CN114570271B

CN114570271B - Continuous automatic production equipment for mass production of water-based resin

Info

Publication number: CN114570271B
Application number: CN202210262045.0A
Authority: CN
Inventors: 陈晓锐; 周昌盛; 刘杭杭; 李冠荣
Original assignee: Guangdong Jinbaoli Fine Chemical Equipment Co ltd
Current assignee: Guangdong Jinbaoli Fine Chemical Equipment Co ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2023-02-28
Anticipated expiration: 2042-03-17
Also published as: CN114570271A

Abstract

The invention discloses continuous automatic production equipment for the mass production of water-based resin, which belongs to the technical field of water-based resin production equipment and comprises a mixing shell, wherein the top of the mixing shell is in threaded connection with a feeding cover, the bottom of the mixing shell is fixedly connected with four supporting legs, the bottom of the inner wall of the mixing shell is provided with a through first hole, the bottom of the mixing shell is in sliding and sealing connection with a first discharging shell and a second discharging shell, the side surface of the second discharging shell is provided with a first groove, the inner wall of the first groove is in sliding connection with the second discharging shell, the first discharging shell and the second discharging shell jointly form a discharging hole, the discharging hole is matched with the first hole, and the side surfaces of the first discharging shell and the second discharging shell are both fixedly connected with two first shafts; according to the invention, the first discharging shell and the second discharging shell are arranged and separated, so that the space for cleaning the inner surface of the first discharging shell and the second discharging shell is increased, the subsequent automatic cleaning is convenient, the manual cleaning can be still carried out when the subsequent equipment fails, and the flexibility and the usability of the equipment are increased.

Description

Continuous automatic production equipment for mass production of water-based resin

Technical Field

The invention relates to the technical field of waterborne resin production equipment, in particular to continuous automatic production equipment for the mass production of waterborne resin.

Background

The aqueous resin is a novel resin system using water as a dispersion medium instead of an organic solvent. And fusing with water to form a solution, and forming a resin film material after the water is volatilized. The aqueous resin is not an aqueous resin per se, but a film material obtained after water is volatilized is required.

In the invention case of the water-based resin disclosed in the prior art, the Chinese patent with patent application number 202022780475.0 comprises a stirring kettle main body and a driving motor, wherein an accommodating cavity is formed in the stirring kettle main body, a stirring kettle bottom plate is arranged at the bottom of the stirring kettle main body, stirring kettle side walls are arranged at the lower part of the stirring kettle main body, and the stirring kettle side walls are arranged at two sides of the stirring kettle bottom plate.

Among the prior art when the agitated vessel finishes using, when needing to clear up the discharge gate, because the discharge gate is fixed on equipment and the discharge gate is comparatively narrow usually, and then is difficult to clear up it, and the manual work is cleared up and is wasted time and energy and the quality of clearance is difficult to guarantee, if the discharge gate remains the resin that does not clear up, will stir other kinds of water-based resin next time and cause the pollution.

Based on the technical scheme, the invention designs continuous automatic production equipment for the mass production of the water-based resin so as to solve the problems.

Disclosure of Invention

The invention aims to provide continuous automatic production equipment for mass production of water-based resin, which solves the problems that in the prior art, when the stirring equipment is used and a discharge port needs to be cleaned, the discharge port is fixed on the equipment and is usually narrow, so that the discharge port is difficult to clean, manual cleaning wastes time and labor, the cleaning quality is difficult to ensure, and if the discharge port is left with resin which is not cleaned, the next time of stirring other types of water-based resin is polluted.

In order to achieve the purpose, the invention provides the following technical scheme: the continuous automatic production equipment for the mass production of the water-based resin comprises a mixing shell, wherein the top of the mixing shell is in threaded connection with a feeding cover, the bottom of the mixing shell is fixedly connected with four supporting legs, the bottom of the inner wall of the mixing shell is provided with a first through hole, the bottom of the mixing shell is in sliding and sealing connection with a first discharging shell and a second discharging shell, the side surface of the second discharging shell is provided with a first groove, the inner wall of the first groove is in sliding connection with the second discharging shell, the first discharging shell and the second discharging shell jointly form a discharging hole, the discharging hole is matched with the first hole, the side surfaces of the first discharging shell and the second discharging shell are fixedly connected with two first shafts, the surfaces of the first shafts are connected with a separating device, the bottom of the mixing shell is provided with a through fan-shaped hole, and the inner wall of the fan-shaped hole is connected with a cleaning device;

the separating device comprises two fixing plates, the tops of the fixing plates are fixedly connected to the bottom of the mixing shell, an arc-shaped surface is arranged on the side surface of each fixing plate and matched with the first discharging shell, two transverse plates are fixedly connected to the side surface of each fixing plate, a penetrating second groove is formed in the side surface of each transverse plate, the surface of a first shaft is connected to the inner wall of the second groove in a sliding mode, a first spring is fixedly connected to the side surface of the fixing plate on the right side together with the first discharging shell, four pull plates and two pull rods are fixedly connected to the bottom of the mixing shell, the side surfaces of the two pull plates are connected with first idler wheels in a rotating mode together, a weight block is connected to the surface of each pull rod in a sliding mode, a first rope is fixedly connected to the side surface of the first discharging shell and penetrates through the fixing plates and the first springs, the other end of the first rope bypasses the surface of each idler wheel, the end of the first rope is fixedly connected with the weight block, and a limiting pin penetrating through the weight block and the pull rods is connected to the side surface of the weight block in a sliding mode;

the cleaning device comprises a shell cleaning knife, the surface of the shell cleaning knife is connected on the inner wall of a fan-shaped hole in a sliding manner, the bottom surface of the shell cleaning knife is a first inclined plane, two through rectangular grooves are formed in the bottom of the mixing shell, the inner wall of each rectangular groove is connected with a vertical rod in a sliding manner, the side surface of the bottom of each vertical rod is fixedly connected with an inserting shaft, the other end of each inserting shaft penetrates through a fixing plate, the side surface of the top of each vertical rod is fixedly connected with a second shaft, the end part of each second shaft is fixedly connected with a limiting block, symmetrical sliding grooves are formed in the bottom of the inner wall of the mixing shell, the bottom of each limiting block is connected on the inner wall of each sliding groove in a sliding manner, the end part of each limiting block penetrates through the shell cleaning knife, the surface of each second shaft is connected with a first supporting plate in a sliding manner, the bottom of each first supporting plate is fixedly connected on the inner wall of the mixing shell, the side surface of the limiting block and the side surface of the first supporting plate are fixedly connected with a return spring together, the second shaft penetrates through the return spring, the bottom surface of the mixing shell is fixedly connected with two sealing shells, the inner wall of each sealing shell is rotatably connected with a second roller, the surface of each mixing shell is symmetrically and fixedly connected with two pairs of second supporting plates, each pair of the two second supporting plates is connected with a winding wheel together in a rotating mode, the top of the shell cleaning knife is fixedly connected with a second rope, the second rope winds the surface of the second roller, the end part of the second rope is fixedly connected to the winding wheel, the top of the shell cleaning knife is fixedly connected with two fixed blocks, the two fixed blocks are fixedly connected with a fan-shaped shaft together, the surface of the fan-shaped shaft is rotatably connected with a plurality of rotating wheels, and the surface of the rotating wheels is fixedly connected with a plurality of cleaning brushes and a cleaning hopper;

when the stirring device works, when the stirring device is used and the discharge port needs to be cleaned in the prior art, the discharge port is fixed on the device and is usually narrow, so that the stirring device is difficult to clean, the manual cleaning is time-consuming and labor-consuming, the cleaning quality is difficult to guarantee, if resin which is not cleaned remains in the discharge port, other types of water-based resin can be stirred next time to cause pollution, the technical scheme solves the problems by arranging the first discharge shell, the second discharge shell, the separating device, the cleaning device and the like, when the discharge port needs to be cleaned, the limiting pin is firstly pulled down manually, the first discharge shell and the second discharge shell are pulled to slide backwards through the first rope under the action of the gravity of a weight block and extrude the first spring, and the first shaft slides along the inner wall of the second groove at the same time, so that the first discharge shell and the second discharge shell are prevented from deviating, the side surfaces of the first discharging shell and the second discharging shell are gradually contacted with each other and extrude the inserting shaft, the inserting shaft gradually moves backwards, when the first discharging shell and the second discharging shell move to be contacted with the arc-shaped surface of the fixed plate, the separation is completed at the moment, the movable first discharging shell and the second discharging shell are arranged and separated, the space for cleaning the inner surfaces of the first discharging shell and the second discharging shell is enlarged, the subsequent automatic cleaning is convenient, in the subsequent equipment failure, the manual cleaning can still be performed, the flexibility of the equipment is increased, when the inserting shaft moves backwards, the vertical rod is driven to slide along the rectangular groove, the vertical rod drives the limiting block to move backwards along the sliding groove through the second shaft, the limiting block gradually extrudes the reset spring, when the first discharging shell and the second discharging shell are contacted with the arc-shaped surface of the fixed plate, the limiting block can relieve the limitation of the shell cleaning knife at the moment, because the shell cleaning knife is made of a material with higher density, the shell cleaning knife slides along the inner wall of the fan-shaped hole under the action of gravity, the second rope is pulled and the winding wheel is driven to rotate, more second ropes are released by the winding wheel, the shell cleaning knife gradually moves and contacts the inner surfaces of the first discharging shell and the second discharging shell so as to clean the shell cleaning knife, the cutter head at the end part gradually scrapes off the residual resin on the surfaces of the first discharging shell and the second discharging shell, the brush and the cleaning bucket contact the inner surfaces of the first discharging shell and the second discharging shell in the downward movement process of the shell cleaning knife and drive the rotating wheel to rotate around the fan-shaped shaft, the brush cleans the surfaces of the first discharging shell and the second discharging shell, and the cleaning bucket scrapes and cleans the inner surfaces of the first discharging shell and the second discharging shell again, simultaneously the resin under the brush clearance will be accepted by the clearance fill, and along with the rotation of runner, resin in the clearance fill will all fall into in the casing clearance sword, prevent that the resin from falling into the outside and polluting the inner wall of first ejection of compact shell and second ejection of compact shell, after the clearance is accomplished, through manual rotation winding wheel with casing clearance sword reset, reuse spacer pin carries out spacing messenger's it resets to the heavy object piece once more, first ejection of compact shell and second ejection of compact shell will be sealed contact recovery initial position again, realize the semi-automatization to the discharge gate clearance through above-mentioned process, convenient and fast's clearance, and through setting up the discharge gate of separation, avoided the manual work to clear up to waste time and energy and the quality of clearance is difficult to guarantee, if the discharge gate remains the resin that does not clear up, will stir other kinds of aqueous resin next time and cause the problem of pollution.

As a further scheme of the invention, the side surface of the supporting leg is fixedly connected with L-shaped rods, the two L-shaped rods are fixedly connected with a cleaning shell together, the inner wall of the cleaning shell is a second inclined surface, the first inclined surface is matched with the second inclined surface, the side surface of the cleaning shell is fixedly connected with an arc shaft, two ends of the arc shaft are fixedly connected with arc springs, the other end of each arc spring is fixedly connected with a rectangular cleaning knife, the inner walls of two sides of the cleaning shell are both provided with arc grooves, the inner walls of the arc grooves are slidably connected with sliding blocks, the side surface of each sliding block is fixedly connected with a third shaft, the other end of each third shaft is fixedly connected with the side surface of the rectangular cleaning knife, the bottom of the rectangular cleaning knife is slidably connected with two first pressure rods, one end of each first pressure rod is inserted in the bottom of the rectangular cleaning knife, the other end of each first pressure rod penetrates through the cleaning shell and is fixedly connected with a triangular plate at the end part, the side surface of the triangular plate is fixedly connected with four second springs, the other end of each second spring penetrates through the cleaning shell; the during operation, when the clearance of casing clearance sword finishes, the part of its tool bit may remain partial resin, in order to clear up its surperficial resin, simultaneously, prevent that clearance effect worsens when clearance next time, this technical scheme has solved above-mentioned problem through setting up L type pole, structure such as clearance shell and rectangle clearance sword, when the inner wall clearance of casing clearance sword to first ejection of compact shell and second ejection of compact shell finishes, it still will move down and get into inside the sword clearance shell, the casing clearance sword will contact and extrude the second depression bar, receive extruded second depression bar will move down and drive first depression bar downstream through the set-square, the first depression bar of downstream will remove the spacing to rectangle clearance sword, casing clearance sword is not moving down this moment, remove spacing rectangle clearance sword and will slide along the arc wall on the clearance shell inner wall under the effect of arc spring, rectangle clearance sword will scrape the clearance sword the surface of casing clearance sword in gliding in-process, the clearance sword has realized automatic clearance through the clearance of above-mentioned process and the part resin, the problem of the clearance of the inferior effect of casing clearance has been avoided.

As a further scheme of the invention, two damping springs are fixedly connected to the side surface of the rectangular cleaning knife, and a damping plate is fixedly connected to the side surface of each damping spring; during operation, in order to weaken the impact when two rectangular cleaning knives contact, the impact force when the rectangular cleaning knives contact is weakened through the damping spring and the damping plate, and the service life of the mechanism is prolonged.

As a further scheme of the invention, a third inclined plane is arranged on the side surface of the shock absorption plate; during operation, set up the resin that the third slope can guide rectangle clearance sword clearance down, quick landing.

As a further scheme of the invention, the top of the rectangular cleaning knife is hinged with a guide plate, and the side surface of the guide plate is contacted with the top of the damping plate; during operation, through setting up the guide board, avoid the resin under the rectangle clearance sword clearance to fall into the middle space of sword shock attenuation board and rectangle clearance sword, prevent damping spring inefficacy.

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

1. according to the invention, the first discharging shell and the second discharging shell are arranged and separated, so that the space for cleaning the inner surfaces of the first discharging shell and the second discharging shell is enlarged, the subsequent automatic cleaning is facilitated, the manual cleaning can be still performed in the case of the subsequent equipment failure, the flexibility of the equipment is increased, the brush and the cleaning hopper are arranged, the brush and the cleaning hopper contact the inner surfaces of the first discharging shell and the second discharging shell in the downward movement process of the shell cleaning knife and drive the rotating wheel to rotate around the fan-shaped shaft, the brush cleans the surfaces of the first discharging shell and the second discharging shell, the cleaning hopper scrapes and cleans the inner surfaces of the first discharging shell and the second discharging shell again, meanwhile, the resin cleaned by the brush is received by the cleaning hopper, and along with the rotation of the rotating wheel, the resin in the cleaning hopper is poured into the shell cleaning knife completely, the resin is prevented from falling into the outer part to pollute the inner walls of the first discharging shell and the second discharging shell, the secondary cleaning of the first discharging shell and the second discharging shell is ensured to be cleaned completely, the semi-cleaning process is realized, the problem that the manual cleaning of the resin which is difficult to be cleaned by other manual cleaning and the manual cleaning of the residual discharge port is avoided, and the manual cleaning is difficult to cause the problem that the residual discharge port which is difficult to be cleaned, and the manual cleaning quality is difficult to be cleaned, and the manual cleaning is difficult to be cleaned, and the residual discharge port.

2. According to the invention, by arranging the L-shaped rod, the cleaning shell, the rectangular cleaning knife and other structures, when the rectangular cleaning knife is not limited, the rectangular cleaning knife which is not limited can slide along the arc-shaped groove on the inner wall of the cleaning shell under the action of the arc-shaped spring, and can scrape and clean the surface of the shell cleaning knife in the sliding process, so that the surface of the shell cleaning knife can be automatically cleaned through the process, the problem that part of resin possibly remains on the knife head of the shell cleaning knife, the cleaning effect is poor in the next cleaning process is solved, and the cleaning quality of the shell cleaning knife is further ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a vertical cut perspective view of the overall structure of the present invention;

FIG. 2 is a perspective view of the present invention with the support legs, L-shaped bars, and cleaning shell removed;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

FIG. 4 is a cross sectional perspective view of the present invention with the support legs, L-shaped bars and cleaning shell removed;

FIG. 5 is a partial enlarged view of the portion B in FIG. 4;

FIG. 6 is a perspective view of the present invention with the mixing housing, support legs, and cleaning housing removed;

FIG. 7 is a first perspective view of the structural connection of the housing clearing blade and the stationary block of the present invention;

FIG. 8 is a second perspective view of the housing clearing blade and securing block in structural connection in accordance with the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at C;

FIG. 10 is a first perspective view of the structural connection of the cleaning shell, arcuate spring and rectangular cleaning blade of the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 10 at D;

FIG. 12 is a second perspective view of the present invention showing the structural connection of the sweeper housing, arcuate spring and rectangular sweeper blade;

FIG. 13 is a perspective view of the connection of the first, triangle and second compression bars of the present invention;

fig. 14 is a partial enlarged view at E in fig. 13.

In the drawings, the components represented by the respective reference numerals are listed below:

compounding casing 1, reinforced lid 2, supporting leg 3, first hole 4, first ejection of compact shell 5, second ejection of compact shell 6, first groove 7, play

The material opening 8, the first shaft 9, the sector hole 10, the fixing plate 11, the arc-shaped surface 12, the transverse plate 13, the first spring 14, the pulling plate 15, the pulling rod 16, the first roller 17, the heavy object block 18, the first rope 19, the limiting pin 20, the shell cleaning knife 21, the first inclined surface 22, the vertical rod 23 and the inserting shaft

24. Second shaft 25, stopper 26, first support plate 27, return spring 28, seal housing 29, second roller 30, second support plate

31. A winding wheel 32, a second rope 33, a fixed block 34, a sector shaft 35, a rotating wheel 36, a cleaning brush 37, a cleaning bucket 38, an L-shaped rod 39,

Cleaning shell 40, second inclined surface 41, arc-shaped shaft 42, arc-shaped spring 43, rectangular cleaning knife 44, arc-shaped groove 45, sliding block 46 and third shaft

47. A first pressure lever 48, a triangular plate 49, a second spring 50, a second pressure lever 51, a damping spring 52, a damping plate 53, a third inclined surface 54,

A guide plate 55.

Detailed Description

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

Referring to fig. 1-14, the present invention provides a technical solution: a continuous automatic production device for mass production of water-based resin comprises a mixing shell 1, wherein the top of the mixing shell 1 is in threaded connection with a feeding cover 2, the bottom of the mixing shell 1 is fixedly connected with four supporting legs 3, the bottom of the inner wall of the mixing shell 1 is provided with a through first hole 4, the bottom of the mixing shell 1 is in sliding sealing connection with a first discharging shell 5 and a second discharging shell 6, the side surface of the second discharging shell 6 is provided with a first groove 7, the inner wall of the first groove 7 is in sliding connection with the second discharging shell 6, the first discharging shell 5 and the second discharging shell 6 jointly form a discharging hole 8, the discharging hole 8 is matched with the first hole 4, the side surfaces of the first discharging shell 5 and the second discharging shell 6 are both fixedly connected with two first shafts 9, the surfaces of the first shafts 9 are connected with separating devices, the bottom of the mixing shell 1 is provided with a through fan-shaped hole 10, and the inner wall of the fan-shaped hole 10 is connected with a cleaning device;

the separating device comprises two fixing plates 11, the tops of the fixing plates 11 are fixedly connected to the bottom of the mixing shell 1, the side surfaces of the fixing plates 11 are provided with arc surfaces 12, the arc surfaces 12 are matched with the first discharging shell 5, the side surfaces of the fixing plates 11 are fixedly connected with two transverse plates 13, the side surfaces of the transverse plates 13 are provided with penetrating second grooves, the first shaft 9 is connected to the inner wall of the second groove in a surface sliding manner, the side surface of the right fixing plate 11 and the first discharging shell 5 are fixedly connected with a first spring 14 together, the bottom of the mixing shell 1 is fixedly connected with four pull plates 15 and two pull rods 16, the side surfaces of the two pull plates 15 are rotatably connected with a first roller 17 together, the pull rods 16 are connected with heavy object blocks 18 in a surface sliding manner, the side surface of the first discharging shell 5 is fixedly connected with a first rope 19, the first rope 19 penetrates through the first spring 14 and penetrates through the fixing plates 11, the other ends of the first rope 19 bypass the surface of the first roller 17 and are fixedly connected with the heavy object blocks 18, and the side surfaces of the heavy object blocks 18 are connected in a sliding manner, and the side surfaces of the heavy object blocks 18 are connected with limiting pins 20 which penetrate through the pull rods 16;

the cleaning device comprises a shell cleaning knife 21, the surface of the shell cleaning knife 21 is connected on the inner wall of the fan-shaped hole 10 in a sliding manner, the bottom surface of the shell cleaning knife 21 is a first inclined surface 22, the bottom of the mixing shell 1 is provided with two through rectangular grooves, the inner walls of the rectangular grooves are connected with vertical rods 23 in a sliding manner, the bottom side surfaces of the vertical rods 23 are fixedly connected with inserting shafts 24, the other ends of the inserting shafts 24 penetrate through the fixing plate 11, the top side surfaces of the vertical rods 23 are fixedly connected with second shafts 25, the end parts of the second shafts 25 are fixedly connected with limit blocks 26, the bottom parts of the inner walls of the mixing shell 1 are provided with symmetrical sliding grooves, the bottom parts of the limit blocks 26 are connected on the inner walls of the sliding grooves in a sliding manner, the end parts of the limit blocks 26 penetrate through the shell cleaning knife 21, the surface of the second shafts 25 is connected with first support plates 27 in a sliding manner, and the bottom parts of the first support plates 27 are fixedly connected on the inner wall of the mixing shell 1, the side of the limiting block 26 and the side of the first supporting plate 27 are fixedly connected with a return spring 28 together, the second shaft 25 penetrates through the return spring 28, the bottom surface of the mixing shell 1 is fixedly connected with two sealing shells 29, the inner wall of each sealing shell 29 is rotatably connected with a second roller 30, the surface of the mixing shell 1 is symmetrically and fixedly connected with two pairs of second supporting plates 31, each pair of second supporting plates is two, the two second supporting plates 31 are rotatably connected with a winding wheel 32 together, the top of the shell cleaning knife 21 is fixedly connected with a second rope 33, the second rope 33 winds around the surface of the second roller 30 and is fixedly connected to the winding wheel 32 at the end part, the top of the shell cleaning knife 21 is fixedly connected with two fixing blocks 34, the two fixing blocks 34 are fixedly connected with a sector shaft 35 together, the surface of the sector shaft 35 is rotatably connected with a plurality of rotating wheels 36, and the surface of the rotating wheels 36 is fixedly connected with a plurality of cleaning brushes 37 and a cleaning hopper 38;

when the stirring device works, when the stirring device is used and the discharge port 8 needs to be cleaned in the prior art, the discharge port 8 is fixed on the device, the discharge port 8 is usually narrow, the cleaning is difficult, the manual cleaning is time-consuming and labor-consuming, the cleaning quality is difficult to guarantee, if resin which is not cleaned remains in the discharge port 8, other types of water-based resin can be stirred next time to cause pollution, the technical scheme solves the problems by arranging the first discharge shell 5, the second discharge shell 6, the separating device, the cleaning device and the like, when the discharge port 8 needs to be cleaned, the limiting pin 20 is firstly pulled down manually, the first discharge shell 5 and the second discharge shell 6 are pulled to slide backwards and extrude the first spring 14 through the first rope 19 under the action of the gravity of the weight block 18, and the first shaft 9 slides along the inner wall of the second groove at the same time, the first discharging shell 5 and the second discharging shell 6 are prevented from deviating, the side surfaces of the first discharging shell 5 and the second discharging shell 6 are gradually contacted with and extrude the inserting shaft 24, the inserting shaft 24 gradually moves backwards, the first discharging shell 5 and the second discharging shell 6 move to be contacted with the arc-shaped surface 12 of the fixed plate 11, the separation is completed at the moment, the movable first discharging shell 5 and the movable second discharging shell 6 are arranged and separated, the space for cleaning the inner surface of the first discharging shell is enlarged, the subsequent automatic cleaning is convenient, the manual cleaning can still be performed when the subsequent equipment fails, the flexible usability of the equipment is increased, when the inserting shaft 24 moves backwards, the vertical rod 23 is driven to slide along the rectangular groove, the vertical rod 23 drives the limiting block 26 to move backwards along the sliding groove through the second shaft 25, the limiting block 26 gradually extrudes the reset spring 28, when the first discharging shell 5 and the second discharging shell 6 are contacted with the arc-shaped surface 12 of the fixed plate 11, at this time, the limiting block 26 will release the limitation of the casing clearing knife 21, and since the casing clearing knife 21 is made of a material with higher density, it will slide along the inner wall of the sector hole 10 under the action of gravity, pulling the second rope 33 and driving the winding wheel 32 to rotate, the winding wheel 32 will release more of the second rope 33, the housing clearing knife 21 will move step by step and contact the inner surfaces of the first and

second extractor housings

5, 6, then cleaning the first discharging shell 5 and the second discharging shell 6, gradually scraping residual resin on the surfaces of the first discharging shell 5 and the second discharging shell 6 by the cutter head at the end part, the brush and the cleaning bucket 38 will contact the inner surfaces of the first and second

discharging housings

5 and 6 during the downward movement of the housing cleaning blade 21, and drives the rotating wheel 36 to rotate around the fan-shaped shaft 35, the brush cleans the surface of the rotating wheel, the cleaning bucket 38 scrapes and cleans the inner surfaces of the first discharging shell 5 and the second discharging shell again, meanwhile, the resin cleaned by the brush is received by the cleaning bucket 38, and along with the rotation of the rotating wheel 36, the resin in the cleaning bucket 38 is totally poured into the shell cleaning knife 21, so that the resin is prevented from falling into the outside to pollute the inner walls of the first discharging shell 5 and the second discharging shell 6, after cleaning, the shell cleaning knife 21 is reset by manually rotating the winding wheel 32, the counterweight block 18 is reset by limiting again by the limiting pin 20, the first discharging shell 5 and the second discharging shell 6 are in sealing contact again to restore the initial position, realize through the semi-automatization to the clearance of 8 clearance of discharge gates through above-mentioned processes, convenient and fast's clearance, and through setting up the discharge gate 8 of separation, avoided the manual work to clear up waste time and energy and the quality of clearance is difficult to guarantee, if discharge gate 8 remains the resin that does not clear up, will stir the problem that other kind of water-based resin caused the pollution next time.

As a further scheme of the invention, the lateral surfaces of the supporting legs 3 are fixedly connected with L-shaped rods 39, the two L-shaped rods 39 are fixedly connected with a cleaning shell 40 together, the inner wall of the cleaning shell 40 is a second inclined surface 41, the first inclined surface 22 is matched with the second inclined surface 41, the lateral surface of the cleaning shell 40 is fixedly connected with an arc-shaped shaft 42, both ends of the arc-shaped shaft 42 are fixedly connected with arc-shaped springs 43, the other end of each arc-shaped spring 43 is fixedly connected with a rectangular cleaning knife 44, the inner walls of both sides of the cleaning shell 40 are respectively provided with an arc-shaped groove 45, the inner wall of each arc-shaped groove 45 is slidably connected with a sliding block 46, the lateral surface of each sliding block 46 is fixedly connected with a third shaft 47, the other end of each third shaft 47 is fixedly connected with the lateral surface of the rectangular cleaning knife 44, the bottom of the rectangular cleaning knife 44 is slidably connected with two first pressure rods 48, one end of each first pressure rod 48 is inserted into the bottom of the rectangular cleaning knife 44, the other end of each first pressure rod 48 penetrates through the cleaning shell 40 and is fixedly connected with a triangular plate 49, the lateral surface of the triangular plate 49 is fixedly connected with four second springs 50, the other end of each second spring 50 is fixedly connected with the bottom of the cleaning shell 40, each second pressure rod 50, each first pressure rod 48 penetrates through the second triangular plate 51, each second triangular plate 51 penetrates through the second triangular plate 51; in operation, when the shell cleaning knife 21 finishes cleaning, part of resin may be remained at the position of the knife head, in order to clean the resin on the surface of the shell, and simultaneously, the cleaning effect is prevented from being deteriorated in the next cleaning process, the technical scheme solves the problems by arranging the L-shaped rod 39, the cleaning shell 40, the rectangular cleaning knife 44 and the like, when the shell cleaning knife 21 finishes cleaning the inner walls of the first discharging shell 5 and the second discharging shell 6, the shell cleaning knife 21 further moves downwards and enters the knife cleaning shell 40, the shell cleaning knife 21 contacts and extrudes the second pressure rod 51, the extruded second pressure rod 51 moves downwards and drives the first pressure rod 48 to move downwards through the triangular plate 49, the first pressure rod 48 moving downwards releases the limit of the rectangular cleaning knife 44, at the moment, the shell cleaning knife 21 does not move downwards, the rectangular cleaning knife 44 releasing the limit moves downwards, the rectangular cleaning knife 44 slides along the arc-shaped groove 45 on the inner wall of the cleaning shell 40 under the action of the arc spring 43, the rectangular cleaning knife 44 slides the surface of the shell cleaning knife 21 in the sliding process, and the problem that the resin on the surface of the shell cleaning knife 21 may be deteriorated in the cleaning process is automatically cleaned, and the resin is avoided.

As a further scheme of the invention, two damping springs 52 are fixedly connected to the side surfaces of the rectangular cleaning knife 44, and a damping plate 53 is fixedly connected to the side surface of each damping spring 52; in operation, in order to weaken the impact when the two rectangular cleaning knives 44 are contacted, the shock absorption spring 52 and the shock absorption plate 53 are arranged, so that the impact force when the two rectangular cleaning knives are contacted is weakened, and the service life of the mechanism is prolonged.

As a further proposal of the invention, the side surface of the damping plate 53 is provided with a third inclined surface 54; in operation, the third inclined surface 54 is provided to guide the resin cleaned by the rectangular cleaning blade 44 to slide off quickly.

As a further scheme of the invention, the top of the rectangular cleaning knife 44 is hinged with a guide plate 55, and the side surface of the guide plate 55 is contacted with the top of the damping plate 53; during operation, through setting up guide plate 55, avoid the resin under the rectangle clearance sword 44 clearance to fall into the centre space of sword shock attenuation board 53 and rectangle clearance sword 44, prevent damping spring 52 inefficacy.

The working principle is as follows: when the discharge port 8 needs to be cleaned, firstly, the limiting pin 20 is pulled down manually, the first discharge shell 5 and the second discharge shell 6 are pulled to slide backwards and extrude the first spring 14 through the first rope 19 under the action of the gravity of the weight block 18, meanwhile, the first shaft 9 slides along the inner wall of the second groove, the first discharge shell 5 and the second discharge shell 6 are prevented from deviating, the side surfaces of the first discharge shell 5 and the second discharge shell 6 are gradually contacted and extrude the inserting shaft 24, the inserting shaft 24 gradually moves backwards, when the first discharge shell 5 and the second discharge shell 6 move to be contacted with the arc-shaped surface 12 of the fixing plate 11, the separation is completed, the space of the inner surface of the first discharge shell 5 and the second discharge shell 6 is arranged and separated, the subsequent automatic cleaning is facilitated, and when the subsequent equipment fails, the manual cleaning can still be carried out, and the flexibility of the equipment is increased, when the inserting shaft 24 moves backwards, the vertical rod 23 is driven to slide along the rectangular groove, the vertical rod 23 drives the limit block 26 to move backwards along the sliding groove through the second shaft 25, the limit block 26 gradually extrudes the return spring 28, when the first discharging shell 5 and the second discharging shell 6 are in contact with the arc-shaped surface 12 of the fixing plate 11, the limit block 26 releases the limit on the shell cleaning knife 21, because the shell cleaning knife 21 is made of a material with higher density, the shell cleaning knife slides along the inner wall of the fan-shaped hole 10 under the action of gravity, simultaneously pulls the second rope 33 and drives the winding wheel 32 to rotate, the winding wheel 32 releases more second ropes 33, the shell cleaning knife 21 gradually moves and contacts with the inner surfaces of the first discharging shell 5 and the second discharging shell 6 to clean the shell, and the knife head at the end gradually scrapes off residual resin on the surfaces of the first discharging shell 5 and the second discharging shell 6, in-process brush and clearance fill 38 that remove down at casing clearance sword 21 will contact the internal surface of first ejection of compact shell 5 and second ejection of compact shell 6, and drive runner 36 and rotate round fan-shaped shaft 35, the brush will clean its surface, clearance fill 38 will scrape the clearance again to the internal surface of first ejection of compact shell 5 and the second ejection of compact, the resin under the brush clearance will be born by clearance fill 38 simultaneously, and along with the rotation of runner 36, resin in the clearance fill 38 will all pour into casing clearance sword 21 in, prevent that resin from falling into the outside and polluting the inner wall of first ejection of compact shell 5 and second ejection of compact shell 6, after the clearance is accomplished, through manual rotation winding wheel 32 with casing clearance sword 21 resetting, reuse spacer pin 20 and spacing to heavy object piece 18 make it reset once more, first ejection of compact shell 5 and second ejection of compact shell 6 will reseal the contact and resume initial position, realize the semi-automatic clearance to discharge gate 8 clearance through the above-mentioned process, convenient clearance, and through setting up the automatic clearance that separates, the manual clearance will carry out the heavy object block 18 spacing again and make it reset to the initial position again, if the problem of resin that the quality of remaining manual stirring is difficult to other discharge gates 8, the problem of remaining water-borne resin that the discharge gate pollution of the discharge gate that is difficult to the resin, if it is remained quality.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a water-borne resin is continuous type automated production equipment for mass production, includes compounding casing (1), its characterized in that: the top of the mixing shell (1) is in threaded connection with a feeding cover (2), the bottom of the mixing shell (1) is fixedly connected with four supporting legs (3), a first through hole (4) is formed in the bottom of the inner wall of the mixing shell (1), the bottom of the mixing shell (1) is in sliding sealing connection with a first discharging shell (5) and a second discharging shell (6), a first groove (7) is formed in the side surface of the second discharging shell (6), the inner wall of the first groove (7) is in sliding connection with the second discharging shell (6), the first discharging shell (5) and the second discharging shell (6) jointly form a discharging port (8), the discharging port (8) is matched with the first through hole (4), two first shafts (9) are fixedly connected to the side surfaces of the first discharging shell (5) and the second discharging shell (6), a separating device is connected to the surface of the first shafts (9), a fan-shaped through hole (10) is formed in the bottom of the mixing shell (1), and a cleaning device is connected to the inner wall of the fan-shaped hole (10);

the separation device comprises two fixing plates (11), the top parts of the fixing plates (11) are fixedly connected with the bottom part of the mixing shell (1), an arc-shaped surface (12) is arranged on the side surface of the fixed plate (11), the arc-shaped surface (12) is matched with the first discharging shell (5), the lateral surface of the fixed plate (11) is fixedly connected with two transverse plates (13), the lateral surface of each transverse plate (13) is provided with a second through groove, the surface of the first shaft (9) is connected on the inner wall of the second groove in a sliding way, the side surface of the fixed plate (11) at the right side and the first discharging shell (5) are fixedly connected with a first spring (14) together, the bottom of the mixing shell (1) is fixedly connected with four pull plates (15) and two pull rods (16), the side surfaces of the two pull plates (15) are jointly and rotatably connected with a first roller (17), the surface of the pull rod (16) is connected with a heavy object block (18) in a sliding way, a first rope (19) is fixedly connected with the side surface of the first discharging shell (5), the first rope (19) passes through the first spring (14) and penetrates through the fixing plate (11), the other end of the first rope (19) winds around the surface of the first roller (17) and the end part of the first rope is fixedly connected with the weight block (18), the side surface of the heavy object block (18) is connected with a limit pin (20) which penetrates through the heavy object block (18) and the pull rod (16) in a sliding manner;

the cleaning device comprises a shell cleaning knife (21), the surface of the shell cleaning knife (21) is connected to the inner wall of a fan-shaped hole (10) in a sliding mode, the bottom surface of the shell cleaning knife (21) is a first inclined plane (22), two through rectangular grooves are formed in the bottom of the mixing shell (1), a vertical rod (23) is connected to the inner wall of each rectangular groove in a sliding mode, a plug-in shaft (24) is fixedly connected to the bottom side of the vertical rod (23) in the side face, the other end of the plug-in shaft (24) penetrates through a fixing plate (11), a second shaft (25) is fixedly connected to the top side face of the vertical rod (23), a limiting block (26) is fixedly connected to the end portion of the second shaft (25) in the end portion, symmetrical sliding grooves are formed in the bottom portion of the inner wall of the mixing shell (1), the bottom portion of the limiting block (26) is connected to the inner wall of each sliding groove in a sliding mode, the end portion of the limiting block (26) penetrates through the shell cleaning knife (21), a first supporting plate (25) is connected to the surface of the second shaft (25) in a sliding mode, the bottom portion of the first supporting plate (27) is fixedly connected to the inner wall of the limiting block of the mixing shell (1), two reset springs (28) are connected to the side face of the mixing shell (27), and connected to the second shaft (29), and connected to the reset spring (29), and the reset spring (28) and the reset spring (29), the inner wall of the sealing shell (29) is rotatably connected with a second roller (30), the surface of the mixing shell (1) is symmetrically and fixedly connected with two pairs of second supporting plates (31), each pair of second supporting plates is two, the two second supporting plates (31) are jointly and rotatably connected with a winding wheel (32), the top of the shell cleaning knife (21) is fixedly connected with a second rope (33), the second rope (33) is wound on the surface of the second roller (30), the end part of the second rope is fixedly connected to the winding wheel (32), the top of the shell cleaning knife (21) is fixedly connected with two fixing blocks (34), the two fixing blocks (34) are jointly and fixedly connected with a fan-shaped shaft (35), the surface of the fan-shaped shaft (35) is rotatably connected with a plurality of rotating wheels (36), the surface of the rotating wheels (36) is fixedly connected with a plurality of cleaning brushes (37) and a cleaning bucket (38), the first discharging shell (5) and the second discharging shell (6) are used for sliding and extruding the inserting shaft (24) to move backwards, and the first discharging shell (5) and the second discharging shell (6) can move to be in contact with the discharging shell (12) to separate resin from the arc-shaped surface; when separation is completed, the limiting block (26) can relieve the limitation on the shell cleaning knife (21), and the shell cleaning knife (21) slides along the inner wall of the fan-shaped hole 10 under gravity and contacts the inner surfaces of the first discharging shell (5) and the second discharging shell (6) to clean.

2. The continuous automatic production apparatus for mass production of aqueous resin according to claim 1, wherein: the side surface of the supporting leg (3) is fixedly connected with L-shaped rods (39), the two L-shaped rods (39) are fixedly connected with a cleaning shell (40) together, the inner wall of the cleaning shell (40) is a second inclined surface (41), the first inclined surface (22) is matched with the second inclined surface (41), the side surface of the cleaning shell (40) is fixedly connected with an arc-shaped shaft (42), the two ends of the arc-shaped shaft (42) are fixedly connected with arc-shaped springs (43), the other end of each arc-shaped spring (43) is fixedly connected with a rectangular cleaning knife (44), the inner walls of the two sides of the cleaning shell (40) are respectively provided with an arc-shaped groove (45), the inner wall of each arc-shaped groove (45) is slidably connected with a sliding block (46), the side surface of the sliding block (46) is fixedly connected with a third shaft (47), the other end of the third shaft (47) is fixedly connected with the side surface of the rectangular cleaning knife (44), the bottom of the rectangular cleaning knife (44) is slidably connected with two first compression rods (48), one end of each first rectangular compression rod (48) is inserted in the bottom of the cleaning knife (44), the other end of each first compression rod (48) is fixedly connected with the bottom of the triangular plate (50) fixedly connected with the triangular plate (40), the second spring (50) and the triangular plate (50) penetrates through the second compression spring (40), the first pressure lever (48) penetrates through the second spring (50), the side face of the triangular plate (49) is fixedly connected with a second pressure lever (51), and the second pressure lever (51) penetrates through the cleaning shell (40).

3. The continuous automatic production apparatus for mass production of aqueous resin according to claim 2, wherein: two damping springs (52) are fixedly connected to the side face of the rectangular cleaning knife (44), and a damping plate (53) is fixedly connected to the side face of each damping spring (52).

4. The continuous automatic production apparatus for mass production of aqueous resin according to claim 3, wherein: and a third inclined surface (54) is formed on the side surface of the damping plate (53).

5. The continuous automatic production apparatus for mass production of aqueous resin according to claim 3, wherein: the top of the rectangular cleaning knife (44) is hinged with a guide plate (55), and the side surface of the guide plate (55) is in contact with the top of the damping plate (53).