阅读说明：本技术 一种水性乳胶漆涂料复合助剂 (Composite auxiliary agent for water-based emulsion paint coating ) 是由 龚宏亮 吴彬 于 2020-06-29 设计创作，主要内容包括：本发明属于复合助剂技术领域,具体的说是一种水性乳胶漆涂料复合助剂；所述防沉桶包括桶体；所述桶体上表安装有桶盖；所述桶体下表面通过转轴转动连接有均匀布置的转轮；每个所述转轮外表面均固连有卡轴；所述桶体内表面于桶体底部固连有弧形层,且弧形层为弹性设计；所述弧形层内盛装有分散剂；所述弧形层内壁中开设有均匀布置的第一通孔；所述弧形层两侧位置于弧形层内壁中均固连有第一圆杆；本发明主要用于解决当复合助剂在长时间静置时,容易产生沉淀,从而使复合助剂内的物质分布不均匀,同时在使用时复合助剂时还需要人工搅拌,从而费时费力,如果复合助剂搅拌不充分的话,会导致复合助剂发挥不出原有的效果的问题。(The invention belongs to the technical field of composite additives, and particularly relates to a composite additive for a water-based emulsion paint coating; the anti-sinking barrel comprises a barrel body; a barrel cover is arranged on the barrel body; the lower surface of the barrel body is rotatably connected with uniformly arranged rotating wheels through a rotating shaft; the outer surface of each rotating wheel is fixedly connected with a clamping shaft; the inner surface of the barrel body is fixedly connected with an arc-shaped layer at the bottom of the barrel body, and the arc-shaped layer is designed elastically; the arc layer is filled with a dispersant; first through holes which are uniformly distributed are formed in the inner wall of the arc-shaped layer; the two side positions of the arc-shaped layer are arranged in the inner wall of the arc-shaped layer and are fixedly connected with first round rods; the invention is mainly used for solving the problems that when the composite auxiliary agent is kept stand for a long time, the composite auxiliary agent is easy to precipitate, so that the substances in the composite auxiliary agent are not uniformly distributed, and meanwhile, when the composite auxiliary agent is used, manual stirring is needed, so that time and labor are wasted, and if the composite auxiliary agent is not stirred sufficiently, the composite auxiliary agent cannot exert the original effect.)

1. The composite additive for the water-based latex paint is characterized by comprising the following steps:

s1: selecting 20-30 parts of polyvinyl alcohol resin, 3-5 parts of polyvinyl alcohol, 6-8 parts of sodium silicate, 5-7 parts of anti-settling agent, 3-5 parts of preservative, 4-6 parts of defoaming agent, 4-6 parts of dispersing agent, 3-5 parts of reinforcing agent, 3-5 parts of film-forming aid and 20-25 parts of deionized water as basic raw materials for preparing the composite aid;

s2: injecting deionized water in the raw materials in the S1 into a reaction kettle, heating to 25-30 ℃, then sequentially putting polyvinyl alcohol resin, polyvinyl alcohol and sodium silicate in the raw materials into the reaction kettle, stirring and mixing, and heating the reaction kettle to 90-95 ℃ after all the raw materials are put into the reaction kettle;

s3: when the reaction kettle in the S2 is reacted for 30-40 minutes, cooling the reaction kettle to 65-70 ℃, adding a reinforcing agent, and when the reaction kettle is reacted for 10-15 minutes, adding a dispersing agent and a film-forming auxiliary agent into the reaction kettle to continue the reaction for 20-30 minutes;

s4: stopping heating the reaction kettle after the reaction of the reaction kettle in the S3 is finished, adding a preservative and a defoaming agent into the reaction kettle, and accelerating the stirring speed;

s5: after the reaction of the mixed solution in the S4 is finished, the composite auxiliary is obtained, and then the composite auxiliary is placed into an anti-settling barrel, wherein the composite auxiliary has a better assistance effect on the water-based emulsion paint, but is easy to precipitate after standing for a long time, and the anti-settling barrel can uniformly disperse the composite auxiliary before the composite auxiliary is used, so that the problem can be solved;

wherein the anti-sinking barrel comprises a barrel body (1); a barrel cover is arranged on the barrel body (1); the lower surface of the barrel body (1) is rotatably connected with uniformly arranged rotating wheels (11) through a rotating shaft; the outer surface of each rotating wheel (11) is fixedly connected with a clamping shaft (12); the inner surface of the barrel body (1) is fixedly connected with an arc-shaped layer (13) at the bottom of the barrel body (1), and the arc-shaped layer (13) is designed to be elastic; the arc-shaped layer (13) is filled with a dispersing agent; first through holes (14) which are uniformly distributed are formed in the inner wall of the arc-shaped layer (13), and the first through holes (14) are designed to penetrate through the arc-shaped layer (13); the two sides of the arc-shaped layer (13) are fixedly connected with first round rods (15) in the inner wall of the arc-shaped layer (13); a second round rod (16) is fixedly connected right below the arc-shaped layer (13); the central line position of the arc-shaped layer (13) is fixedly connected with first pull ropes (17) which are uniformly arranged; each first pull rope (17) is wound on the second round rod (16) and then wound on the first round rod (15); the other end of each first pull rope (17) extends out of the barrel body (1); the other end of each first pull rope (17) is fixedly connected with a clamping sleeve (18), and the clamping sleeves (18) are uniformly matched with the clamping shafts (12); sliding chutes (2) are formed in the inner walls of the two sides of the barrel body (1), and clamping toothed plates (21) are connected in the sliding chutes (2) in a sliding mode through springs; the two toothed clamping plates (21) are fixedly connected with the first pull rope (17) through second pull ropes (22); gears (23) are rotatably connected in the two sliding grooves (2) through rotating shafts, and the gears (23) are meshed with the clamping toothed plates (21); one sides of the two gears (23) opposite to each other are fixedly connected with a fixed disc through a section bar; the opposite sides of the two fixed disks are fixedly connected with arc-shaped plates (24) which are uniformly arranged in the inner walls of the two fixed disks, and the arc-shaped plates (24) which are uniformly arranged form arc-shaped cavities (25); a filtering membrane (26) is fixedly connected between every two arc-shaped plates (24); uniformly arranged capsule layers (27) are arranged in the cavity of the arc-shaped cavity (25), and the capsule layers (27) are made of a biological membrane material; each capsule layer (27) is filled with a dispersing agent.

2. The composite additive for the water-based latex paint of claim 1, wherein: each arc (24) internal surface all links firmly first inserted bar (28) of evenly arranging, and first inserted bar (28) are elastic material and make.

3. The composite additive for the water-based latex paint of claim 2, wherein: second inserted rods (3) which are uniformly arranged are fixedly connected between every two inserted rods in the inner wall of the arc-shaped plate (24), and the second inserted rods (3) are in inclined design; a slot (31) is formed in the inner wall of each second inserted bar (3); every jack (32) of evenly arranging are all seted up in slot (31) inner wall in second inserted bar (3) stretch out the arc chamber (25) outside, and jack (32) all communicate with the external world.

4. The composite additive for the water-based latex paint of claim 3, wherein: the outer surface of one side of each second inserted bar (3) arranged in the arc-shaped cavity (25) is fixedly connected with a rubber layer (33); and uniformly arranged capsule holes (34) are formed in the inner wall of each rubber layer (33), and the capsule holes (34) penetrate through the rubber layers (33).

5. The composite additive for the water-based latex paint of claim 1, wherein: the upper end face and the lower end face of each of the two toothed clamping plates (21) are fixedly connected with a pushing block (35), and the pushing blocks (35) are designed to be tightly attached to the inner wall of the sliding chute (2); first liquid holes (36) which are uniformly distributed are formed in the inner wall of the sliding chute (2) at the upper side and the lower side of each push block (35), and the first liquid holes (36) are communicated with the cavity in the barrel body (1); second liquid holes (37) are formed in the inner wall of the sliding chute (2) at the upper side and the lower side of each first liquid hole (36), and the second liquid holes (37) are communicated with the cavity in the barrel body (1); an elastic layer (38) is fixedly connected to the inner surface of the barrel body (1) at one side opposite to each second liquid hole (37); the elastic layers (38) are partially intersected with the second inserted bar (3); magnetic blocks (39) are arranged at the opening of each elastic layer (38), and the magnetic blocks (39) attract each other.

6. The waterborne latex paint composite additive of claim 5, wherein: annular grooves (391) which are uniformly distributed are formed in the inner wall of the sliding groove (2) on the side, opposite to each other, of each elastic layer (38), and the annular grooves (391) are communicated with the two sliding grooves (2); and the inner walls of the two annular grooves (391) are provided with second liquid holes (37) which are uniformly distributed, and one sides of the second liquid holes (37) opposite to each other are fixedly connected with elastic layers (38).

Technical Field

The invention belongs to the technical field of composite additives, and particularly relates to a composite additive for a water-based emulsion paint coating.

Background

The water-based composite auxiliary latex paint has the excellent characteristics of good air permeability, strong alkali resistance, safety, sanitation, environmental protection and the like, and has the positive effects of good leveling property, strong covering power, no precipitation, no layering, long storage time, low production cost, various colors and varieties, bright colors, light weight and the like. Latex paints are a mixture of a dispersion of solid particles of synthetic resin (latex) in water and a dispersion of pigment filler particles in water. The water-based latex paint mainly refers to latex paint taking water as a solvent. The emulsion paint does not contain organic solvent generally, so that the emulsion paint does not volatilize solvent in the production and construction processes, does not pollute the surrounding environment, and has low release amount of organic volatile matters in the use process. The total amount of VOC (volatile organic compounds) is generally within the standard allowable range, and the coating is a safe, sanitary and environment-friendly green architectural decorative coating. The water-based emulsion paint has good air permeability and strong alkali resistance, so that the coating is not easy to foam when the difference between the internal humidity and the external humidity of the coating is large, and the coating is not easy to sweat indoors, thereby being particularly suitable for being coated on cement surfaces and plaster surfaces of internal and external walls of buildings. The latex paint has the characteristics of various colors, bright colors, light weight, high building decoration speed and the like, so that the latex paint is widely used for decoration of inner and outer walls of buildings, and the introduction of the composite auxiliary agent can be referred to in the journal period: the function of film-forming aids in aqueous latex paints and methods for their selection, coating industry 1996(08), however, there are still certain problems in the current manufacturing process of compounding aids, including in particular the following:

the composite additive prepared by the formula and the method has the excellent characteristics of good air permeability, strong alkali resistance, safety, sanitation, environmental protection and the like, but when the composite additive is kept still for a long time, the composite additive is easy to precipitate, so that the substances in the composite additive are not uniformly distributed, and meanwhile, when the composite additive is used, manual stirring is needed, so that time and labor are wasted, and if the composite additive is not stirred sufficiently, the composite additive cannot exert the original effect.

Disclosure of Invention

In order to make up for the defects of the prior art, the composite auxiliary agent for the water-based emulsion paint is mainly used for solving the problems that when the composite auxiliary agent is kept still for a long time, precipitation is easy to generate, so that substances in the composite auxiliary agent are not uniformly distributed, and meanwhile, when the composite auxiliary agent is used, manual stirring is needed, so that time and labor are wasted, and if the composite auxiliary agent is not stirred sufficiently, the composite auxiliary agent cannot exert the original effect.

The technical scheme adopted by the invention for solving the technical problems is as follows: the preparation method of the composite additive for the water-based latex paint comprises the following steps:

s1: selecting 20-30 parts of polyvinyl alcohol resin, 3-5 parts of polyvinyl alcohol, 6-8 parts of sodium silicate, 5-7 parts of anti-settling agent, 3-5 parts of preservative, 4-6 parts of defoaming agent, 4-6 parts of dispersing agent, 3-5 parts of reinforcing agent, 3-5 parts of film-forming aid and 20-25 parts of deionized water as basic raw materials for preparing the composite aid;

s2: injecting deionized water in the raw materials in the S1 into a reaction kettle, heating to 25-30 ℃, then sequentially putting polyvinyl alcohol resin, polyvinyl alcohol and sodium silicate in the raw materials into the reaction kettle, stirring and mixing, and heating the reaction kettle to 90-95 ℃ after all the raw materials are put into the reaction kettle; the reaction kettle is heated, so that the dissolving and diffusion speeds of the raw materials can be increased, the mixing process of the raw materials is accelerated, meanwhile, the auxiliary effect of the composite auxiliary agent on the water-based emulsion paint can be improved after the polyvinyl alcohol and the sodium silicate added in the raw materials are mixed, and meanwhile, precipitates can be generated when the reaction kettle is kept still for a long time;

s3: when the reaction kettle in the S2 is reacted for 30-40 minutes, cooling the reaction kettle to 65-70 ℃, adding a reinforcing agent, and when the reaction kettle is reacted for 10-15 minutes, adding a dispersing agent and a film-forming auxiliary agent into the reaction kettle to continue the reaction for 20-30 minutes; by adding the raw materials into the reaction kettle in a grading manner, various raw materials can be mixed more fully;

s4: stopping heating the reaction kettle after the reaction of the reaction kettle in the S3 is finished, adding a preservative and a defoaming agent into the reaction kettle, and accelerating the stirring speed;

s5: after the reaction of the mixed solution in the S4 is finished, the composite auxiliary is obtained, and then the composite auxiliary is placed into an anti-settling barrel, wherein the composite auxiliary has a better assistance effect on the water-based emulsion paint, but is easy to precipitate after standing for a long time, and the anti-settling barrel can uniformly disperse the composite auxiliary before the composite auxiliary is used, so that the problem can be solved;

wherein the anti-sinking barrel comprises a barrel body; a barrel cover is arranged on the barrel body; the lower surface of the barrel body is rotatably connected with uniformly arranged rotating wheels through a rotating shaft; the outer surface of each rotating wheel is fixedly connected with a clamping shaft; the inner surface of the barrel body is fixedly connected with an arc-shaped layer at the bottom of the barrel body, and the arc-shaped layer is designed elastically; the arc layer is filled with a dispersant; first through holes are uniformly arranged in the inner wall of the arc layer and penetrate through the arc layer; the two side positions of the arc-shaped layer are arranged in the inner wall of the arc-shaped layer and are fixedly connected with first round rods; a second round rod is fixedly connected right below the arc-shaped layer; the central line position of the arc-shaped layer is fixedly connected with first pull ropes which are uniformly arranged; each first pull rope is wound on the second round rod and then wound on the first round rod; the other end of each first pull rope extends out of the barrel body; the other end of each first pull rope is fixedly connected with a clamping sleeve, and the clamping sleeves are uniformly matched with the clamping shafts; sliding grooves are formed in the inner walls of the two sides of the barrel body, and clamping toothed plates are connected in the sliding grooves in a sliding mode through springs; the two toothed clamping plates are fixedly connected with the first pull rope through second pull ropes; gears are rotatably connected in the two sliding grooves through rotating shafts, and the gears are meshed with the gear clamping plates; the opposite sides of the two gears are fixedly connected with a fixed disc through a section bar; the opposite sides of the two fixed disks are fixedly connected with arc-shaped plates which are uniformly arranged in the inner walls of the two fixed disks, and the arc-shaped plates which are uniformly arranged form arc-shaped cavities; each arc-shaped plate is fixedly connected with a filtering membrane between every two arc-shaped plates; uniformly arranged capsule layers are arranged in the arc-shaped cavity and are made of biological membrane materials; each capsule layer is filled with a dispersant;

when the anti-settling tank is used, when the composite auxiliary in the barrel needs to be dispersed, the clamping sleeve is clamped on the clamping shaft firstly, after the clamping shaft is matched with the clamping sleeve, the rotating wheel can drive the clamping sleeve to do circular motion in the process of moving the barrel body, the other end of the first pull rope fixedly connected to the clamping sleeve is connected with the arc-shaped layer, so that the arc-shaped layer can be driven by the second round rod to do up-and-down motion, the dispersing agent in the arc-shaped layer can be sprayed into the composite auxiliary agent in the barrel body from the first through holes uniformly arranged in the process of moving the arc-shaped layer downwards, the dispersing speed of the composite auxiliary agent can be further accelerated in the process, the composite auxiliary agent can be pressed into the arc-shaped layer when the arc-shaped layer is restored to the initial state, the mixing degree of the composite auxiliary agent and the dispersing agent can be improved, the mixed composite auxiliary agent can be extruded into the barrel body in the process of pulling the arc-shaped layer downwards again by the first pull rope, the mixing degree of the composite auxiliary agent and the dispersing agent can be, because the first round rod is fixedly connected with the arc-shaped layer, the arc-shaped layer can be pulled to move downwards by the first round rod in the downward pulling process of the first pull rope, the moving amplitude of the arc-shaped layer can be improved in the moving process, so that the spraying force of the first through hole can be improved, and further the diffusion degree of the composite additive can be improved, because the latch plate in the chute is fixedly connected with the first pull rope by the second pull rope, the second pull rope can be driven to move upwards and downwards in the upward and downward pulling process of the first pull rope, the latch plate can be driven to move upwards and downwards in the moving process, because the latch plate is mutually meshed with the gear, the gear can be driven to rotate back and forth, because the other end of the gear is fixedly connected with the arc-shaped plate which is uniformly arranged by the fixed disk, the arc-shaped plate can be driven to rotate back and forth, the composite additive in the barrel can be diffused, because the arc links firmly filtration membrane between two liang to can drive compound auxiliary agent and disperse, can further improve compound auxiliary agent's dispersion effect at this in-process, because the capsule layer is equipped with in the arc intracavity, and be equipped with the dispersant in the capsule layer, can hit the capsule layer brokenly at the arc reciprocating motion's in-process, the intraformational dispersant of capsule can flow the external world through even filtration membrane, filtration membrane can disperse dispersant at this in-process, thereby can improve the diffusion degree of dispersant, and then improve the dispersion effect to compound auxiliary agent.

Preferably, the inner surface of each arc-shaped plate is fixedly connected with first inserted rods which are uniformly arranged and are made of elastic materials;

the during operation, because the arc internal surface links firmly the first inserted bar of evenly arranging, at the rolling in-process of bag layer, first inserted bar can be punctured the bag layer, thereby can improve the dispersion effect of dispersant at the arc intracavity, then it is external at the filtration membrane outflow through evenly arranging, the dispersion scope of dispersant can be enlarged at this in-process, thereby give better messenger's dispersant and compound auxiliary agent mixture, because first inserted bar is elastic design, can spur the bag layer at the rolling in-process of bag layer, can accelerate the outflow speed of bag in-layer dispersant at this in-process, thereby can improve the efficiency of sinking that removes of compound auxiliary agent.

Preferably, every two of the inserted rods are fixedly connected with second inserted rods which are uniformly arranged in the inner wall of the arc-shaped plate, and the second inserted rods are all in an inclined design; a slot is formed in the inner wall of each second inserted bar; jacks which are uniformly distributed are formed in the inner wall of the slot of each second inserted bar, extending out of the arc-shaped cavity, and the jacks are communicated with the outside;

the during operation, because the second inserted bar of evenly arranging has been linked firmly in the arc pole inner wall, drive second inserted bar pivoted in-process at the arc, the second inserted bar can mix compound auxiliary agent, can improve the mixed degree of dispersant and compound auxiliary agent at this in-process, thereby can accelerate the effect of sinking of removing to compound auxiliary agent, because the slot has been seted up in the second inserted bar, the dispersant in the arc intracavity can flow into in the slot, the dispersant that flows into in the slot can be thrown away dispersant from the jack at second inserted bar pivoted in-process, can improve the mixed degree of dispersant and compound auxiliary agent at this in-process, thereby can accelerate the decomposition effect of dispersant to the precipitate.

Preferably, the outer surface of one side of each second inserted link, which is arranged in the arc-shaped cavity, is fixedly connected with a rubber layer; uniformly distributed capsule holes are formed in the inner wall of each rubber layer, and the capsule holes penetrate through the rubber layers;

during operation, because the one end that the arc intracavity was arranged in to the second inserted bar has linked firmly the rubber layer, the dispersant of arc intracavity can flow into the rubber in situ through the bag hole, when the rubber layer received the extrusion of bag layer or first inserted bar, can pass through jack blowout external with the intraformational dispersant of rubber, can improve the dynamics of spraying of jack at this in-process to the precipitate in the compound auxiliary agent of elimination that can be better.

Preferably, the end surfaces of the upper side and the lower side of the two toothed clamping plates are fixedly connected with push blocks, and the push blocks are designed to be tightly attached to the inner wall of the sliding chute; the upper side and the lower side of each push block are arranged in the inner wall of the sliding chute and are provided with first liquid holes which are uniformly distributed, and the first liquid holes are communicated with the cavity in the barrel body; the upper side and the lower side of each first liquid hole are respectively provided with a second liquid hole in the inner wall of the sliding chute, and the second liquid holes are communicated with the cavity in the barrel body; an elastic layer is fixedly connected to the inner surface of the barrel body at one side opposite to each second liquid hole; and the elastic layers are intersected with the second inserted bar parts; magnetic blocks are arranged at the opening of each elastic layer and attract each other;

the during operation, because first liquid hole and spout intercommunication, compound auxiliary agent after the internal mixing of bucket can flow in the spout through first liquid hole, at the in-process that the latch board reciprocated, can push the elastic layer through the second liquid hole through the ejector pad with the compound auxiliary agent that flows in the spout in, because the elastic layer is elastic design, thereby can store more compound auxiliary agent, because the opening of elastic layer passes through the magnetic path and seals, can break away the magnetic path and outwards spray when compound auxiliary agent in the elastic layer is too much, can improve the dynamics of spraying of compound auxiliary agent at this in-process, thereby can promote compound auxiliary agent in the bucket and roll, can improve the compatibility of dispersant and compound auxiliary agent at this in-process, thereby further improve the dispersion to the precipitate.

Preferably, the side, opposite to the other side, of each elastic layer is provided with uniformly distributed annular grooves in the inner wall of the sliding groove, and the annular grooves are communicated with the two sliding grooves; second liquid holes are uniformly distributed in the inner walls of the two annular grooves, and the opposite sides of the second liquid holes are fixedly connected with elastic layers;

the during operation owing to seted up the ring channel in the spout, the compound auxiliary agent that flows into in the spout can flow into the ring channel, and the compound auxiliary agent that flows into in the ring channel is in the elastic layer of evenly arranging through the inflow of second liquid hole, then sprays away through the elastic layer, can carry out the omnidirectional to the compound auxiliary agent in this in-process to the barrel and spray to can further improve removing of compound auxiliary agent and sink the effect.

The invention has the following beneficial effects:

1. according to the invention, the first inserting rod is arranged, so that the capsule layer can be punctured by the first inserting rod in the rolling process of the capsule layer, the dispersing effect of the dispersing agent in the arc-shaped cavity can be improved, then the dispersing agent flows out of the outside through the uniformly arranged filtering membrane, the dispersing range of the dispersing agent can be expanded in the process, and the dispersing agent and the composite auxiliary agent can be better mixed.

2. According to the invention, by arranging the second inserted bar, the second inserted bar can stir the composite auxiliary agent in the process that the arc-shaped plate drives the second inserted bar to rotate, the mixing degree of the dispersing agent and the composite auxiliary agent can be improved in the process, so that the sink removing effect on the composite auxiliary agent can be accelerated.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a flow chart of a method of the present invention;

FIG. 2 is a main body view of the anti-settling tank of the present invention;

FIG. 3 is a cross-sectional view of the anti-settling tank of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

in the figure: the filter barrel comprises a barrel body 1, a rotating wheel 11, a clamping shaft 12, an arc-shaped layer 13, a first through hole 14, a first round rod 15, a second round rod 16, a first pull rope 17, a clamping sleeve 18, a sliding groove 2, a clamping toothed plate 21, a second pull rope 22, a gear 23, an arc-shaped plate 24, an arc-shaped cavity 25, a filter membrane 26, a bag layer 27, a first inserted rod 28, a second inserted rod 3, an inserting groove 31, an inserting hole 32, a rubber layer 33, a bag hole 34, a push block 35, a first liquid hole 36, a second liquid hole 37, an elastic layer 38, a magnetic block 39 and an annular groove 391.

Detailed Description

An aqueous emulsion paint coating composition assistant according to an embodiment of the present invention will be described below with reference to fig. 1 to 6.

As shown in FIGS. 1 to 6, the method for preparing the composite assistant for the water-based latex paint comprises the following steps:

s1: selecting 20-30 parts of polyvinyl alcohol resin, 3-5 parts of polyvinyl alcohol, 6-8 parts of sodium silicate, 5-7 parts of anti-settling agent, 3-5 parts of preservative, 4-6 parts of defoaming agent, 4-6 parts of dispersing agent, 3-5 parts of reinforcing agent, 3-5 parts of film-forming aid and 20-25 parts of deionized water as basic raw materials for preparing the composite aid;

s2: injecting deionized water in the raw materials in the S1 into a reaction kettle, heating to 25-30 ℃, then sequentially putting polyvinyl alcohol resin, polyvinyl alcohol and sodium silicate in the raw materials into the reaction kettle, stirring and mixing, and heating the reaction kettle to 90-95 ℃ after all the raw materials are put into the reaction kettle; the reaction kettle is heated, so that the dissolving and diffusion speeds of the raw materials can be increased, the mixing process of the raw materials is accelerated, meanwhile, the auxiliary effect of the composite auxiliary agent on the water-based emulsion paint can be improved after the polyvinyl alcohol and the sodium silicate added in the raw materials are mixed, and meanwhile, precipitates can be generated when the reaction kettle is kept still for a long time;

s3: when the reaction kettle in the S2 is reacted for 30-40 minutes, cooling the reaction kettle to 65-70 ℃, adding a reinforcing agent, and when the reaction kettle is reacted for 10-15 minutes, adding a dispersing agent and a film-forming auxiliary agent into the reaction kettle to continue the reaction for 20-30 minutes; by adding the raw materials into the reaction kettle in a grading manner, various raw materials can be mixed more fully;

s4: stopping heating the reaction kettle after the reaction of the reaction kettle in the S3 is finished, adding a preservative and a defoaming agent into the reaction kettle, and accelerating the stirring speed;

s5: after the reaction of the mixed solution in the S4 is finished, the composite auxiliary is obtained, and then the composite auxiliary is placed into an anti-settling barrel, wherein the composite auxiliary has a better assistance effect on the water-based emulsion paint, but is easy to precipitate after standing for a long time, and the anti-settling barrel can uniformly disperse the composite auxiliary before the composite auxiliary is used, so that the problem can be solved;

wherein, the anti-sinking barrel comprises a barrel body 1; a barrel cover is arranged on the barrel body 1; the lower surface of the barrel body 1 is rotatably connected with uniformly arranged rotating wheels 11 through a rotating shaft; the outer surface of each rotating wheel 11 is fixedly connected with a clamping shaft 12; the inner surface of the barrel body 1 is fixedly connected with an arc-shaped layer 13 at the bottom of the barrel body 1, and the arc-shaped layer 13 is designed elastically; the dispersing agent is contained in the arc-shaped layer 13; first through holes 14 which are uniformly distributed are formed in the inner wall of the arc-shaped layer 13, and the first through holes 14 are designed to penetrate through the arc-shaped layer 13; the two sides of the arc-shaped layer 13 are fixedly connected with first round rods 15 in the inner wall of the arc-shaped layer 13; a second round rod 16 is fixedly connected right below the arc-shaped layer 13; the central line position of the arc-shaped layer 13 is fixedly connected with first pull ropes 17 which are uniformly arranged; each first pull rope 17 is wound on the second round rod 16 and then wound on the first round rod 15; the other end of each first pull rope 17 extends out of the barrel body 1; the other end of each first pull rope 17 is fixedly connected with a clamping sleeve 18, and the clamping sleeves 18 are uniformly matched with the clamping shafts 12; sliding chutes 2 are formed in the inner walls of the two sides of the barrel body 1, and clamping toothed plates 21 are connected in the sliding chutes 2 in a sliding manner through springs; the two toothed clamping plates 21 are fixedly connected with the first pull rope 17 through second pull ropes 22; gears 23 are rotatably connected in the two sliding grooves 2 through rotating shafts, and the gears 23 are meshed with the gear clamping plates 21; the opposite sides of the two gears 23 are fixedly connected with fixed disks through joint rods; the opposite sides of the two fixed disks are fixedly connected with arc-shaped plates 24 which are uniformly arranged in the inner walls of the two fixed disks, and the arc-shaped plates 24 which are uniformly arranged form an arc-shaped cavity 25; a filtering membrane 26 is fixedly connected between every two arc-shaped plates 24; the uniformly arranged capsule layers 27 are arranged in the cavity of the arc-shaped cavity 25, and the capsule layers 27 are made of biological membrane materials; each capsule layer 27 is filled with a dispersant;

when the anti-settling tank is used, when the composite auxiliary in the dispersing barrel body 1 needs to be clamped, the clamping sleeve 18 is firstly clamped on the clamping shaft 12, after the clamping shaft 12 is matched with the clamping sleeve 18, in the process of moving the barrel body 1, the rotating wheel 11 can drive the clamping sleeve 18 to do circular motion, the other end of the first pull rope 17 fixedly connected to the clamping sleeve 18 is connected with the arc-shaped layer 13, so that the arc-shaped layer 13 can be driven to do up-and-down motion through the second round rod 16, the dispersing agent in the arc-shaped layer 13 can be sprayed into the composite auxiliary agent in the barrel body 1 from the first through holes 14 which are uniformly arranged in the process of downward movement of the arc-shaped layer 13, the dispersing speed of the composite auxiliary agent can be further accelerated in the process, the composite auxiliary agent can be pressed into the arc-shaped layer 13 when the arc-shaped layer 13 is restored to the initial state, the mixing degree of the composite auxiliary agent and the dispersing agent can be improved, the mixed composite auxiliary agent can be extruded into the barrel body 1 in the process when the first pull rope 17 pulls the arc-shaped layer 13 downward again, the mixing degree, therefore, precipitates in the composite auxiliary agent can be rapidly dispersed, the first round rod 15 is fixedly connected with the arc-shaped layer 13, the arc-shaped layer 13 can be pulled to move downwards through the first round rod 15 in the downward pulling process of the first pull rope 17, the moving range of the arc-shaped layer 13 up and down can be improved in the process, the spraying force of the first through hole 14 can be improved, and the diffusion degree of the composite auxiliary agent can be improved, the toothed plate 21 in the chute 2 is fixedly connected with the first pull rope 17 through the second pull rope 22, the second pull rope 22 can be driven to move up and down in the upward and downward pulling process of the first pull rope 17, the toothed plate 21 can be driven to move up and down in the process, the toothed plate 21 and the gear 23 are meshed with each other, so that the gear 23 can be driven to rotate back and forth, the arc-shaped plate 24 which is uniformly arranged is fixedly connected at the other end of the gear 23 through a fixed disk, so, can diffuse the compound auxiliary agent in this in-process staving 1, thereby can improve the mixed degree of compound auxiliary agent and dispersant, because arc 24 has linked firmly filtration membrane 26 between two liang, thereby can drive compound auxiliary agent and disperse, can further improve the dispersion effect of compound auxiliary agent at this in-process, because capsule 27 is equipped with in the arc chamber 25, and the dispersant is equipped with in the capsule 27, can hit capsule 27 at arc 24 round trip rotation's in-process, the dispersant in the capsule 27 can flow out the external world through even filtration membrane 26, filtration membrane 26 can disperse dispersing agent at this in-process, thereby can improve the diffusion degree of dispersant, and then improve the dispersion effect to compound auxiliary agent.

As an embodiment of the present invention, the inner surface of each arc-shaped plate 24 is fixedly connected with first plug-in rods 28 which are uniformly arranged, and the first plug-in rods 28 are made of elastic material;

during operation, because the internal surface of arc 24 links firmly the first inserted bar 28 of evenly arranging, at the rolling in-process of bag layer 27, first inserted bar 28 can prick bag layer 27, thereby can improve the dispersion effect of dispersant in arc chamber 25, then it is external at the filtration membrane 26 through evenly arranging, the dispersion scope of dispersant can be enlarged at this in-process, thereby give better messenger's dispersant and compound auxiliary agent mixture, because first inserted bar 28 is the elastic design, can spur bag layer 27 at the rolling in-process of bag layer 27, the outflow speed of dispersant in bag layer 27 can be accelerated at this in-process, thereby can improve the efficiency of subsiding of removing to compound auxiliary agent.

As an embodiment of the invention, the second inserted rods 3 which are uniformly arranged are fixedly connected between every two inserted rods in the inner wall of the arc-shaped plate 24, and the second inserted rods 3 are all in an inclined design; a slot 31 is formed in the inner wall of each second inserted link 3; the inner wall of the slot 31 of each second inserted bar 3 extending out of the arc-shaped cavity 25 is provided with evenly distributed jacks 32, and the jacks 32 are communicated with the outside;

the during operation, because the second inserted bar 3 of evenly arranging has been linked firmly in the arc pole inner wall, drive the 3 pivoted in-process of second inserted bar at arc 24, second inserted bar 3 can stir compound auxiliary agent, can improve the mixing degree of dispersant and compound auxiliary agent at this in-process, thereby can accelerate the effect of subsiding of removing to compound auxiliary agent, because slot 31 has been seted up in the second inserted bar 3, dispersant in the arc chamber 25 can flow into in the slot 31, dispersant in the flow-in slot 31 can throw away dispersant from jack 32 at second inserted bar 3 pivoted in-process, can improve the mixing degree of dispersant and compound auxiliary agent at this in-process, thereby can accelerate the decomposition effect of dispersant to the precipitate.

As an embodiment of the present invention, a rubber layer 33 is fixedly connected to an outer surface of one side of each second plunger 3, which is disposed in the arc-shaped cavity 25; the inner wall of each rubber layer 33 is provided with uniformly distributed bag holes 34, and the bag holes 34 penetrate through the rubber layer 33;

during operation, because the one end that the arc chamber 25 was arranged in to second inserted bar 3 is linked firmly rubber layer 33, the dispersant in the arc chamber 25 can flow into rubber layer 33 through bag hole 34 in, when rubber layer 33 received bag layer 27 or first inserted bar 28's extrusion, can pass through jack 32 blowout external with the dispersant in the rubber layer 33, can improve the dynamics of spraying of jack 32 at this in-process to the precipitate in the compound auxiliary agent of elimination that can be better.

As an implementation manner of the invention, the end surfaces of the upper side and the lower side of the two toothed clamping plates 21 are fixedly connected with the push blocks 35, and the push blocks 35 are designed to be tightly attached to the inner wall of the sliding chute 2; first liquid holes 36 which are uniformly distributed are formed in the inner wall of the sliding chute 2 at the upper side and the lower side of each push block 35, and the first liquid holes 36 are communicated with the cavity in the barrel body 1; a second liquid hole 37 is formed in the inner wall of the sliding chute 2 at the upper side and the lower side of each first liquid hole 36, and the second liquid holes 37 are communicated with the cavity in the barrel body 1; an elastic layer 38 is fixedly connected to the inner surface of the barrel body 1 at one side opposite to each second liquid hole 37; and the elastic layers 38 are partially intersected with the second inserted bar 3; magnetic blocks 39 are arranged at the opening of each elastic layer 38, and the magnetic blocks 39 attract each other;

during operation, because first liquid hole 36 and spout 2 intercommunication, compound auxiliary agent after mixing can flow into in the spout 2 through first liquid hole 36 in the staving 1, at the in-process that the fishback 21 reciprocated, can push away the compound auxiliary agent that flows into in the spout 2 through second liquid hole 37 in the elastic layer 38 through ejector pad 35, because elastic layer 38 is elastic design, thereby can store more compound auxiliary agent, because the opening of elastic layer 38 passes through magnetic path 39 and seals, can break away magnetic path 39 and outwards spray when compound auxiliary agent in the elastic layer 38 is too much, can improve the spraying dynamics of compound auxiliary agent at this in-process, thereby can promote the compound auxiliary agent in the staving 1 and roll, can improve the compatibility of dispersant and compound auxiliary agent at this in-process, thereby further improve the dispersion to the precipitate.

As an embodiment of the present invention, an annular groove 391 is uniformly arranged in the inner wall of the sliding chute 2 on the opposite side of each elastic layer 38, and the annular groove 391 communicates with two sliding chutes 2; the inner walls of the two annular grooves 391 are respectively provided with second liquid holes 37 which are uniformly distributed, and the opposite sides of the second liquid holes 37 are respectively fixedly connected with an elastic layer 38;

during operation, owing to seted up the ring channel 391 in the spout 2, the compound auxiliary agent that flows into in the spout 2 can flow in the ring channel 391, and the compound auxiliary agent that flows into in the ring channel 391 flows in the elastic layer 38 of evenly arranging through second liquid hole 37, then sprays away through elastic layer 38, can carry out the omnidirectional to the compound auxiliary agent in the staving 1 at this in-process and spray to can further improve removing of compound auxiliary agent and sink the effect.

The specific working process is as follows:

when the anti-settling tank manufactured by the invention is used, when the composite auxiliary in the tank body 1 needs to be dispersed, the clamping sleeve 18 is firstly clamped on the clamping shaft 12, after the clamping shaft 12 is matched with the clamping sleeve 18, the rotating wheel 11 can drive the clamping sleeve 18 to do circular motion in the process of moving the tank body 1, as the other end of the first pull rope 17 fixedly connected on the clamping sleeve 18 is connected with the arc-shaped layer 13, the arc-shaped layer 13 can be driven by the second round rod 16 to do up-and-down motion, the dispersing agent in the arc-shaped layer 13 can be sprayed into the composite auxiliary in the tank body 1 from the first through holes 14 which are uniformly arranged in the process of downward movement of the arc-shaped layer 13, the composite auxiliary can be pressed into the arc-shaped layer 13 when the arc-shaped layer 13 is restored to the initial state, so that the mixing degree of the composite auxiliary and the dispersing agent can be improved, and the mixed composite auxiliary can be extruded into the tank body 1 in the process of pulling the arc-, because the first round rod 15 is fixedly connected with the arc-shaped layer 13, the arc-shaped layer 13 can be pulled to move downwards by the first round rod 15 in the downward pulling process of the first pull rope 17, the up-and-down moving amplitude of the arc-shaped layer 13 can be improved in the process, so that the spraying force of the first through hole 14 can be improved, and further the diffusion degree of the composite auxiliary agent can be improved, because the toothed plate 21 in the sliding chute 2 is fixedly connected with the first pull rope 17 by the second pull rope 22, the second pull rope 22 can be driven to move up and down in the up-and-down pulling process of the first pull rope 17, the toothed plate 21 can be driven to move up and down in the process, because the toothed plate 21 is mutually meshed with the gear 23, the gear 23 can be driven to rotate back and forth, because the other end of the gear 23 is fixedly connected with the arc-shaped plate 24 which is uniformly arranged by the fixed disk, the arc-shaped plate 24 can be driven to, because arc 24 links firmly filtration membrane 26 between two liang to can drive compound auxiliary agent and disperse, because be equipped with bag 27 in the arc chamber 25, and be equipped with the dispersant in the bag 27, can hit bag 27 broken at the round trip pivoted in-process of arc 24, the dispersant in bag 27 can flow out the external world through even filtration membrane 26, and filtration membrane 26 can disperse the dispersant in this in-process.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.