CN115532102B - Raw material mixing device for processing water-in-water outer wall paint - Google Patents

Abstract

The utility model discloses a raw material mixing device for processing water-in-water outer wall paint, which comprises an assembly shell, a central control module, an information input module, a storage module, an instruction issuing module and a data feedback module, wherein a top cover is arranged at the top of the assembly shell, a material weighing mechanism is arranged in the assembly shell, a material conveying mechanism is fixedly arranged on the outer surface wall of the assembly shell, the mechanism divides a pressure value generated by a measuring and calculating part into a plurality of stages through the way of autonomously measuring the volume of each emulsion in a filling sequence of each emulsion, judges whether each emulsion reaches a mixing standard according to the data of each stage, realizes the capability of autonomously calculating the emulsion volume, solves the problem of easy generation of higher error when the emulsion is manually weighed, effectively solves the defect of the prior patent, and prevents the problem that the color particle in a later finished product is dispersed due to overlarge amount of a certain colored emulsion caused by measuring error.

Description

Raw material mixing device for processing water-in-water outer wall paint

Technical Field

The utility model relates to the technical field of water-in-water coating preparation equipment, in particular to a raw material mixing device for processing water-in-water outer wall coating.

Background

The academic name of the water-in-water multicolor paint is liquid stone, commonly called water-in-water multicolor paint, the water-in-water multicolor paint is a dispersed water phase of an aqueous emulsion paint, is a multiphase suspension of a continuous phase formed by a protective glue solution, and the water-in-water multicolor paint mainly comprises a continuous phase and a dispersed phase, and the continuous phase and the dispersed phase are both aqueous paint, so that the water-in-water multicolor paint is called water-in-water, and the continuous phase has the characteristics of low concentration and low viscosity compared with the dispersed phase.

In the prior art, for example, chinese patent application No.: the utility model discloses a raw material mixing device for processing building exterior wall coating, which comprises a heat-insulating barrel body, the heat-insulating barrel body is fixedly provided with a mixing drum, a transmission rod is fixedly arranged on a speed-regulating motor, a connecting disc is fixedly arranged on the transmission rod, a stirring shaft is fixedly arranged on the connecting disc, a plurality of stirring rods are fixedly arranged on the stirring shaft, a plurality of stirring columns are fixedly arranged on the stirring rods, a water inlet pipe is fixedly arranged on the heat-insulating barrel body, a water pump is fixedly arranged on the water inlet pipe, a connecting pipe is fixedly arranged on the water pump, a supporting seat is fixedly arranged on the water pump, a water storage tank is fixedly arranged on the supporting seat, a heating assembly is symmetrically fixedly arranged on the water storage tank, a water outlet pipe is fixedly arranged on the water storage tank, and a water injection pipeline is fixedly arranged on the basis of a common mixing device.

However, the above patent has the following disadvantages:

the water-in-water paint comprises the following basic raw materials: the preparation process of the emulsion paint, the color paste and the color mixing emulsion comprises the steps of fully mixing the needed color paste with the emulsion paint, preparing an equal amount of granulating emulsion, sequentially mixing a plurality of parts of mixed emulsion with colors into the granulating emulsion, and further dispersing color particles by stirring and uniformly mixing equipment.

Because the color distribution type is not single in the coating preparation process, and the addition of each colored emulsion is completed step by step, but the device related to the patent can not weigh the colored emulsion independently before raw material pouring because of the singleness of the internal structure, each raw material needs to be metered manually, but the internal space of the mixing equipment is larger, the more the raw material amount can be carried by mixing and stirring each time, the quality of the bearing part is also high, so that the amount of each emulsion can not be accurately judged during manual metering, the volume value of each emulsion is deviated, and the effect of a later-stage finished product is affected.

So we propose a raw materials mixing device for water-in-water exterior wall coating processing in order to solve the above mentioned problems.

Disclosure of Invention

The utility model aims to provide a raw material mixing device for processing water-in-water exterior wall paint, which is characterized in that a mixing drum is filled with color-mixing emulsion through a material weighing mechanism connected with an assembly shell, the pressure generated at the bottom of the mixing drum is larger along with gradual increase of the emulsion in the mixing drum, the pressure value generated by the close contact of the mixing drum and a metering scale is input into a central control module in the form of an electric signal through a data feedback module, after granulation emulsion reaches a specified amount, the colored emulsion is filled step by step, the metering scale generates a new pressure value when each emulsion is filled into the mixing drum, data transmission is carried out by the data feedback module, and then the central control module judges whether the filled emulsion reaches the specified value range according to the value change of each stage, and then the opening and closing of an extraction component are rapidly controlled by an instruction issuing module.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a water in water external wall coating processing is with raw materials mixing device, includes assembly shell, well accuse module, information input module, storage module, instruction issue module and data feedback module, the top of assembly shell is provided with the top cap, the inside of assembly shell is provided with material weighing mechanism, the outward appearance wall fixed mounting of assembly shell has material conveying mechanism, the top of top cap is provided with stirring mixing mechanism;

the material weighing mechanism comprises a group of metal plates, a group of T-shaped slide ways are respectively arranged in each metal plate, a group of T-shaped slide ways are respectively movably inserted in each T-shaped slide way, a mixing cylinder is fixedly arranged between the outer surface walls of the T-shaped slide ways, an annular groove is formed in the bottom of the inner wall of the assembly shell, a metering scale is fixedly arranged in the annular groove, wiring ends of the metering scale are connected with an inner flat cable in the assembly shell, a reinforcing plate A is fixedly arranged on one side of the outer wall of the assembly shell, an L-shaped frame is welded on the outer surface wall of the reinforcing plate A, a group of inner connecting rods are fixedly inserted in the L-shaped frame, and a display assembly is fixedly sleeved between the outer surface walls of the inner connecting rods;

the material conveying mechanism comprises a reinforcing plate B, a U-shaped frame is welded on the outer surface wall of the reinforcing plate B, a transverse plate is fixedly installed between the inner wall of the U-shaped frame and the outer wall of the assembly shell, a liquid storage tank is fixedly installed in the transverse plate, a reinforcing plate C is fixedly installed on the rear surface of the assembly shell, a group of grafting plates are welded on the outer surface wall of the reinforcing plate C, two liquid storage tanks are fixedly installed in one of the grafting plates, and a liquid discharge connector A and two liquid conveying hoses A are fixedly installed at the bottom of the top cover respectively.

Preferably, the outer surface wall of the assembly shell is provided with an input jack, a group of information wires are fixedly connected in the input jack, the input ends of the information wires are connected with the wiring terminals of the display assembly, and the information wires are arranged, so that data recorded in the display assembly can be quickly led into a control system of the device.

Preferably, the top fixed mounting of U type frame has a connection lantern ring A, the interior surface wall of connection lantern ring A is fixed to be inserted and is equipped with booster pump A, booster pump A's input fixed intercommunication has fortune liquid hose B, fortune liquid hose B's feed liquor end runs through the exterior surface wall of liquid reserve tank to be linked together with the inside of liquid reserve tank, booster pump A's output fixed intercommunication has fortune liquid hose C, fortune liquid hose C's play liquid end is linked together with the feed liquor end of flowing back joint A, sets up fortune liquid hose B and fortune liquid hose C, can continuously carry into the mixing drum with the mixing of colors emulsion of reserve in the liquid reserve tank.

Preferably, a group of grafting board in the inside fixed mounting have two connect lantern ring B, two connect lantern ring B's interior table wall all fixed the inserting have booster pump B, two booster pump B's output all fixed intercommunication has fortune liquid hose D, two booster pump B's output all fixed intercommunication has fortune liquid hose E417, two fortune liquid hose E417's play liquid end is linked together with fortune liquid hose A's feed liquor end respectively, sets up fortune liquid hose D and fortune liquid hose E, can pour in proper order the coloured emulsion of reserve in two liquid tanks into the inside of mixing drum to carry out the mixture of emulsion.

Preferably, the stirring and evenly mixing mechanism comprises a mounting hole, the mounting hole is formed in the top of the top cover, a group of metal rods are fixedly inserted into the top of the top cover, a group of connecting lantern rings C are fixedly sleeved between the outer surface walls of the metal rods, a servo motor is fixedly inserted between the mounting hole and the inner surface wall of the connecting lantern rings C, the servo motor is arranged, and power support can be provided for stirring of mixed emulsion and dispersion of color particles.

Preferably, the bottom fixed mounting of servo motor has a limit sleeve, servo motor's output fixedly connected with transfer line, the exterior wall activity of transfer line is arranged in limit sleeve's inside, sets up limit sleeve, and the stability during servo motor is done to the control range of rocking that produces when effectively restricting the transfer line and rotating improves.

Preferably, the outer surface wall of the transmission rod is fixedly sleeved with a joint plate, the bottom of the joint plate is fixedly provided with a linkage rod, the outer surface wall of the linkage rod is fixedly provided with a group of triangular fan blades, the top of the inner wall of the linkage rod is fixedly provided with an electric telescopic rod, the output end of the electric telescopic rod is fixedly sleeved with a fixed sleeve head, the outer surface wall of the fixed sleeve head is welded with a group of U-shaped connectors A, a group of cross rods A are fixedly inserted between two sides of each inner wall of the U-shaped connectors A, the outer surface wall of each cross rod A is movably sleeved with a traction rod, the electric telescopic rod is arranged, when the electric telescopic rod is retracted, the angle between the cross rods A and the traction rod is reduced, and the stirring rod is in a retracted state, otherwise, when the electric telescopic rod is in tension, the angle of the traction rod is increased, the stirring rod is in an expanded state under the traction of the traction rod.

Preferably, the exterior wall fixed mounting of gangbar has a set of U type to connect B, a set of U type connects and all fixedly inserts between every inner wall both sides in B and is equipped with horizontal pole B, and the exterior wall of every horizontal pole B all movable sleeve is equipped with the puddler, a set of the outer wall one end of every in the puddler is inserted respectively and is established in the inside of puddler, utilizes the relation of connection between puddler and the puddler, and the track direction that the electric telescopic handle produced can be under the traction of puddler for the puddler sustainable shrink and expansion.

Preferably, the output end of the information input module is electrically connected with the input end of the central control module, the output end of the storage module is electrically connected with the input end of the central control module, the output end of the central control module is in signal connection with the input end of the instruction issuing module, the output end of the data feedback module is electrically connected with the input end of the central control module, so that the pressure value acquired by the metering component can be rapidly input into the central control module, the central control module judges data, and finally the opening and closing of the driving component are controlled.

Preferably, the outer surface walls of a group of the metal plates are fixedly arranged on the inner surface wall of the assembly shell, the outer surface wall of the reinforcing plate B is fixedly arranged on one side of the outer surface wall of the assembly shell, and the connection relation between the metal plates and the reinforcing plate B and the whole device is determined.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model preselects the type of paint which needs to be mixed by manual operation of a display component before the paint is prepared, a formulated command is quickly input into a central control module by an information input module, at the moment, the central control module invokes a program operation command stored in a storage module, the number of components to be opened and the starting sequence are determined, firstly, the toning emulsion is poured into the mixing cylinder, as the emulsion in the mixing cylinder is gradually increased, the pressure generated by the bottom of the mixing cylinder is increased, the pressure value generated by the mixing cylinder and a metering scale are tightly contacted, the generated pressure value can be input into the central control module in the form of an electric signal through a data feedback module, when the granulating emulsion reaches a designated quantity, the metering scale generates a new pressure value, and the data feedback module transmits data, and then the central control module judges whether the poured emulsion reaches a designated value range according to the value change of each stage, and then the opening and closing of the extraction components are rapidly controlled by the command issuing module, the process is input into the central control module, wherein the data in the mixing cylinder is in the form of the mixing cylinder, the automatic metering device is in the condition that the quality of each liquid is high, the quality of the emulsion can be automatically calculated according to the metering structure, the quality of each emulsion is high, the quality of the emulsion can be accurately calculated by the metering device is in each stage, and the quality of the liquid is in the condition of the condition that the metering device is in the condition of being calculated by the quality of each stage is high, the defects of the patent are effectively overcome, and the influence on the uniformity of color particle dispersion in a later-stage finished product caused by overlarge amount of a certain colored emulsion body due to metering errors is prevented.

2. According to the utility model, the stirring and uniformly mixing mechanism is arranged, after a plurality of emulsions subjected to weighing are placed in the mixing drum, the driving part in the starting mechanism drives the structures on the linkage rod to rotate, and as the triangular fan blades are uniformly distributed on the linkage rod and have smaller leaf surface area, vortex is formed at the bottom of the mixing drum when the triangular fan blades rotate at a high speed, so that the mixed emulsions are diffused from bottom to top to the inner wall of the mixing drum, the aim of accelerating mixing of the plurality of emulsions is achieved, meanwhile, the wide width of the stirring rod is large, the fully dispersed mixed emulsions can fully spread the structures of the colored emulsions, the colors in the mixed emulsions are in a dispersed particle shape, and the electric telescopic rod is started in the process, so that the stirring rod is continuously zoomed by utilizing flexible transmission among the structures, and the mixed emulsions at the edge of the inner wall of the mixing drum can be fully processed by the stirring rod.

Drawings

FIG. 1 is a perspective view of a front view of a device for mixing materials for processing water-in-water exterior wall coating according to the present utility model;

FIG. 2 is a perspective view of a side view of a device for mixing materials for processing water-in-water exterior wall coating according to the present utility model;

FIG. 3 is an enlarged perspective view of the material weighing mechanism in the material mixing device for processing the water-in-water exterior wall coating according to the utility model;

FIG. 4 is an enlarged perspective view of the mixing drum structure in the raw material mixing device for processing the water-in-water exterior wall coating material;

FIG. 5 is an enlarged perspective view of the material conveying mechanism in the material mixing device for processing the water-in-water exterior wall coating material;

FIG. 6 is an enlarged perspective view of the structure of a stirring and mixing mechanism in the raw material mixing device for processing the water-in-water exterior wall coating material;

FIG. 7 is an enlarged perspective view of the structure of the raw material mixing device for processing the water-in-water exterior wall coating of FIG. 1;

FIG. 8 is an enlarged perspective view of the structure of the raw material mixing device for processing the water-in-water exterior wall coating of the utility model at the position B in FIG. 6;

FIG. 9 is a diagram of a control system in a raw material mixing device for processing a water-in-water exterior wall coating according to the present utility model.

In the figure:

1. assembling a shell;

2. a top cover;

3. a material weighing mechanism; 301. a metal plate; 302. a T-shaped slideway; 303. a ring groove; 304. a metering scale; 305. a T-shaped slide rail; 306. a mixing drum; 307. a reinforcing plate A; 308. an L-shaped frame; 309. an inner connecting rod; 310. a display assembly; 311. an input jack; 312. an information line;

4. a material conveying mechanism; 401. a reinforcing plate B; 402. a U-shaped frame; 403. a cross plate; 404. a liquid storage tank; 405. a connecting collar A; 406. a booster pump A; 407. a liquid discharge joint A; 408. a reinforcing plate C; 409. grafting plate; 410. a liquid storage tank; 411. a connecting collar B; 412. a booster pump B; 413. a liquid conveying hose A; 414. a liquid conveying hose B; 415. a liquid conveying hose C; 416. a liquid conveying hose D; 417. a liquid conveying hose E;

5. stirring and uniformly mixing mechanism; 501. a mounting hole; 502. a metal rod; 503. a connecting collar C; 504. a servo motor; 505. a transmission rod; 506. a limit sleeve; 507. a splice plate; 508. a linkage rod; 509. triangular fan blades; 510. an electric telescopic rod; 511. fixing the sleeve head; 512. a U-shaped joint A; 513. a U-shaped joint B; 514. a traction rod; 515. a stirring rod;

6. a central control module;

7. an information input module;

8. a storage module;

9. an instruction issuing module;

10. and the data feedback module.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-9, the present utility model provides a technical solution: the utility model provides a water in water outer wall coating processing is with raw materials mixing device, includes assembly shell 1, well accuse module 6, information input module 7, storage module 8, instruction issue module 9 and data feedback module 10, and the top of assembly shell 1 is provided with top cap 2, and the inside of assembly shell 1 is provided with material weighing machine and constructs 3, and the outward appearance wall fixed mounting of assembly shell 1 has material conveying mechanism 4, and the top of top cap 2 is provided with stirring mixing mechanism 5.

According to fig. 1-4 and fig. 7, the material weighing mechanism 3 comprises a group of metal plates 301, a T-shaped slide rail 302 is arranged in each of the group of metal plates 301, a T-shaped slide rail 305 is movably inserted in each of the group of T-shaped slide rails 302, a mixing drum 306 is fixedly arranged between the outer surface walls of the group of T-shaped slide rails 305, a ring groove 303 is arranged at the bottom of the inner wall of the assembly housing 1, a weighing scale 304 is fixedly arranged in the ring groove 303, the wiring terminals of the weighing scale 304 are connected with an inner flat cable in the assembly housing 1, a reinforcing plate A307 is fixedly arranged on one side of the outer wall of the assembly housing 1, an L-shaped frame 308 is welded on the outer surface wall of the reinforcing plate A307, a group of inner connecting rods 309 is fixedly inserted in the inner side of the L-shaped frame 308, and a display assembly 310 is fixedly sleeved between the outer surface walls of the group of the inner connecting rods 309.

According to the figures 1-2 and 5, the material conveying mechanism 4 comprises a reinforcing plate B401, a U-shaped frame 402 is welded on the outer surface wall of the reinforcing plate B401, a transverse plate 403 is fixedly arranged between the inner wall of the U-shaped frame 402 and the outer wall of the assembly shell 1, a liquid storage tank 404 is fixedly arranged in the transverse plate 403, a reinforcing plate C408 is fixedly arranged on the rear surface of the assembly shell 1, a group of grafting plates 409 are welded on the outer surface wall of the reinforcing plate C408, two liquid storage tanks 410 are fixedly arranged in one of the group of grafting plates 409, and a liquid discharge joint A407 and two liquid conveying hoses A413 are fixedly arranged at the bottom of the top cover 2.

According to the embodiment shown in fig. 1 and 7, the outer surface wall of the assembly housing 1 is provided with an input jack 311, a group of information wires 312 are fixedly connected to the inside of the input jack 311, the input ends of the group of information wires 312 are connected to the terminals of the display assembly 310, and the data recorded in the display assembly 310 can be quickly introduced into the control system of the device by arranging the information wires 312.

According to fig. 1-2 and fig. 5-6, a connection collar a405 is fixedly installed at the top of the U-shaped frame 402, a booster pump a406 is fixedly inserted into the inner surface wall of the connection collar a405, the input end of the booster pump a406 is fixedly connected with a liquid conveying hose B414, the liquid inlet end of the liquid conveying hose B414 penetrates through the outer surface wall of the liquid storage tank 404 and is communicated with the interior of the liquid storage tank 404, the output end of the booster pump a406 is fixedly connected with a liquid conveying hose C415, the liquid outlet end of the liquid conveying hose C415 is communicated with the liquid inlet end of a liquid discharging connector a407, and the color mixing emulsion stored in the liquid storage tank 404 can be continuously conveyed into the mixing drum 306 by arranging the liquid conveying hose B414 and the liquid conveying hose C415.

According to fig. 1-2 and fig. 5-6, two connecting collars B411 are fixedly installed in one of the grafting plates 409, booster pumps B412 are fixedly inserted into the inner surfaces of the two connecting collars B411, liquid transporting hoses D416 are fixedly connected to the output ends of the two booster pumps B412, liquid transporting hoses E417 are fixedly connected to the output ends of the two booster pumps B412, liquid outlet ends of the two liquid transporting hoses E417 are respectively connected to liquid inlet ends of the liquid transporting hoses a413, and the liquid transporting hoses D416 and the liquid transporting hoses E417 are provided, so that the colored emulsion reserved in the two liquid storage tanks 410 can be sequentially poured into the mixing drum 306, and the emulsion is mixed.

According to the embodiments shown in fig. 1-2 and fig. 6, the stirring and mixing mechanism 5 includes a mounting hole 501, the mounting hole 501 is formed at the top of the top cover 2, a group of metal rods 502 are fixedly inserted at the top of the top cover 2, a connecting collar C503 is fixedly sleeved between the outer surface walls of the group of metal rods 502, a servo motor 504 is fixedly inserted between the mounting hole 501 and the inner surface wall of the connecting collar C503, and by setting the servo motor 504, power support can be provided for stirring of the mixed emulsion and dispersion of color particles.

According to the illustration in fig. 6, a limiting sleeve 506 is fixedly installed at the bottom of a servo motor 504, a transmission rod 505 is fixedly connected to the output end of the servo motor 504, the outer surface wall of the transmission rod 505 is movably arranged in the limiting sleeve 506, and the left-right shaking amplitude generated when the transmission rod 505 rotates is effectively limited by arranging the limiting sleeve 506, so that the stability of the servo motor 504 during working is improved.

According to fig. 6 and 8, a joint plate 507 is fixedly sleeved on the outer surface wall of the transmission rod 505, a linkage rod 508 is fixedly installed at the bottom of the joint plate 507, a group of triangular fan blades 509 is fixedly installed on the outer surface wall of the linkage rod 508, an electric telescopic rod 510 is fixedly installed on the top of the inner wall of the linkage rod 508, a fixed sleeve head 511 is fixedly sleeved on the output end of the electric telescopic rod 510, a group of U-shaped connectors A512 are welded on the outer surface wall of the fixed sleeve head 511, a cross rod A is fixedly inserted between two sides of each inner wall of the group of U-shaped connectors A512, a traction rod 514 is movably sleeved on the outer surface wall of each cross rod A, and by the arrangement of the electric telescopic rod 510, when the electric telescopic rod 510 is retracted, the angle between the cross rod A and the traction rod 514 is reduced, and the stirring rod 515 is in a contracted state, otherwise when the electric telescopic rod 510 is in tension, the angle of the traction rod 514 is increased, and the stirring rod 515 is in an expanded state under the action of the traction rod 514.

According to fig. 6 and 8, a set of U-shaped connectors B513 are fixedly mounted on the outer wall of the linkage rod 508, a cross rod B is fixedly inserted between two sides of each inner wall of the set of U-shaped connectors B513, stirring rods 515 are movably sleeved on the outer wall of each cross rod B, one end of the outer wall of each of a set of traction rods 514 is respectively inserted in the stirring rods 515, and the track direction generated by the electric telescopic rods 510 can be under the traction of the traction rods 514, so that the stirring rods 515 can be continuously contracted and expanded.

According to the embodiment shown in fig. 9, the output end of the information input module 7 is electrically connected with the input end of the central control module 6, the output end of the storage module 8 is electrically connected with the input end of the central control module 6, the output end of the central control module 6 is in signal connection with the input end of the command issuing module 9, the output end of the data feedback module 10 is electrically connected with the input end of the central control module 6, and the flow directions of information data in the central control module 6, the information input module 7, the storage module 8, the command issuing module 9 and the data feedback module 10 are determined, so that the pressure value acquired by the metering component can be rapidly input into the central control module 6, and the central control module 6 judges the data, and finally controls the opening and closing of the driving component.

According to fig. 1-3 and 5, the outer surface walls of a group of metal plates 301 are fixedly installed on the inner surface wall of the assembly housing 1, and the outer surface wall of a reinforcing plate B401 is fixedly installed on one side of the outer surface wall of the assembly housing 1, so as to determine the connection relationship between the metal plates 301 and the reinforcing plate B401 and the whole device.

The whole mechanism achieves the following effects: the device is moved to a designated working area, the bottom of the assembly housing 1 is fully contacted with the ground, the mixing drum 306 is placed into the assembly housing 1 and fully contacted with the metering scale 304 by utilizing the movable connectivity between the T-shaped slide rail 302 and the T-shaped slide rail 305, the initial pressure data acquired by the metering scale 304 is the net weight of the cylinder, after the data are transmitted into the central control module 6, the data are hidden so that the metering scale 304 is in a zero-returning state, the top cover 2 is attached to the top of the assembly housing 1, and the components connected below the top cover are placed in the mixing drum 306.

The manual operation display component 310 sets the content of each emulsion according to the content displayed by the interface, the set data is imported into the central control module 6 through the information input module 7, the booster pump A406 in the connecting sleeve ring A405 is started, the internal impeller of the booster pump A rotates to generate adsorption effect, the reserved color-mixing emulsion in the liquid storage tank 404 is rapidly extracted, the liquid is continuously poured into the mixing drum 306 from the liquid discharge joint A407 through the liquid conveying hose B414 and the liquid conveying hose C415, the pressure born by the metering scale 304 is larger along with the continuous increase of the liquid of the mixing drum 306, the generated pressure value is rapidly input into the central control module 6 through the data feedback module 10, and after the poured emulsion reaches the designated content, the command issuing module 9 controls the closing of the driving component to stop the pouring of the emulsion.

Further sequentially starting the booster pumps B412 in the connecting collar B411, extracting the reserved colored emulsion in the liquid storage tank 410 step by step, continuously pouring the liquid from the liquid conveying hose A413 into the mixing drum 306 through the liquid conveying hose D416 and the liquid conveying hose E417, after a colored hot liquid cover is attached to the color mixing emulsion, generating a new pressure value on the surface of the metering scale 304, rapidly inputting the new pressure value into the central control module 6 through the data feedback module 10, hiding the weight value of the color mixing emulsion, re-metering the colored emulsion, controlling one booster pump B412 to be closed through the instruction issuing module 9 after the colored emulsion reaches a set value, stopping pouring of one colored emulsion, further starting the other booster pump B412, continuously pouring the other colored emulsion into the mixing drum 306, acquiring data input in the metering scale 304 through the central control module 6 according to the method, and metering the colored emulsion.

After each emulsion is poured, a servo motor 504 connected between the lantern ring C503 and the mounting hole 501 is started and acts on the transmission rod 505 and the linkage rod 508 to drive a group of triangular fan blades 509 and the stirring rod 515 to rotate, at the moment, the group of triangular fan blades 509 can rotate at a high speed at the bottom of the mixing drum 306 and enable the emulsion to flow from top to bottom to form a central vortex so as to accelerate the mutual mixing of each emulsion, and meanwhile, an electric telescopic rod 510 in the linkage rod 508 is started to enable the electric telescopic rod 510 to extend up and down in the linkage rod 508, so that the movement track generated by the electric telescopic rod 510 forces the stirring rod 515 to expand and contract continuously under the traction of the traction rod 514 to accelerate the color particle dispersion of the mixed emulsion by utilizing the movable connectivity between the cross rod A and the traction rod 514 and between the cross rod B and the stirring rod 515.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a water in water external wall coating processing is with raw materials mixing device which characterized in that: the intelligent automatic control system comprises an assembly shell (1), a central control module (6), an information input module (7), a storage module (8), an instruction issuing module (9) and a data feedback module (10), wherein a top cover (2) is arranged at the top of the assembly shell (1), a material weighing mechanism (3) is arranged in the assembly shell (1), a material conveying mechanism (4) is fixedly arranged on the outer surface wall of the assembly shell (1), and a stirring and uniformly mixing mechanism (5) is arranged at the top of the top cover (2);

the material weighing mechanism (3) comprises a group of metal plates (301), a group of T-shaped slide ways (302) are respectively arranged in each metal plate (301), a group of T-shaped slide rails (305) are respectively and movably inserted in each T-shaped slide way (302), a mixing drum (306) is fixedly arranged between the outer surface walls of the group of T-shaped slide rails (305), a ring groove (303) is arranged at the bottom of the inner wall of the assembly shell (1), a metering scale (304) is fixedly arranged in the ring groove (303), a wiring terminal of the metering scale (304) is connected with an inner flat cable in the assembly shell (1), a reinforcing plate A (307) is fixedly arranged on one side of the outer surface wall of the assembly shell (1), an L-shaped frame (308) is welded on the outer surface wall of the reinforcing plate A (307), a group of inner connecting rods (309) are fixedly inserted in the L-shaped frame (308), and a display assembly (310) is fixedly sleeved between the outer surface walls of the group of the inner connecting rods (309);

the material conveying mechanism (4) comprises a reinforcing plate B (401), a U-shaped frame (402) is welded on the outer surface wall of the reinforcing plate B (401), a transverse plate (403) is fixedly arranged between the inner wall of the U-shaped frame (402) and the outer wall of the assembly shell (1), a liquid storage tank (404) is fixedly arranged in the transverse plate (403), a reinforcing plate C (408) is fixedly arranged on the rear surface of the assembly shell (1), a group of grafting plates (409) are welded on the outer surface wall of the reinforcing plate C (408), two liquid storage tanks (410) are fixedly arranged in one of the grafting plates (409), and a liquid discharging joint A (407) and two liquid conveying hoses A (413) are respectively fixedly arranged at the bottom of the top cover (2);

the stirring and mixing mechanism (5) comprises a mounting hole (501), the mounting hole (501) is formed in the top of the top cover (2), a group of metal rods (502) are fixedly inserted into the top of the top cover (2), a group of connecting lantern rings C (503) are fixedly sleeved between the outer surface walls of the metal rods (502), and a servo motor (504) is fixedly inserted between the mounting hole (501) and the inner surface wall of the connecting lantern rings C (503);

a limit sleeve (506) is fixedly arranged at the bottom of the servo motor (504), a transmission rod (505) is fixedly connected to the output end of the servo motor (504), and the outer surface wall of the transmission rod (505) is movably arranged in the limit sleeve (506);

the outer surface wall of the transmission rod (505) is fixedly sleeved with a joint plate (507), the bottom of the joint plate (507) is fixedly provided with a linkage rod (508), the outer surface wall of the linkage rod (508) is fixedly provided with a group of triangular fan blades (509), the top of the inner wall of the linkage rod (508) is fixedly provided with an electric telescopic rod (510), the output end of the electric telescopic rod (510) is fixedly sleeved with a fixed sleeve head (511), the outer surface wall of the fixed sleeve head (511) is welded with a group of U-shaped connectors A (512), a cross rod A is fixedly inserted between two sides of each inner wall of the U-shaped connectors A (512), and the outer surface wall of each cross rod A is movably sleeved with a traction rod (514);

the outer surface wall of the linkage rod (508) is fixedly provided with a group of U-shaped connectors B (513), a group of cross rods B are fixedly inserted between two sides of each inner wall of the U-shaped connectors B (513), stirring rods (515) are movably sleeved on the outer surface wall of each cross rod B, and one end of each outer wall of each traction rod (514) is respectively inserted in the stirring rods (515).

2. The raw material mixing device for processing water-in-water exterior wall coating according to claim 1, wherein: the assembly shell is characterized in that an input jack (311) is formed in the outer surface wall of the assembly shell (1), a group of information wires (312) are fixedly connected to the inside of the input jack (311), and the input ends of the information wires (312) are connected with the wiring terminals of the display assembly (310).

3. The raw material mixing device for processing the water-in-water exterior wall coating according to claim 2, wherein: the top fixed mounting of U type frame (402) has connection lantern ring A (405), the interior surface wall of connection lantern ring A (405) is fixed to be inserted and is had booster pump A (406), the fixed intercommunication of input of booster pump A (406) has fortune liquid hose B (414), the outward appearance wall that liquid feed end of fortune liquid hose B (414) runs through liquid reserve tank (404) to be linked together with the inside of liquid reserve tank (404), the fixed intercommunication of output of booster pump A (406) has fortune liquid hose C (415), the play liquid end of fortune liquid hose C (415) is linked together with the feed end of flowing back joint A (407).

4. The raw material mixing device for water-in-water exterior wall coating processing according to claim 3, wherein: the inside fixed mounting of one of a set of grafting board (409) has two connection lantern ring B (411), two the interior surface wall of connection lantern ring B (411) is all fixed to be inserted and is equipped with booster pump B (412), two the output of booster pump B (412) is all fixed to be linked together and is had fortune liquid hose D (416), two the output of booster pump B (412) is all fixed to be linked together and is had fortune liquid hose E (417), two the play liquid end of fortune liquid hose E (417) is linked together with the feed liquor end of fortune liquid hose A (413) respectively.

5. The raw material mixing device for processing water-in-water exterior wall coating according to claim 4, wherein: the output end of the information input module (7) is electrically connected with the input end of the central control module (6), the output end of the storage module (8) is electrically connected with the input end of the central control module (6), the output end of the central control module (6) is in signal connection with the input end of the instruction issuing module (9), and the output end of the data feedback module (10) is electrically connected with the input end of the central control module (6).

6. The raw material mixing device for processing water-in-water exterior wall coating according to claim 5, wherein: the outer surface walls of a group of metal plates (301) are fixedly arranged on the inner surface wall of the assembly shell (1), and the outer surface wall of the reinforcing plate B (401) is fixedly arranged on one side of the outer surface wall of the assembly shell (1).