CN116726761A - Water-based paint production process - Google Patents

Abstract

The application discloses a production process of water-based paint, wherein a large amount of materials can be stored in a material box before the production of the water-based paint, the corresponding first gears can be driven to rotate by a first servo motor and a second servo motor during the production, the first gears are meshed with a first annular rack connected to a mixing box, the mixing box rotates, a through blocking plate can be opened during the rotation process, the materials are discharged into the mixing box, the bushing plate can move up and down along with the rotation of the mixing box, the materials can flow from top to bottom during the up and down movement of the bushing plate, and the materials can be scattered during the flow process, so that the materials are quickly mixed, the labor intensity of personnel is reduced, and the efficiency is improved.

Description

Water-based paint production process

Technical Field

The application relates to the technical field of water paint production, in particular to a water paint production process.

Background

The water paint is a common name for various paints, internal and external walls, powder and the like, has the characteristics of green, energy conservation, safety and convenient effect, and is rapidly developed in various countries as a pure environment-friendly product diluted by adding clear water along with the continuous enhancement of environmental awareness of people.

In the production process of the water-based paint, materials such as deionized water, polyethylene acetic acid emulsion, dispersing agents, defoaming agents and the like are required to be put in, the materials are collected in a box body to be mixed and stirred, but the mixing process is mainly finished by manual operation, the efficiency is low due to the manual operation, and the manual working strength is increased in the whole production process.

Disclosure of Invention

One of the purposes of the application is to provide a water-based paint production process.

In order to achieve the above purpose, the application adopts the following technical scheme: a water-based paint production process, which comprises the following steps:

step one: firstly placing required materials in a material box above a mixing box, and then starting a required servo motor which can drive the mixing box to rotate;

step two: when the mixing box rotates, the bulges on the ports of the mixing box move to the positions corresponding to the material boxes, then the top heads are jacked, and liquid materials in the material boxes are discharged into the mixing box;

step three: when materials are discharged into the mixing box, the materials firstly fall onto the bushing plates, the materials are scattered through the bushing plates, all the materials can be discharged into the mixing box after the mixing box rotates for a circle, and the bushing plates move up and down in the rotating process of the mixing box, so that the materials are evenly scattered and mixed;

the mixing box used in the production of the water-based paint comprises a first servo motor, a second servo motor and a base, wherein the first servo motor and the second servo motor are arranged on the base, first gears are arranged at the output ends of the first servo motor and the second servo motor, the first gears are arranged at the other end of the base, and the first gears are in meshed connection with a first annular rack at the bottom end of the mixing box;

the mixing box is rotationally connected with a linkage rod, two ends of the linkage rod are respectively provided with a worm and a second gear, the second gears are in meshed connection with a second annular rack of the base, the worm is in meshed connection with a worm wheel, the worm wheel is connected with a pull rod through a sector plate, and the pull rod is connected with a bushing;

the top of mixing box is equipped with the roof, rotate on the roof and be connected the perk pole, the top is being connected to one side end of perk pole, the plug board is being connected to the opposite side end of perk pole, the both sides of plug board all are provided with the guide arm, guide arm sliding connection is on the siphunculus, the siphunculus is connecting the workbin.

Preferably, grooves are formed in the bottoms of the base and the mixing box, a first annular rack and a second annular rack are respectively arranged in the grooves of the mixing box and the base, a first servo motor and a second servo motor are respectively connected to the base in the middle of the second annular rack, and first gears on the output ends of the first servo motor and the second servo motor are respectively meshed with two sides of the first annular rack.

Preferably, the linkage rod inside the mixing box is vertically arranged on the mixing box, one side end of the linkage rod is positioned inside the mixing box, the other side end of the linkage rod is positioned outside the mixing box, a second gear is connected to the end of the linkage rod outside the mixing box, and the second gear is arranged on the mixing box in a triangular shape.

Preferably, the end of the linkage rod inside the mixing box is connected with a worm, a bottom frame is arranged on the mixing box on one side of the worm, a worm wheel is connected on the bottom frame in a rotating mode, a sector plate is arranged on the other side of the bottom frame, the sector plate is coaxially connected with the worm wheel, and a corresponding pull rod is hinged to the end of one side of the sector plate.

Preferably, the whole T type that is of sector plate sets up, the long to end connection pull rod of sector plate, the opposite side end of pull rod rotates to be connected on corresponding rotation seat, rotation seat sets up on the edge of bushing respectively.

Preferably, the bushing plate is connected in the mixing box in a vertical sliding way, a raised head is arranged on the side edge of the port of the mixing box, the raised head is normally arranged in a right-angle shape, and a fixing frame is arranged on a top plate corresponding to the raised head.

Preferably, the fixing frame is rotatably connected with a tilting rod, one side of the tilting rod is connected with a top, the top is lapped on the corresponding convex head, and the other side end of the tilting rod is rotatably connected with the connecting seat.

Preferably, the connecting seat is connected to the side edge of the blocking plate, an outer plate is arranged at the position, corresponding to the through pipe, of the guide rods on two sides of the blocking plate, the corresponding guide rods are inserted on the outer plate, a baffle is arranged at one side end of the guide rod, and a reset spring is sleeved on the guide rod between the baffle and the outer plate.

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

this scheme just can directly start first servo motor and second servo motor through just storing a large amount of liquid materials in advance in the workbin through setting up the workbin on the roof, just can drive the top and move the top just when moving the top of mixing box port when moving the mixing box, just can drive the stick-up pole and rotate, just can upwards rise the stick-up pole end of top connection when carrying out aqueous coating production, stick-up pole other end is connecting the connecting seat, the connecting seat is connected the closure plate, the stick-up pole just can drive the closure plate and move down, the mouth of pipe of siphunculus just can not receive the jam when the closure plate moves down, thereby make the material can be arranged outward, the top will be kept away from to the rotation of case, thereby the top will be reset when moving the mixing box, thereby will block up the material again and will be carried out the hole through setting up the top, thereby can be realized, the drain hole can be realized through the drain, the drain hole can be realized, the drain hole can be continued through the drain down, the drain hole can be realized, the drain down through the drain hole can be realized, the drain down.

According to the scheme, the second annular rack is arranged on the base, the second gear is connected with the second annular rack in an internally meshed mode, the second gear is connected to one side end of the linkage rod, the other side end of the linkage rod is located inside the mixing box, the worm is arranged on the end of the linkage rod inside the mixing box, one side of the worm is provided with the underframe, the underframe is located between the worm wheel and the sector plate, so that the worm wheel and the sector plate can be supported through the underframe, the worm wheel can be meshed with the worm, the linkage rod can rotate along with the mixing box, autonomous rotation can be achieved through the meshing of the second gear in the rotating process, the worm can rotate through the worm to drive the worm wheel to rotate, the sector plate can synchronously rotate when the worm wheel rotates, the pull rod can be driven to move when the sector plate moves circularly, and the vertical position of the pull rod can change, so that the drain plate is driven to move up and down.

Drawings

Fig. 1 is a schematic structural diagram of the present application.

Fig. 2 is a schematic structural diagram of the second embodiment of the present application.

Fig. 3 is a schematic diagram of a partial structure of the present application.

Fig. 4 is a schematic diagram of a partial structure of the present application.

FIG. 5 is a schematic view of a bushing of the present application.

Fig. 6 is a schematic view of the internal structure of the present application.

Fig. 7 is an enlarged view of the area a according to the present application.

In the figure: 1. a base; 2. a top plate; 3. a feed box; 4. a first servo motor; 5. a second servo motor; 6. a first annular rack; 7. a nose; 8. a second annular rack; 9. a groove; 10. a first gear; 11. a through pipe; 12. an outer plate; 13. a baffle; 14. a return spring; 15. a guide rod; 16. a closure plate; 17. a connecting seat; 18. a plug; 19. a tilting rod; 20. a fixing frame; 21. a bushing; 22. a second gear; 23. a linkage rod; 24. a worm; 25. a worm wheel; 26. a chassis; 27. a sector plate; 28. a pull rod; 29. a rotating seat; 30. a mixing box.

Detailed Description

The present application will be further described with reference to the following specific embodiments, and it should be noted that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below.

In the description of the present application, it should be noted that, for the azimuth words such as terms "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, it is merely for convenience of describing the present application and simplifying the description, and it is not to be construed as limiting the specific scope of protection of the present application that the device or element referred to must have a specific azimuth configuration and operation.

It should be noted that the terms "first," "second," and the like in the description and in the claims are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

Embodiment one:

as shown in fig. 1 to 7, the water-based paint production process of the present application comprises the steps of:

step one: firstly placing required materials into a material box 3 above a mixing box 30, and then starting a required servo motor, wherein the servo motor can drive the mixing box 30 to rotate;

step two: when the mixing box 30 rotates, the bulges on the ports of the mixing box 30 move to the positions corresponding to the material boxes 3, then the jacking heads 18 are jacked, and the liquid materials in the material boxes 3 are discharged into the mixing box 30;

step three: when the materials are discharged into the mixing box 30, the materials firstly fall onto the bushing plates 21, the materials are scattered through the bushing plates 21, all the materials can be discharged into the mixing box 30 after the mixing box 30 rotates for one circle, and the bushing plates 21 move up and down in the rotating process of the mixing box 30, so that the materials are scattered and mixed uniformly;

the mixing box 30 used in the production of the water-based paint in the first step comprises a first servo motor 4, a second servo motor 5 and a base 1, wherein the first servo motor 4 and the second servo motor 5 are arranged on the base 1, first gears 10 are arranged at the output ends of the first servo motor 4 and the second servo motor 5, the first gears 10 are arranged at the other end of the base 1, and the first gears 10 are in meshed connection with a first annular rack 6 at the bottom end of the mixing box 30;

the mixing box 30 is rotatably connected with a linkage rod 23, two ends of the linkage rod 23 are respectively provided with a worm 24 and a second gear 22, the second gear 22 is in meshed connection with the second annular rack 8 of the base 1, the worm 24 is in meshed connection with a worm wheel 25, the worm wheel 25 is connected with a pull rod 28 through a sector plate 27, and the pull rod 28 is connected with the bushing 21;

the top of the mixing box 30 is provided with a top plate 2, the top plate 2 is rotatably connected with a tilting rod 19, one side end of the tilting rod 19 is connected with a top 18, the other side end of the tilting rod 19 is connected with a blocking plate 16, both sides of the blocking plate 16 are provided with guide rods 15, the guide rods 15 are slidably connected onto a through pipe 11, and the through pipe 11 is connected with a feed box 3.

Before the production of the water-based paint, a large amount of materials can be stored in the material box 3, the corresponding first gear 10 is driven to rotate by the first servo motor 4 and the second servo motor 5 during the production, the first gear 10 is meshed with the first annular rack 6 connected to the mixing box 30, the mixing box 30 rotates, the through blocking plate 16 can be opened during the rotation process, so that the materials are discharged into the mixing box 30, the bushing plate 21 moves up and down along with the rotation of the mixing box 30, the material can flow from the upper direction to the lower direction during the up and down movement of the bushing plate 21, and the materials can be scattered during the flow process, so that the materials are quickly mixed, the labor intensity of personnel is reduced, and the efficiency is improved.

As shown in fig. 2, grooves 9 are formed in the bottom ends of the base 1 and the mixing box 30, a first annular rack 6 and a second annular rack 8 are respectively arranged in the grooves 9 of the mixing box 30 and the base 1, a first servo motor 4 and a second servo motor 5 are respectively connected to the base 1 in the middle of the second annular rack 8, first gears 10 on the output ends of the first servo motor 4 and the second servo motor 5 are respectively meshed with two sides of the first annular rack 6, and the first gears 10 and the second gears 22 can be conveniently inserted through the grooves 9, so that the corresponding first annular racks 6 and the corresponding second annular racks 8 are conveniently meshed and connected.

As an alternative, in an embodiment of the present application, as shown in fig. 3, a linkage rod 23 inside a mixing box 30 is vertically arranged on the mixing box 30, one end of the linkage rod 23 is located inside the mixing box 30, the other end of the linkage rod 23 is located outside the mixing box 30, a second gear 22 is connected to the end of the linkage rod 23 outside the mixing box 30, the second gear 22 is arranged on the mixing box 30 in a triangle shape, by arranging the linkage rod 23 on the mixing box 30, the linkage rod 23 can rotate along with the rotation of the mixing box 30 through the second gear 22, the worm 24 also rotates when the linkage rod 23 rotates, and the worm 24 can drive the engaged worm wheel 25 to perform linkage when rotating.

In practice, a large amount of liquid materials can be stored in the material box 3 in advance by arranging the material box 3 on the top plate 2, the first servo motor 4 and the second servo motor 5 can be directly started when water-based paint is produced, the first gear 10 at the output ends of the first servo motor 4 and the second servo motor 5 is meshed and connected on the first annular rack 6 at the bottom of the mixing box 30, the first servo motor 4 and the second servo motor 5 can drive the mixing box 30 to integrally rotate through the first gear 10, the raised head 7 at the port of the mixing box 30 can move the top head 18 when the mixing box 30 rotates, the vertical height can be changed when the top head 18 is subjected to the top movement of the raised head 7, the raised rod 19 can be driven to rotate by the top head 18, the end head of the raised rod 19 connected with the top head 18 can be lifted upwards, the end head at the other side of the raised rod 19 can be rotated downwards, the connecting seat 17 is connected to the other end of stick up pole 19, the connecting seat 17 is connecting the closure plate 16, stick up pole 19 just can drive closure plate 16 and move down, the mouth of pipe of siphunculus 11 just can not receive the jam when closure plate 16 moves down, thereby make the material can arrange outward, the top 18 will be kept away from to rotation protruding head 7 along with mixing box 30, thereby make closure plate 16 can reset, thereby block up the material again, thereby prevent the continuous outward of material to arrange outward, just can realize the even outward of material through setting up, will drive bushing 21 and reciprocate when mixing box 30 rotates, a plurality of holes have been seted up on the bushing 21, bushing 21 will drive the material and fluctuate, along with the upward and downward movement of bushing 21, the material of bushing 21 top will fall to bushing 21 below through the hole, thereby make the material scatter, thereby be convenient for mix.

Embodiment two:

as shown in fig. 4 and fig. 5, on the basis of the first embodiment, the present application provides a technical solution: the end of a linkage rod 23 in the mixing box 30 is connected with a worm 24, a bottom frame 26 is arranged on the mixing box 30 at one side of the worm 24, a worm wheel 25 is rotatably connected to the bottom frame 26, a sector plate 27 is arranged at the other side of the bottom frame 26, the sector plate 27 is coaxially connected with the worm wheel 25, a corresponding pull rod 28 is hinged to the end of one side of the sector plate 27, limiting of the worm wheel 25 and the sector plate 27 can be realized through arrangement of the bottom frame 26, the sector plate 27 can synchronously rotate when the worm wheel 25 rotates, the sector plate 27 is connected with the pull rod 28, and the vertical height of the pull rod 28 can be changed when the sector plate 27 rotates; the whole T-shaped setting that is of sector plate 27, the pull rod 28 is being connected to the long direction tip of sector plate 27, and the opposite side end of pull rod 28 rotates to be connected on corresponding rotation seat 29, rotates seat 29 and sets up on the edge of bushing 21 respectively, and rotation seat 29 is being connected to the other end of pull rod 28, rotates seat 29 setting on bushing 21, and when pull rod 28 rotated along with sector plate 27, the position of pull rod 28 also can change to guarantee that pull rod 28 can not limited when reciprocating.

As an alternative, in this embodiment, as shown in fig. 6, the bushing 21 is slidingly connected up and down in the mixing box 30, the side edge of the port of the mixing box 30 is provided with a protruding head 7, the protruding head 7 is normally arranged in a right angle, the top plate 2 corresponding to the protruding head 7 is provided with a fixing frame 20, the top movement of the top head 18 can be realized through the arrangement of the protruding head 7, and the position of the top head 18 changes when being pushed, so as to drive the tilting rod 19 to rotate; the fixing frame 20 is rotationally connected with the warping rod 19, one side of the warping rod 19 is connected with the top head 18, the top head 18 is lapped on the corresponding raised head 7, the other end of the warping rod 19 is rotationally connected with the connecting seat 17, when the warping rod 19 is driven by the top head 18 to rotate, the warping rod 19 also drives the blocking plate 16 connected with the other end to move, the blocking plate 16 can move up and down, and the blocking plate 16 can be far away from the through pipe 11 when moving up and down; the connecting seat 17 is connected to the side edge of the blocking plate 16, the outer plate 12 is arranged at the position, corresponding to the through pipe 11, of the guide rods 15 on the two sides of the blocking plate 16, the corresponding guide rods 15 are inserted into the outer plate 12, the baffle 13 is arranged at one end of the guide rods 15, the return spring 14 is sleeved on the guide rods 15 between the baffle 13 and the outer plate 12, and the return spring 14 can drive the guide rods 15 to reset through the sleeve connection of the return spring 14 on the guide rods 15, so that the blocking plate 16 can reset.

In implementation, through setting up second annular rack 8 on base 1, second annular rack 8 inside meshing is connected second gear 22, second gear 22 is connected on the one side end of gangbar 23, the opposite side end of gangbar 23 is located the inside of mixing box 30, set up worm 24 on the gangbar 23 end of mixing box 30 inside, one side of worm 24 is provided with chassis 26, chassis 26 is located between worm wheel 25 and sector plate 27, thereby just can realize the support of worm wheel 25 and sector plate 27 through chassis 26, worm wheel 25 just can mesh with worm 24, along with the rotation of mixing box 30, the gangbar 23 will rotate along with mixing box 30, second gear 22 will realize autonomous rotation through the meshing with second annular rack 8 in the rotation process, worm 24 just can realize rotating, thereby drive worm wheel 25 through worm 24 and rotate, sector plate 27 also can synchronous rotation when worm wheel 25 rotates, just can drive pull rod 28 to move when sector plate 27 is circular motion, the vertical position of pull rod 28 will change, thereby drive bushing 21 to reciprocate.

The working principle of the application is as follows: by arranging the feed box 3 on the top plate 2, a large amount of liquid materials can be stored in the feed box 3 in advance, the first servo motor 4 and the second servo motor 5 can be directly started when water-based paint is produced, the first gear 10 at the output ends of the first servo motor 4 and the second servo motor 5 is meshed and connected with the first annular rack 6 at the bottom of the mixing box 30, the first servo motor 4 and the second servo motor 5 can drive the mixing box 30 to integrally rotate through the first gear 10, when the mixing box 30 rotates, the convex head 7 at the port of the mixing box 30 can push the top head 18, when the top head 18 is pushed by the convex head 7, the vertical height can be changed, the top head 18 can drive the tilting rod 19 to rotate, the end head of the tilting rod 19 connected with the top head 18 can be lifted upwards, the end head at the other side of the tilting rod 19 can rotate downwards, the other end of the warping rod 19 is connected with the connecting seat 17, the connecting seat 17 is connected with the blocking plate 16, the warping rod 19 can drive the blocking plate 16 to move downwards, the pipe orifice of the through pipe 11 can not be blocked when the blocking plate 16 moves downwards, so that materials can be discharged outwards, the protruding head 7 can be far away from the top head 18 along with the rotation of the mixing box 30, so that the blocking plate 16 can be reset, the materials can be blocked again, the continuous discharge of the materials can be prevented, the uniform discharge of the materials can be realized through the arrangement, the mixing box 30 can drive the bushing 21 to move upwards and downwards when rotating, a plurality of holes are formed in the bushing 21, the bushing 21 can drive the materials to fluctuate, and the materials above the bushing 21 can fall below the bushing 21 through the holes along with the upward and downward movement of the bushing 21, so that the materials can be scattered, and the mixing is convenient; through setting up second annular rack 8 on base 1, second annular rack 8 inside meshing is connected second gear 22, second gear 22 is connected on the one side end of gangbar 23, the opposite side end of gangbar 23 is located the inside of mixing box 30, be provided with worm 24 on the gangbar 23 end of mixing box 30 inside, one side of worm 24 is provided with chassis 26, chassis 26 is located between worm wheel 25 and sector plate 27, thereby support of worm wheel 25 and sector plate 27 can be realized through chassis 26, worm wheel 25 just can mesh with worm 24, along with the rotation of mixing box 30, the gangbar 23 will rotate along with mixing box 30, second gear 22 will realize autonomous rotation through the meshing with second annular rack 8 in the rotation process, worm 24 just can realize rotating, thereby drive worm wheel 25 through worm 24 and rotate, sector plate 27 also can synchronous rotation when rotating, just can drive pull rod 28 to move when sector plate 27 is circular motion, the vertical position of pull rod 28 will change, thereby drive bushing 21 to reciprocate

The foregoing has outlined the basic principles, features, and advantages of the present application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present application, and various changes and modifications may be made therein without departing from the spirit and scope of the application, which is defined by the appended claims. The scope of the application is defined by the appended claims and equivalents thereof.

Claims (8)

1. The water paint production process is characterized by comprising the following steps of:

step one: firstly placing required materials into a material box (3) above a mixing box (30), and then starting a required servo motor, wherein the servo motor can drive the mixing box (30) to rotate;

step two: when the mixing box (30) rotates, the bulges on the ports of the mixing box (30) move to the positions corresponding to the material boxes (3), then the jacking heads (18) are jacked, and the liquid materials in the material boxes (3) are discharged into the mixing box (30);

step three: when materials are discharged into the mixing box (30), the materials firstly fall onto the bushing plate (21), the materials are scattered through the bushing plate (21), all the materials can be discharged into the mixing box (30) after the mixing box (30) rotates for one circle, and the bushing plate (21) moves up and down in the rotating process of the mixing box (30), so that the materials are evenly scattered and mixed;

the mixing box (30) used in the production of the water-based paint in the first step comprises a first servo motor (4), a second servo motor (5) and a base (1), wherein the first servo motor (4) and the second servo motor (5) are arranged on the base (1), first gears (10) are arranged at the output ends of the first servo motor (4) and the second servo motor (5), the first gears (10) are arranged at the other end of the base (1), and the first gears (10) are in meshed connection with a first annular rack (6) at the bottom end of the mixing box (30);

the mixing box (30) is rotationally connected with a linkage rod (23), two side ends of the linkage rod (23) are respectively provided with a worm (24) and a second gear (22), the second gears (22) are in meshed connection with a second annular rack (8) of the base (1), the worm (24) is in meshed connection with a worm wheel (25), the worm wheel (25) is connected with a pull rod (28) through a sector plate (27), and the pull rod (28) is connected with a bushing plate (21);

the top of mixing box (30) is equipped with roof (2), pivoted connection perk pole (19) on roof (2), plug (18) are being connected to one side end of perk pole (19), closure plate (16) are being connected to the opposite side end of perk pole (19), both sides of closure plate (16) all are provided with guide arm (15), guide arm (15) sliding connection is on siphunculus (11), siphunculus (11) are being connected workbin (3).

2. A process for producing an aqueous coating material according to claim 1, wherein: the novel automatic feeding device is characterized in that grooves (9) are formed in the bottoms of the base (1) and the mixing box (30), a first annular rack (6) and a second annular rack (8) are respectively arranged in the grooves (9) of the mixing box (30) and the base (1), a first servo motor (4) and a second servo motor (5) are respectively connected to the base (1) in the middle of the second annular rack (8), and first gears (10) on the output ends of the first servo motor (4) and the second servo motor (5) are respectively meshed with two sides of the first annular rack (6).

3. A process for producing an aqueous coating material according to claim 1, wherein: the inside gangbar (23) of mixing box (30) are and vertically arrange on mixing box (30), one side end of gangbar (23) is located mixing box (30) inside, the opposite side end of gangbar (23) is located mixing box (30) outside, be connected with second gear (22) on mixing box (30) outside gangbar (23) end, second gear (22) are the triangle and are arranged on mixing box (30).

4. A process for producing an aqueous coating material as defined in claim 3, wherein: the novel combined type worm gear is characterized in that a worm (24) is connected to the end of a linkage rod (23) inside the mixing box (30), an underframe (26) is arranged on the mixing box (30) on one side of the worm (24), a worm wheel (25) is rotatably connected to the underframe (26), a sector plate (27) is arranged on the other side of the underframe (26), the sector plate (27) is coaxially connected with the worm wheel (25), and a corresponding pull rod (28) is hinged to the end of one side of the sector plate (27).

5. The process for producing an aqueous paint according to claim 4, wherein: the fan-shaped plate (27) is integrally arranged in a T-shaped mode, the long-direction end portion of the fan-shaped plate (27) is connected with a pull rod (28), the other side end of the pull rod (28) is rotationally connected to a corresponding rotating seat (29), and the rotating seats (29) are respectively arranged on the edges of the bushing plates (21).

6. A process for producing an aqueous coating material according to claim 5, wherein: the bushing plate (21) is connected in the mixing box (30) in an up-down sliding mode, a raised head (7) is arranged on the side edge of a port of the mixing box (30), the raised head (7) is normally arranged in a right-angle mode, and a fixing frame (20) is arranged on a top plate (2) corresponding to the raised head (7).

7. The process for producing an aqueous paint according to claim 6, wherein: the fixing frame (20) is rotatably connected with the tilting rod (19), one side of the tilting rod (19) is connected with the top head (18), the top head (18) is lapped on the corresponding raised head (7), and the other side end of the tilting rod (19) is rotatably connected with the connecting seat (17).

8. A process for producing an aqueous coating material according to claim 7, wherein: the connecting seat (17) is connected to the side edge of the blocking plate (16), an outer plate (12) is arranged at the position, corresponding to the through pipe (11), of the guide rods (15) on two sides of the blocking plate (16), the corresponding guide rods (15) are inserted onto the outer plate (12), a baffle plate (13) is arranged on one side end of the guide rods (15), and a return spring (14) is sleeved onto the guide rods (15) between the baffle plate (13) and the outer plate (12).