirring barrel 201, a transmission motor 202, a transmission fixing rod 203, an insertion connecting hole 204, a fixing electromagnet 205, a fixed support cover 206, a sealing protection cover 207, a placing net barrel 208, a limiting linkage rod 209, a transmission gear 210, a driven gear 211, a pushing material fixing plate 212, an input pipe 213, a support connecting plate 214, a linkage motor 215, a linkage gear 216, a blanking fixing hole 217, a linkage fixing hole 218, a fixed placing frame 219, a blanking fixing barrel 220, a reset spring 221, a sealing base plate 222, an adsorption electromagnet 223, a blanking fixing box 224, a linkage spring 225, a linkage base plate 226, a movable electric sliding rail 227, a feeding push plate 228 and an auxiliary gear 229;

the placing net drum 208 is embedded into the inner side of the stirring barrel 201, the sealing protection cover 207 is clamped to the top end position of the fixed support cover 206, the sealing cushion plate 222 is fixedly adsorbed through the adsorption electromagnet 223, the bottom end of the limiting linkage rod 209 is embedded into the inner side of the insertion connection hole 204 in the inner side of the transmission fixed rod 203, the transmission fixed rod 203 is driven to rotate by the transmission motor 202, the limiting linkage rod 209 is driven to rotate by the transmission fixed rod 203, the transmission gear 210 is driven to rotate by the limiting linkage rod 209, and the material pushing fixed plate 212 is driven by the transmission gear 210 and the driven gear 211 in a meshing transmission manner;

the linkage motor 215 drives the linkage gear 216 to rotate, and is meshed with the auxiliary gear 229 through the linkage gear 216, so as to drive the fixed placing frame 219 to rotate along the fixed supporting cover 206, the blanking fixed cylinder 220 and the blanking fixed box 224 are respectively rotated to the positions of the blanking fixed hole 217 and the linkage fixed hole 218, and the return spring 221 drives the sealing cushion plate 222 and the linkage spring 225 drives the linkage cushion plate 226 to rotate.

The top end of the fixed support frame 1 is in sleeve joint with a stirring barrel 201, the bottom end of the stirring barrel 201 is provided with a transmission motor 202 through a motor base, the top end of an output shaft of the transmission motor 202 is in joint with a transmission fixing rod 203 at a position corresponding to the stirring barrel 201, the middle part of the top end of the transmission fixing rod 203 is provided with an insertion connecting hole 204, the inner side of the insertion connecting hole 204 is embedded with a fixed electromagnet 205, the top end of the stirring barrel 201 is in joint with a fixed support cover 206, the middle part of the top end of the fixed support cover 206 is embedded and connected with a sealing protective cover 207 in joint, the bottom end of the sealing protective cover 207 is in threaded connection with a placement net barrel 208, the placement net barrel 208 is embedded and placed at the inner side of the stirring barrel 201, so that the optimal placement position can be ensured when pigment is required to be put in, pigment concentration and bottom sinking can be avoided, the position of the inner side of the placement net barrel 208 corresponding to the insertion connecting hole 204 is rotatably connected with a limiting linkage rod 209, the bottom end of the limiting linkage rod 209 is embedded and installed at the inner side of the insertion connecting hole 204, so that the pigment can be synchronously operated with stirring when the pigment is required to be discharged, the top end of the limiting linkage rod 209, the sealing protective cover 207, the top end of the sealing protective cover is rotatably connected with a driven gear 211, the bottom end of the sealing protective cover 213 is symmetrically welded with the driven gear 211, the driven gear 213, the sealing linkage rod 213, the transmission protective cover 211, the top end of the transmission protective cover 211;

a supporting connecting plate 214 is welded at the top of the side end of the stirring barrel 201, a linkage motor 215 is installed at the bottom end of the supporting connecting plate 214 through a motor base, a linkage gear 216 is installed at the top end of an output shaft of the linkage motor 215 close to the position of the fixed supporting cover 206, a blanking fixing hole 217 is formed at the top end of the fixed supporting cover 206, a linkage fixing hole 218 is formed at the top end of the fixed supporting cover 206, a fixed placing frame 219 is rotatably connected at the position of the top end of the fixed supporting cover 206 corresponding to the blanking fixing hole 217 and the linkage fixing hole 218, a blanking fixing barrel 220 is penetratingly connected at the position of the top end of the fixed placing frame 219 corresponding to the linkage fixing hole 218, a return spring 221 is welded at the bottom end of the blanking fixing barrel 220, a sealing cushion plate 222 is welded at the position of one end of the return spring 221 corresponding to the position of the blanking fixing barrel 220, an adsorption electromagnet 223 is clamped at the position of the top end of the sealing cushion plate 222 corresponding to the bottom end of the adsorption electromagnet 223, the top end of the fixed placing frame 219 is penetratingly connected with a blanking fixed box 224 corresponding to the linkage fixed hole 218, the bottom end of the blanking fixed box 224 is welded with a linkage spring 225, one end of the linkage spring 225 is welded with a linkage base plate 226 corresponding to the blanking fixed box 224, the bottom ends of the sealing base plate 222 and the linkage base plate 226 are both attached to the top end of the fixed supporting cover 206, the maximum rotation angle of the sealing base plate 222 and the linkage base plate 226 is 90 degrees, so that blanking can be carried out at a fixed position during blanking, abnormal blanking is avoided, the inner side of the blanking fixed box 224 is symmetrically embedded and provided with a movable electric slide rail 227, the side end of the movable electric slide rail 227 is connected with a feeding push plate 228 through a slide rail seat, and the bottom end of the fixed placing frame 219 is welded with an auxiliary gear 229 corresponding to the linkage gear 216, the linkage gear 216 is engaged with the auxiliary gear 229, so that the fixed placing frame 219 can be driven to rotate to perform quick and synchronous linkage, the input ends of the transmission motor 202, the fixed electromagnet 205, the linkage motor 215, the adsorption electromagnet 223 and the adsorption electromagnet 223 are electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.

A rolling and screening component 3 is installed on one side of the fixed support frame 1, and the rolling and screening component 3 comprises a rolling and screening box 301, a rolling and screening motor 302, a rolling and screening roller 303, a limit screw 304, a rotating fixing frame 305, a blanking linkage box 306, an installation support plate 307, an auxiliary linkage rod 308, a sealing isolation plate 309, a pressing spring 310, an insertion installation hole 311, a fixing pin 312, a servo motor 313, an adjustment fixing plate 314, a lifting electric push rod 315, a sleeving fixing cylinder 316, a placing fixing barrel 317, a fixing clamping ring 318, a vibrating spring 319, a linkage clamping frame 320, a vibrating motor 321, a clamping pin 322, a screening net cylinder 323 and an adjustment discharging box 324;

the rolling box 301 is welded at one end of the inner side of the fixed support frame 1, a plurality of rolling motors 302 are installed at the two ends of the rolling box 301 at equal intervals through motor bases, a rolling roller 303 is connected to the position of the output shaft of each rolling motor 302 corresponding to the rolling box 301 in a clamping manner, the top ends of the rolling boxes 301 are symmetrically connected with limit screws 304 through screw bases, the bottom ends of the limit screws 304 are rotatably connected with rotary fixing frames 305, a blanking linkage box 306 is welded between the two rotary fixing frames 305, the blanking linkage box 306 is rotatably connected with the rolling box 301, so that blanking angles can be adjusted when the liquid flow position is changed, the operation can be quickly carried out, the cross section of the blanking linkage box 306 is trapezoidal, liquid flow can be concentrated at a uniform position during blanking, and the liquid flow is prevented from being dispersed randomly, the top end of the blanking linkage box 306 is equidistantly welded with an installation support plate 307 away from the position of the rolling box 301, the top end of the installation support plate 307 is connected with an auxiliary linkage rod 308 in a penetrating way, the longitudinal section of the auxiliary linkage rod 308 is T-shaped, so that the position of the auxiliary linkage rod can be effectively controlled during pressing and lifting, and meanwhile, the manual operation of an operator is facilitated, the bottom end of the auxiliary linkage rod 308 is welded with a sealing isolation plate 309, the sealing isolation plate 309 is slidably installed on the inner side of the blanking linkage box 306, so that the rapid and stable operation can be realized when the discharging position needs to be sealed and limited, a plurality of pressing springs 310 are equidistantly welded between the top end of the sealing isolation plate 309 and the bottom end of the installation support plate 307, the side ends of the auxiliary linkage rod 308 and the installation support plate 307 are provided with insertion installation holes 311, and fixed pins 312 are embedded and installed on the inner sides of the insertion installation holes 311;

the automatic water-based ink discharging device comprises a fixed support frame 1, a servo motor 313 is installed at one end of the inner side of the fixed support frame 1 through a motor base, an adjusting fixing plate 314 is clamped at the position, corresponding to the position of the fixed support frame 1, of the bottom end of an output shaft of the servo motor 313, the adjusting fixing plate 314 is rotatably connected with the fixed support frame 1, the situation that deviation and separation occur in the rotating process is avoided, a lifting electric push rod 315 is symmetrically clamped at the top end of the adjusting fixing plate 314, a sleeve fixing cylinder 316 is clamped at the top end of the output shaft of the two lifting electric push rods 315, a placing fixing barrel 317 is sleeved at the top end of the sleeve fixing cylinder 316, a fixing clamping ring is welded at the position, corresponding to the placing fixing barrel 317, of one end of the fixed support frame 1, a plurality of vibrating springs 319 are equidistantly welded at the top end, a linkage clamping frame 320 is welded at the top end of the plurality of the vibrating springs 319, vibrating motors 321 are symmetrically installed at the bottom end of the linkage clamping frame 320 through the motor base, a screening mesh 323 is clamped at the bottom end of the linkage clamping frame 320 through a clamping pin 322, a screening mesh 323 which is embedded in the screening mesh 323 and is placed inside the placing fixing barrel 317, the water-based ink can be discharged to the inner side of the fixed support frame 317 stably, the inner side of the water-based ink can be ensured, the stirring barrel 201, the bottom end of the stirring mesh 313, the stirring mesh drum 313, an electric control motor output end of a grinding motor which is connected with an electric control push rod 315, an electric motor which is connected with an electric control output end of a grinding motor which is connected with an electric motor which is connected with an ascending electric motor 313 and an electric motor which is connected with an electric control push rod 321 which is connected with an ascending electric control motor which is connected with an ascending electric push rod 302, and an ascending electric push rod 302.

A stirring cleaning component 4 is arranged on one side of the transmission fixing rod 203, and the stirring cleaning component 4 comprises a stirring fixing plate 401, a fixing supporting sleeve 402, a linkage electric push rod 403, a cleaning fixing plate 404, an auxiliary supporting sleeve 405, a limiting fixing box 406, a cleaning electric slide rail 407, an auxiliary scraper 408, an installation fixing box 409, a fixing electric slide rail 410, a scraping moving plate 411, a pushing spring 412, a linkage scraper 413 and a supporting spring 414;

a plurality of stirring fixing plates 401 are equidistantly welded at the side end of the transmission fixing rod 203, a fixing support sleeve 402 is welded at one end of each stirring fixing plate 401, a linkage electric push rod 403 is embedded into the inner side of each fixing support sleeve 402, a cleaning fixing plate 404 is clamped on an output shaft of each linkage electric push rod 403, an auxiliary support sleeve 405 is welded at the position, corresponding to the linkage electric push rod 403, of one end of each cleaning fixing plate 404, the auxiliary support sleeve 405 is slidably sleeved at the side end of each fixing support sleeve 402, so that the linkage electric push rods 403 can be effectively protected at the position where the cleaning fixing plate 404 is adjusted, meanwhile, effective auxiliary support limiting can be realized, and a support spring 414 is welded between each stirring fixing plate 401 and each cleaning fixing plate 404;

the top end of the rolling box 301 is welded with a limiting fixed box 406, the inner side of the limiting fixed box 406 is embedded with a cleaning electric sliding rail 407, the bottom end of the cleaning electric sliding rail 407 is connected with an auxiliary scraper 408 through a sliding rail seat, the top end of the blanking linkage box 306 is welded with an installation fixed box 409, the inner side top end of the installation fixed box 409 is embedded with a fixed electric sliding rail 410, the bottom end of the fixed electric sliding rail 410 is connected with a scraping movable plate 411 through a sliding rail seat, one end of the scraping movable plate 411 is welded with a push spring 412, one end of the push spring 412 is welded with a linkage scraper 413, the side end of the linkage scraper 413 is in sliding fit with the side end of the blanking linkage box 306, so that the best cleaning position can be ensured during cleaning, the cross sections of the stirring fixed plate 401, the cleaning fixed plate 404, the scraping movable plate 411 and the linkage scraper 413 are all L-shaped, so that the mutual limiting can be realized during the cleaning movement, the condition of position deviation is avoided, and the input ends of the linkage electric pushing rod 403, the cleaning electric sliding rail 407 and the fixed electric sliding rail 410 are electrically connected with the output end of an external controller.

The working principle and the using process of the invention are as follows: before the production of the water-based ink is needed, a worker injects water into the inner side of the stirring barrel 201, injects the amount of the water into a limited amount, connects the placing mesh cylinder 208 with the sealing protective cover 207, which is provided with pigment, through threads, inserts the placing mesh cylinder 208 into the inner side of the stirring barrel 201, clamps the sealing protective cover 207 to the top end of the fixed support cover 206, adsorbs and fixes the sealing backing plate 222 through the adsorption electromagnet 223, injects liquid auxiliary agents into the inner sides of the blanking fixed cylinders 220, respectively places powder auxiliary agents into the inner sides of the blanking fixed boxes 224, when the placing mesh cylinder 208 is inserted into the inner side of the stirring barrel 201, the bottom end of the limiting linkage rod 209 is inserted into the inner side of the insertion connection hole 204 of the inner side of the transmission fixed rod 203, and adsorbs and fixes the powder auxiliary agents through the fixed electromagnet 205;

the transmission fixed rod 203 is driven to rotate by the transmission motor 202, the stirring fixed plate 401 is driven to rotate along the fixed direction by the transmission fixed rod 203 to drive the water body to stir and rotate, the limit linkage rod 209 is driven to rotate by the transmission fixed rod 203, the transmission gear 210 is driven to rotate by the limit linkage rod 209, the transmission gear 210 is meshed with the driven gear 211 for transmission, so that the pushing fixed plate 212 is driven to push the pigment along the reverse direction, the pigment is impacted with the water body under the pushing action, the pigment can be synchronously dispersed, stirred and mixed when being contacted and fused with the water body, a better mixing effect can be ensured when being stirred and mixed, when the rotating speed of the water body reaches a certain speed, the linkage gear 216 is driven to rotate by the linkage motor 215, and the linkage gear 216 is meshed with the auxiliary gear 229 to drive the fixed placing frame 219 to rotate along the fixed supporting cover 206, the blanking fixing cylinder 220 and the blanking fixing box 224 are respectively rotated to the positions of the blanking fixing hole 217 and the linkage fixing hole 218, the adsorption electromagnet 223 is closed, the return spring 221 drives the sealing pad 222 and the linkage spring 225 drives the linkage pad 226 to rotate, so that the liquid auxiliary agent is discharged into the inner side of the stirring barrel 201 along the blanking fixing cylinder 220 and the blanking fixing hole 217, the powdered auxiliary agent is discharged into the inner side of the stirring barrel 201 along the blanking fixing box 224 and the linkage fixing hole 218, when the powdered auxiliary agent is blanked, the feeding push plate 228 is driven by the movable electric slide rail 227 to push the powdered raw material, so that the blanking stability can be ensured during blanking, in the continuous rotating process, the sealing pad 222 and the linkage pad 226 are pushed to reset by the fixed supporting cover 206, so that the blanking position can be limited during the rotating process, the situation that the raw material can not be put into the inner side of the stirring barrel 201 is avoided, and meanwhile, the blanking position is adjusted, the situation that the color of the ink is affected due to uneven mixing caused by a single blanking position can be avoided during blanking, and the situation that the pigment is accumulated at the bottom of a barrel to cause that the pigment cannot be completely and stably and uniformly mixed during blanking is avoided by gradually adding the pigment and placing the pigment at the middle position of a water body;

after the pigment and the water body are mixed and emulsified, the mixed water-based ink is discharged by adjusting the discharge box 324, the rolling motor 302 drives the rolling rollers 303 to rotate along the rolling box 301, the ink flows to the positions of the rolling rollers 303 along the adjusting discharge box 324, the rolling rollers 303 rotate oppositely to roll, small particle pigment agglomerates contained in the ink are rolled and crushed, and meanwhile, the ink is driven to be mixed and emulsified again by high-speed rotation, so that the ink with slight chromatic aberration is mixed again, and the color of the water-based ink is more uniform;

the worker rotates the limit screw 304, the limit screw 304 drives the rotary fixing frame 305 to rotate along the rolling box 301, so that the blanking linkage box 306 is rotated to a position aligned with the position of the screening mesh cylinder 323, the screening mesh cylinder 323 is clamped to the side end of the linkage clamping frame 320 through the clamping pin 322, the sleeving fixing cylinder 316 is driven by the lifting electric push rod 315 to ascend, the placing fixing barrel 317 is moved to the position of the screening mesh cylinder 323, the water-based ink is discharged into the inner side of the screening mesh cylinder 323 along the blanking linkage box 306, the linkage clamping frame 320 is driven by the vibrating motor 321 to vibrate under the auxiliary action of the vibrating spring 319, the screening mesh cylinder 323 is driven to screen the water-based ink, and through two steps of rolling and screening, the final ink can be guaranteed to contain large particle raw materials which are not completely mixed when the water-based ink is produced, meanwhile, the color uniformity of the ink can be guaranteed, and the occurrence of a larger color difference can be avoided;

the fixed barrel 317 is placed to store and fill the ink, the sleeve joint fixed barrel 316 is driven to move by the lifting electric push rod 315, and the adjusting fixed plate 314 is driven to rotate by the servo motor 313, so that the fixed barrel 317 can be placed quickly after filling is completed, and the filling and storing efficiency is ensured;

when the stirring barrel 201 discharges materials, the linkage electric push rod 403 drives the cleaning fixing plate 404 to slide along the auxiliary supporting sleeve 405 and the fixed supporting sleeve 402, so that the side end of the cleaning fixing plate 404 is attached to the inner wall of the stirring barrel 201, meanwhile, the auxiliary pool of the spring 414 is supported, when the stirring fixing plate 401 rotates, the cleaning fixing plate 404 carries out scraping treatment on the synchronously residual water-based ink, so that the barrel wall can be cleaned synchronously when the materials are discharged, the speed and the effect of treatment are ensured, the auxiliary scraper 408 is driven to slide along the limiting fixed box 406 through the cleaning electric slide rail 407, so that the bottom end of the grinding box 301 is cleaned and scraped, the scraping moving plate 411 is driven to slide along the blanking linkage box 306 by the fixed electric slide rail 410, the spring 412 is pushed to push the linkage scraper 413 to slide along the scraping moving plate 411 in the moving process, so that the side end of the linkage scraper 413 is always attached to the side end of the blanking linkage box 306, so that the bottom end and the side end of the blanking linkage box 306 are comprehensively cleaned and the side end of the grinding box 306, so that the daily operation can be carried out when the cleaning and maintenance are needed, and the situation that the water-based on the accumulation of the linkage box 306 and the subsequent materials can be prevented from being accumulated when the discharge materials are discharged materials.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The preparation method of the high-efficiency water-based ink is characterized by comprising the following steps:

s1: the raw material ratio is as follows: the required raw materials are respectively placed into a stirring barrel (201), a placing net barrel (208), a blanking fixed barrel (220) and a blanking fixed box (224) according to the proportion, so that the raw materials are rapidly classified and placed;

s2: filling raw materials: the blanking position is changed by driving a fixed placing rack (219), a blanking fixed cylinder (220) and a blanking fixed box (224) through a linkage motor (215), a linkage gear (216) and an auxiliary gear (229), so that the pigment and the auxiliary material are respectively injected into the position of the water body, and the mixing effect among the raw materials is ensured;

s3: stirring and mixing: raw materials are stirred and mixed through a fixed support frame (1), a stirring barrel (201), a transmission motor (202) and a stirring fixing plate (401), so that water and pigment are emulsified and mixed, and the mixing production of the water-based ink is completed;

s4: rolling and mixing: the water-based ink is rolled and stirred in the rolling box (301) through opposite rolling rotation of the rolling motor (302) and the rolling roller (303), so that the color of the water-based ink is more uniform, the pigment which is not completely mixed is reduced, and the mixing effect is ensured;

s5: screening and separating: the water-based ink is subjected to vibration screening through the vibration spring (319), the linkage clamping frame (320), the vibration motor (321) and the screening net cylinder (323), so that the water-based ink is further treated, and the quality of the produced ink is ensured;

s6: filling and storing: through servo motor (313), regulation fixed plate (314), electric push rod (315) rise, cup joint a fixed section of thick bamboo (316) and place solid fixed bucket (317) and save aqueous ink for can collect the storage fast after production is accomplished.

2. The efficient water-based ink preparation method according to claim 1, wherein a limiting in-out component (2) is mounted on one side of the fixed support frame (1), and the limiting in-out component (2) comprises a stirring barrel (201), a transmission motor (202), a transmission fixing rod (203), an insertion connecting hole (204), a fixed electromagnet (205), a fixed support cover (206), a sealing protective cover (207), a placing mesh cylinder (208), a limiting linkage rod (209), a transmission gear (210), a driven gear (211), a material pushing fixing plate (212), an input tube (213), a support connecting plate (214), a linkage motor (215), a linkage gear (216), a blanking fixing hole (217), a linkage fixing hole (218), a fixed placing frame (219), a blanking fixing cylinder (220), a reset spring (221), a sealing cushion plate (222), an adsorption electromagnet (223), a blanking fixing box (224), a linkage spring (225), a linkage cushion plate (226), a movable electric sliding rail (227), a feeding push plate (228) and an auxiliary gear (229);

the net placing cylinder (208) is embedded into the inner side of the stirring barrel (201), the sealing protection cover (207) is clamped to the top end position of the fixed supporting cover (206), the sealing base plate (222) is adsorbed and fixed through the adsorption electromagnet (223), the bottom end of the limiting linkage rod (209) is embedded into the inner side of the insertion connecting hole (204) in the inner side of the transmission fixing rod (203), the transmission fixing rod (203) is driven to rotate by the transmission motor (202), the limiting linkage rod (209) is driven to rotate by the transmission fixing rod (203), the transmission gear (210) is driven to rotate by the limiting linkage rod (209), and the transmission gear (210) is meshed with the driven gear (211) for transmission, so that the material pushing fixing plate (212) is driven;

the linkage motor (215) drives the linkage gear (216) to rotate, the linkage gear (216) is meshed with the auxiliary gear (229) to drive the fixed placing frame (219) to rotate along the fixed supporting cover (206), the blanking fixed cylinder (220) and the blanking fixed box (224) are respectively rotated to the positions of the blanking fixed hole (217) and the linkage fixed hole (218), and the reset spring (221) drives the sealing cushion plate (222) and the linkage spring (225) to drive the linkage cushion plate (226) to rotate.

3. A method for preparing high performance water-based ink according to claim 1, the top end of the fixed supporting frame (1) is sleeved and clamped with a stirring barrel (201), the bottom end of the stirring barrel (201) is provided with a transmission motor (202) through a motor base, a transmission fixing rod (203) is clamped at the position of the top end of the output shaft of the transmission motor (202) corresponding to the stirring barrel (201), the middle part of the top end of the transmission fixing rod (203) is provided with an insertion connecting hole (204), a fixed electromagnet (205) is embedded and installed at the inner side of the insertion connecting hole (204), the top end of the stirring barrel (201) is clamped with a fixed supporting cover (206), a sealing protective cover (207) is embedded and clamped in the middle of the top end of the fixed supporting cover (206), the bottom end of the sealing protective cover (207) is connected with a net placing cylinder (208) through threads, the inner side of the net placing cylinder (208) is rotatably connected with a limiting linkage rod (209) corresponding to the position of the inserting connection hole (204), a transmission gear (210) is arranged at the top end of the limit linkage rod (209) close to the position of the sealing protective cover (207), the bottom end of the sealing protective cover (207) is rotatably connected with a driven gear (211) corresponding to the position of the transmission gear (210), the bottom end of the driven gear (211) is welded with a material pushing fixing plate (212), the top end of the sealing protective cover (207) is symmetrically connected with an input pipe (213) in a penetrating way;

agitator (201) side top welding has supporting connection board (214), linkage motor (215) are installed through the motor cabinet to supporting connection board (214) bottom, linkage motor (215) output shaft top is close to fixed stay lid (206) position department and installs linkage gear (216), unloading fixed orifices (217) have been seted up on fixed stay lid (206) top, linkage fixed orifices (218) have been seted up on fixed stay lid (206) top, fixed stay lid (206) top corresponds unloading fixed orifices (217) and linkage fixed orifices (218) position department rotation and is connected with fixed rack (219), fixed rack (219) top corresponds linkage fixed orifices (218) position department through connection and has unloading fixed cylinder (220), unloading fixed cylinder (220) bottom welding has reset spring (221), reset spring (221) one end corresponds unloading fixed cylinder (220) position department welding and has sealed backing plate (222), unloading linkage fixed cylinder (220) inboard corresponds sealed backing plate (222) top position department joint has electro-magnet (223), fixed adsorption (219) top corresponds linkage fixed cylinder (218) position department welding and has sealed backing plate (224) and has the welding of unloading case (224), unloading linkage fixed spring (225) top corresponds linkage fixed orifices (218) position department welding and has the welding of unloading case (224), unloading case (224) bottom is connected with the fixed connection of unloading case (224), and has the unloading fixed spring (224) of unloading fixed connection of unloading The automatic feeding device comprises a plate (226), wherein a movable electric sliding rail (227) is symmetrically embedded into the inner side of the blanking fixing box (224), the side end of the movable electric sliding rail (227) is connected with a feeding push plate (228) through a sliding rail seat, and an auxiliary gear (229) is welded at the position of the bottom end of the fixing placing frame (219) corresponding to the linkage gear (216).

4. The efficient water-based ink preparation method according to claim 3, wherein the placement screen cylinder (208) is embedded inside the stirring barrel (201), the bottom end of the limiting linkage rod (209) is embedded inside the insertion connection hole (204), the transmission gear (210) is meshed with the driven gear (211), the input ends of the transmission motor (202), the fixed electromagnet (205), the linkage motor (215), the adsorption electromagnet (223) and the adsorption electromagnet (223) are electrically connected with the output end of an external controller, and the input end of the external controller is electrically connected with the output end of an external power supply.

5. The efficient water-based ink preparation method according to claim 3, wherein the linkage gear (216) is meshed with the auxiliary gear (229), the top end of the sealing pad (222) is attached to the bottom end of the adsorption electromagnet (223), the bottom ends of the sealing pad (222) and the linkage pad (226) are both attached to the top end of the fixed support cover (206), and the maximum rotation angle of the sealing pad (222) and the linkage pad (226) is 90 degrees.

6. The efficient water-based ink preparation method according to claim 1, wherein a rolling screening component (3) is installed on one side of the fixed support frame (1), and the rolling screening component (3) comprises a rolling box (301), a rolling motor (302), a rolling roller (303), a limit screw (304), a rotary fixing frame (305), a blanking linkage box (306), an installation support plate (307), an auxiliary linkage rod (308), a sealing isolation plate (309), a pressing spring (310), an insertion installation hole (311), a fixing pin (312), a servo motor (313), an adjustment fixing plate (314), a lifting electric push rod (315), a sleeving fixing cylinder (316), a placing fixing barrel (317), a fixing clamping ring (318), a vibrating spring (319), a linkage clamping frame (320), a vibrating motor (321), a clamping pin (322), a screening net cylinder (323) and an adjustment discharging box (324);

the automatic feeding device is characterized in that a rolling box (301) is welded at one end of the inner side of the fixed support frame (1), a plurality of rolling motors (302) are installed at two ends of the rolling box (301) in an equal distance mode through motor bases, rolling rollers (303) are connected to positions, corresponding to the rolling box (301), of output shafts of the rolling motors (302) in a clamping mode, the top ends of the rolling box (301) are symmetrically connected with limit screws (304) through screw bases, the bottom ends of the limit screws (304) are rotatably connected with rotary fixing frames (305), blanking linkage boxes (306) are welded between the two rotary fixing frames (305), equidistant welding of positions, far away from the rolling box (301), of the tops of the blanking linkage boxes (306) is provided with mounting plates (307), auxiliary linkage rods (308) are connected to the top ends of the mounting plates (307) in a penetrating mode, sealing isolation plates (309) are welded at the bottom ends of the auxiliary linkage rods (308), a plurality of pressing springs (310) are welded between the tops of the sealing isolation plates (309) and the bottom ends of the mounting plates (307), inserting mounting holes (311) are formed in an inserting mode, and pins (312) are installed at the inner side ends of the mounting holes (307);

servo motor (313) are installed through the motor cabinet to the inboard one end of fixed bolster (1), servo motor (313) output shaft bottom corresponds fixed bolster (1) position department joint has regulation fixed plate (314), regulation fixed plate (314) top symmetry joint has ascending electric putter (315), two ascending electric putter (315) output shaft top joint has cup joints solid fixed cylinder (316), cup joint solid fixed cylinder (316) top has cup jointed places solid fixed barrel (317), gu fixed bolster (1) one end corresponds places solid fixed barrel (317) position department welding has solid fixed joint ring (318), gu fixed joint ring (318) top equidistance welding has a plurality of vibrations spring (319), and is a plurality of vibrations spring (319) top welding has linkage joint frame (320), vibration motor (321) are installed through the motor cabinet to linkage joint frame (320) bottom symmetry, linkage joint frame (320) inboard bottom is connected with a screening net section of thick bamboo (323) through pin joint (322) joint, agitator (201) bottom through connection has regulation row material box (324).

7. The efficient water-based ink preparation method according to claim 6, wherein the blanking linkage box (306) is rotatably connected with the rolling box (301), the cross section of the blanking linkage box (306) is trapezoidal, the longitudinal section of the auxiliary linkage rod (308) is T-shaped, and the input ends of the rolling motor (302), the servo motor (313), the ascending electric push rod (315) and the vibration motor (321) are electrically connected with the output end of an external controller.

8. The method for preparing the water-based ink with high efficiency as claimed in claim 6, wherein the sealing isolation plate (309) is slidably mounted inside the blanking linkage box (306), the adjusting fixing plate (314) is rotatably connected with the fixing support frame (1), and the screen cylinder (323) is embedded inside the placing fixing barrel (317).

9. The efficient preparation method of the water-based ink is characterized in that one side of the transmission fixing rod (203) is provided with a stirring cleaning component (4), and the stirring cleaning component (4) comprises a stirring fixing plate (401), a fixing supporting sleeve (402), a linkage electric push rod (403), a cleaning fixing plate (404), an auxiliary supporting sleeve (405), a limiting fixing box (406), a cleaning electric slide rail (407), an auxiliary scraper (408), an installation fixing box (409), a fixing electric slide rail (410), a scraping moving plate (411), a pushing spring (412), a linkage scraper (413) and a supporting spring (414);

a plurality of stirring fixing plates (401) are equidistantly welded at the side end of the transmission fixing rod (203), a fixing support sleeve (402) is welded at one end of each stirring fixing plate (401), a linkage electric push rod (403) is embedded into the inner side of each fixing support sleeve (402), a cleaning fixing plate (404) is clamped and connected to an output shaft of each linkage electric push rod (403), an auxiliary support sleeve (405) is welded at a position, corresponding to the linkage electric push rod (403), of one end of each cleaning fixing plate (404), and a support spring (414) is welded between each stirring fixing plate (401) and each cleaning fixing plate (404);

roll box (301) top welding and have spacing fixed box (406), clean electric slide rail (407) are installed in the inboard embedding of spacing fixed box (406), clean electric slide rail (407) bottom is connected with supplementary scraper blade (408) through the slide rail seat, unloading linkage box (306) top welding has the fixed box of installation (409), fixed electric slide rail (410) are installed in the inboard top embedding of the fixed box of installation (409), fixed electric slide rail (410) bottom is connected with through the slide rail seat and strikes off movable plate (411), strike off movable plate (411) one end welding and have push spring (412), push spring (412) one end welding has linkage scraper blade (413).

10. The efficient preparation method of the water-based ink, as claimed in claim 9, wherein the cross-section of the stirring fixing plate (401), the cleaning fixing plate (404), the scraping moving plate (411) and the linkage scraper (413) is L-shaped, the auxiliary support sleeve (405) is slidably sleeved on the side end of the fixed support sleeve (402), the side end of the linkage scraper (413) is slidably attached to the side end of the blanking linkage box (306), and the input ends of the electrokinetic push rod (403), the cleaning electric slide rail (407) and the fixed electric slide rail (410) are electrically connected to the output end of the external controller.