CN116617918B

CN116617918B - Blending device and method for door paint production

Info

Publication number: CN116617918B
Application number: CN202310579000.0A
Authority: CN
Inventors: 陈其赟; 赵镔
Original assignee: Zhejiang Keyoujia New Material Technology Co ltd
Current assignee: Zhejiang Keyoujia New Material Technology Co ltd
Priority date: 2023-05-22
Filing date: 2023-05-22
Publication date: 2024-01-09
Anticipated expiration: 2043-05-22
Also published as: CN116617918A

Abstract

The utility model discloses a blending device and a method for door paint production, and relates to the technical field of door paint blending. According to the utility model, paint volatile gas in the paint blending process can be discharged, so that explosion caused by the paint volatile gas is prevented; the centrifugal motor is arranged at a position far away from the blending stirring barrel, so that explosion caused by electric arc generated by the electric driving element during working is prevented; the flow rate of the paint discharged by the electric control valve in unit time is the same, so that the accuracy of paint mixing and blending is ensured.

Description

Blending device and method for door paint production

Technical Field

The utility model relates to the technical field of door paint blending, in particular to a blending device and a method for door paint production.

Background

The door has a vital role in the family life, can be indispensable at home, is particularly widely applied to indoor room doors, and is a main method for imparting color to the wood doors due to the fact that the wood doors with various colors appear along with the improvement of the living standard of people.

However, in order to solve the problem, the utility model patent with publication number CN207430096U discloses an automatic proportioning and stirring device for paint, but the technology of the patent cannot solve the problem of discharging harmful gas in the process of preparing paint, and if the scheme of the prior art is used, explosion may occur due to too high density of volatile gas in the process of preparing paint.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the following technical scheme: the utility model provides a door paint production is with allotment device, includes allotment agitator, allotment agitator internal rotation is installed stirring scraper blade, stirring scraper blade comprises six plectrum, all fixed mounting has marginal stirring vane on every plectrum for drive paint and flow upwards from allotment agitator inner wall edge, allotment agitator's top fixed mounting has the top apron, and fixed mounting has planetary gear box on the top apron, planetary gear box's output shaft and stirring scraper blade fixed connection, and the last middle part stirring impeller that is used for driving paint to flow downwards of output shaft of planetary gear box still fixed mounting; the centrifugal impeller is rotatably arranged in the centrifugal chamber, the middle part of the centrifugal chamber is communicated with the discharge port through a return pipeline, and the side edge of the centrifugal chamber is communicated with the pressurizing inflow pipe through a driving pressurizing pipe; still include mixing element, mixing element includes five paint drums, equal slidable mounting has the floating plate in every paint drum, and fixed mounting has the rack support on the floating plate, still slidable mounting has the rack on the surface of paint drum, rack and rack support fixed connection, still fixed mounting has the regulation carriage on the paint drum, and the both sides of adjusting the carriage are provided with the slide rail, and slidable mounting has the regulation shielding frame on the slide rail, and automatically controlled valve has been disposed to the bottom of paint drum, and automatically controlled valve's outlet fixed mounting has the accent flow chamber, and slidable mounting has the current limiting plate in the accent flow chamber, and the one end fixed mounting that automatically controlled valve was kept away from to the inner wall in accent flow chamber has the go-between, and slidable mounting has four to support the pin on the go-between, four to support on the equal fixed mounting of pin supports the baffle ring, four support the pin and current limiting plate contact cooperation.

Preferably, the bottom of the blending stirring barrel is provided with a discharge port, a valve plate is slidably mounted in the discharge port, a sliding rod is fixedly mounted on the bottom surface of the blending stirring barrel, an electromagnet in magnetic attraction fit with the valve plate is fixedly mounted on the sliding rod, and a discharge spring is fixedly mounted between the electromagnet and the valve plate.

Preferably, the top cover plate is provided with a first opening and a second opening, an exhaust pipeline is fixedly arranged on the first opening or the second opening, and a fan is arranged at the top end of the exhaust pipeline.

Preferably, the centrifugal impeller is driven by a centrifugal motor fixedly mounted on the surface of the centrifugal chamber.

Preferably, a gear box is fixedly arranged on the adjusting sliding frame, an adjusting driven gear meshed with the rack is fixedly arranged at the input end of the gear box, and an adjusting driving gear meshed with the adjusting shielding frame is fixedly arranged at the output end of the gear box.

Preferably, the adjusting shielding frame is in contact fit with the resisting ring, and an adjusting spring is fixedly arranged between the current limiting plate and the communicating ring.

Preferably, the mixing assembly further comprises a six-way mixing pipeline which is communicated with the interior of the blending stirring barrel and used for discharging paint into the blending stirring barrel.

Preferably, each of the communicating rings is fixedly connected with a six-way mixing pipe, and the six-way mixing pipe is communicated with the inside of each flow regulating cavity.

A blending method for door paint production comprises the following steps: s1, adopting paint with five colors of white, black, red, yellow and blue for blending; s2, controlling the mixed content of the five colors of paint in the S1, and preparing different hues; s3, enabling the paint to roll from bottom to top and uniformly stirring the paint; s4, discharging volatile gas in the process of stirring the paint to prevent explosion; and S5, discharging the prepared paint.

Compared with the prior art, the utility model has the following beneficial effects: (1) According to the utility model, paint volatile gas in the paint blending process can be discharged, so that explosion caused by the paint volatile gas is prevented; (2) The centrifugal motor is arranged at a position far away from the blending stirring barrel, so that explosion caused by electric arc generated by the electric driving element during working is prevented; (3) The mixing component provided by the utility model can ensure that the flow of paint discharged by the electric control valve in unit time is the same, thereby ensuring the accuracy of paint mixing and blending.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of the structure a in fig. 1 according to the present utility model.

FIG. 3 is a schematic diagram of the structure of FIG. 1B according to the present utility model.

FIG. 4 is a schematic diagram of a hybrid module according to the present utility model.

Fig. 5 is a schematic view of the structure of fig. 4 at C according to the present utility model.

Fig. 6 is a schematic diagram of the structure of fig. 5D according to the present utility model.

FIG. 7 is a cross-sectional view of the structure of the stirring barrel of the present utility model.

Fig. 8 is a schematic view of the structure of the discharge outlet of the present utility model.

Fig. 9 is a schematic diagram of a driving assembly structure of the present utility model.

Fig. 10 is a schematic view of the centrifugal chamber structure of the present utility model.

Fig. 11 is a schematic view of the internal structure of the driving rotation chamber of the present utility model.

In the figure: 101-blending stirring barrel; 1011—a drain; 102-top cover plate; 1021-a first opening; 1022-a second opening; 103-planetary gearbox; 104-a middle stirring impeller; 105-stirring scraper; 106-edge stirring blades; 107-valve plate; 108-an electromagnet; 109-a discharge spring; 110-a sliding bar; 111-an exhaust duct; 112-a fan; 201-centrifugal chamber; 202-a centrifugal motor; 203-centrifuging the impeller; 204-a return line; 205-driving a booster tube; 206-driving the rotation chamber; 207-rotating plate; 208-pressurizing the flow tube; 209-drainage port; 301-a paint bucket; 302-floating plate; 303-rack support; 304-rack; 305-six-way mixing pipe; 306-adjusting the driven gear; 307-adjusting the carriage; 308-a gear box; 309-adjusting the drive gear; 310-adjusting a shielding frame; 311-an electric control valve; 312-flow regulating cavity; 313-restrictor plate; 314-stop lever; 315-adjusting springs; 316-communication ring; 317-abutment ring.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1-11, the utility model provides a blending device for door paint production, which comprises a blending stirring barrel 101, wherein a stirring scraper 105 is rotatably installed in the blending stirring barrel 101, the stirring scraper 105 is composed of six stirring sheets, each stirring sheet is fixedly provided with an edge stirring blade 106 for driving paint to flow upwards from the edge of the inner wall of the blending stirring barrel 101, the top of the blending stirring barrel 101 is fixedly provided with a top cover plate 102, the top cover plate 102 is fixedly provided with a planetary gearbox 103, an output shaft of the planetary gearbox 103 is fixedly connected with the stirring scraper 105, and the output shaft of the planetary gearbox 103 is fixedly provided with a middle stirring impeller 104 for driving paint to flow downwards. The bottom of the blending stirring barrel 101 is provided with a discharge port 1011, a valve plate 107 is slidably mounted in the discharge port 1011, a sliding rod 110 is fixedly mounted on the bottom surface of the blending stirring barrel 101, an electromagnet 108 which is in magnetic attraction fit with the valve plate 107 is fixedly mounted on the sliding rod 110, a discharge spring 109 is fixedly mounted between the electromagnet 108 and the valve plate 107, a first opening 1021 and a second opening 1022 are arranged on the top cover plate 102, an exhaust pipeline 111 is fixedly mounted on the first opening 1021 or the second opening 1022, and a fan 112 is mounted on the top end of the exhaust pipeline 111 (the rotation axis of the fan 112 is perpendicular to and intersected with the axis of the exhaust pipeline 111).

The centrifugal pump comprises a planetary gearbox 103, and is characterized by further comprising a driving assembly for driving the input shaft of the planetary gearbox 103 to rotate, wherein the driving assembly comprises a driving rotating chamber 206, at least 50 rotating sheets 207 are rotatably arranged in the driving rotating chamber 206, the 50 rotating sheets 207 are stacked and arranged along the radial direction of the driving rotating chamber 206, the 50 rotating sheets 207 are fixedly connected with the input shaft of the planetary gearbox 103, a drainage port 209 is arranged in the middle of the driving rotating chamber 206, an pressurizing flow pipe 208 is arranged in the tangential direction of the edge of the driving rotating chamber 206, the driving assembly further comprises a centrifugal chamber 201, a centrifugal impeller 203 is rotatably arranged in the centrifugal chamber 201, the middle of the centrifugal chamber 201 is communicated with the drainage port 209 through a backflow pipeline 204, and the side edge of the centrifugal chamber 201 is communicated with the pressurizing flow pipe 208 through a driving pressurizing pipe 205. The centrifugal impeller 203 is driven by a centrifugal motor 202 fixedly mounted on the surface of the centrifugal chamber 201.

Still include mixing element, mixing element includes five paint kettle 301, all slidable mounting has floating plate 302 in every paint kettle 301, fixed mounting has rack support 303 on the floating plate 302, still slidable mounting has rack 304 on the surface of paint kettle 301, rack 304 and rack support 303 fixed connection, still fixed mounting has the regulation carriage 307 on the paint kettle 301, the both sides of regulation carriage 307 are provided with the slide rail, slidable mounting has regulation shielding frame 310 on the slide rail, the automatically controlled valve 311 has been furnished with to the bottom of paint kettle 301, the outlet fixed mounting of automatically controlled valve 311 has the flow regulating chamber 312, slidable mounting has the current limiting plate 313 in the flow regulating chamber 312, the one end fixed mounting that the inner wall kept away from automatically controlled valve 311 has the communication ring 316, slidable mounting has four stop bars 314 on the communication ring 316, four stop bars 314 are all fixed mounting on the stop ring 317, four stop bars 314 contact cooperation with the current limiting plate 313. The adjusting carriage 307 is fixedly provided with a gear box 308, the input end of the gear box 308 is fixedly provided with an adjusting driven gear 306 meshed with the rack 304, the output end of the gear box 308 is fixedly provided with an adjusting driving gear 309 meshed with an adjusting shielding frame 310, the adjusting shielding frame 310 is in contact fit with a blocking ring 317, an adjusting spring 315 is fixedly arranged between a current limiting plate 313 and a communicating ring 316, the mixing assembly further comprises a six-way mixing pipeline 305, the six-way mixing pipeline 305 is communicated with the interior of the blending stirring barrel 101 and is used for discharging paint into the blending stirring barrel 101, each communicating ring 316 is fixedly connected with the six-way mixing pipeline 305, and the six-way mixing pipeline 305 is communicated with the interior of each flow regulating cavity 312.

The utility model discloses a blending device for door paint production, which has the following working principle: first five paint barrels 301 are filled with five colors of paint, white, black, red, yellow, and blue, respectively. The paint with different contents is selected according to the required color for proportioning, specifically, the discharged amount is controlled by controlling the opening time of each electric control valve 311, then the paint is mixed into the blending stirring barrel 101 through a six-way mixing pipeline 305, then the centrifugal motor 202 is started, the output shaft of the centrifugal motor 202 drives the centrifugal impeller 203 to rotate, the centrifugal impeller 203 rotates to drive the liquid (hydraulic oil or water) in the centrifugal chamber 201 to rotate, then the liquid flows into the driving pressurizing pipe 205 under the action of centrifugal force, then flows into the driving rotating chamber 206 tangentially through the pressurizing flow pipe 208, and impacts the rotating plate 207 along the tangential direction of the rotating plate 207 (viscous force between the liquid and the rotating plate 207 drags the rotating plate 207 to move), at this moment, the rotating plate 207 rotates to react to the liquid, so that the liquid rotates and the liquid rotates under the action of centrifugal force, and moves outwards (the actual path of the liquid is spiral), and at the moment, the path of the liquid flowing from the pressurizing inflow pipe 208 to the discharging port 209 is increased and decreased, so that the acting area of the liquid applied on the rotating plate 207 is increased, the viscous force between the rotating plate 207 and the liquid is increased, and the transmission efficiency is improved, when the liquid flows into the backflow pipeline 204 from the discharging port 209, the liquid flows back into the centrifugal chamber 201 along the axial direction of the centrifugal chamber 201, so that the circulation is realized, and at the moment, no current is generated in the driving rotating chamber 206 at the driving position (the driving rotating chamber 206 needs to be fixed on a rack which is not shown in the drawing), therefore, only the centrifugal motor 202 needs to be arranged at a distance, and the purpose can be prevented from stirring the paint, the problem that the volatile gas of the paint is easy to explode when encountering sparks occurs.

Meanwhile, the fan 112 is arranged at the top of the exhaust pipeline 111, and the fan 112 rotates to drive air to flow along the horizontal direction, so that the top of the exhaust pipeline 111 is at low pressure, at the moment, air enters from the first opening 1021 or the second opening 1022, paint volatile gas in the blending stirring barrel 101 is brought into the exhaust pipeline 111 (a filter element is arranged in the exhaust pipeline 111), and then is discharged from the top of the exhaust pipeline 111, so that the possibility of explosion in the stirring process is further reduced.

Because the paint in the paint bucket 301 is less and less, and the paint is discharged from the electric control valve 311 by gravity, the pressure of the paint discharged from the electric control valve 311 is reduced along with the reduction of the paint, so the flow rate of the paint in unit time is reduced, in order to solve the problem, a floating plate 302 capable of floating is arranged at the top of the paint bucket 301, the floating plate 302 floats along with the height of the paint liquid level, when the paint liquid level descends, the floating plate 302 descends along with the descending, the floating plate 302 drives a rack 304 to move downwards through a rack bracket 303, the rack 304 drives an adjusting driven gear 306 to rotate, the adjusting driven gear 306 rotates to drive an input shaft of a gear box 308 to rotate, an output shaft of the gear box 308 drives an adjusting driving gear 309 to rotate, the adjusting driving gear 309 drives an adjusting shielding frame 310 to slide on the adjusting sliding frame 307, at the moment, the adjusting shielding frame 310 moves towards one side far away from the electric control valve 311, the paint in the paint bucket 301 can push the current limiting plate 313, the blocking rod 314 moves to push a blocking ring 317 to move, the blocking ring 317 moves, the paint shielding ring 317 moves, the distance of the electric control valve 317 is reduced, and the paint flow rate of the paint in the paint is reduced, the paint is adjusted to be the nearest to the adjusting valve, and the paint flow rate of the paint metering valve is adjusted, and the paint metering valve is more precisely when the paint metering valve is more than the inner valve, and the paint metering valve is more than the inner than the paint, and the paint metering valve is moved.

Electromagnet 108 is energized, electromagnet 108 attracts valve plate 107, and the prepared paint inside mixing drum 101 is discharged.

Claims

1. The utility model provides a door lacquer production is with allotment device, includes allotment agitator (101), its characterized in that: the stirring barrel (101) is rotationally provided with a stirring scraper (105), the stirring scraper (105) is composed of six stirring sheets, each stirring sheet is fixedly provided with an edge stirring blade (106) for driving paint to flow upwards from the edge of the inner wall of the stirring barrel (101), the top of the stirring barrel (101) is fixedly provided with a top cover plate (102), the top cover plate (102) is fixedly provided with a planetary gearbox (103), an output shaft of the planetary gearbox (103) is fixedly connected with the stirring scraper (105), the output shaft of the planetary gearbox (103) is fixedly provided with a middle stirring impeller (104) for driving paint to flow downwards, the bottom of the stirring barrel (101) is provided with a discharge port (1011), a valve plate (107) is slidably arranged in the discharge port (1011), the bottom surface of the stirring barrel (101) is fixedly provided with a sliding rod (110), the sliding rod (110) is fixedly provided with an electromagnet (108) which is magnetically attracted and matched with the valve plate (107), a discharge spring (109) is fixedly arranged between the electromagnet (108) and the valve plate (107), the top cover plate (1022) is fixedly provided with a first opening (1021) or a second opening (1021) and a first opening (1021) is formed in the first opening (1021), a fan (112) is arranged at the top end of the exhaust pipeline (111);

the centrifugal impeller comprises a centrifugal chamber (201), wherein the centrifugal impeller (203) is rotatably arranged in the centrifugal chamber (201), the middle part of the centrifugal chamber (201) is communicated with the exhaust port (204) through a backflow pipeline (204), the side edges of the centrifugal chamber (201) are communicated with the pressurizing inflow pipe (208) through a driving pressurizing pipe (205), and the centrifugal impeller (203) is driven by a centrifugal motor (202) fixedly arranged on the surface of the centrifugal chamber (201);

the mixing assembly comprises five paint barrels (301), a floating plate (302) is slidably arranged in each paint barrel (301), a rack bracket (303) is fixedly arranged on the floating plate (302), racks (304) are slidably arranged on the outer surfaces of the paint barrels (301), the racks (304) are fixedly connected with the rack brackets (303), an adjusting sliding frame (307) is fixedly arranged on each paint barrel (301), sliding rails are arranged on two sides of each adjusting sliding frame (307), an adjusting shielding frame (310) is slidably arranged on each sliding rail, an electric control valve (311) is arranged at the bottom of each paint barrel (301), a flow regulating cavity (312) is fixedly arranged at a water outlet of each electric control valve (311), a flow limiting plate (313) is slidably arranged in each flow regulating cavity (312), a communication ring (316) is fixedly arranged at one end, far away from each electric control valve (311), of the communication rings (316), four blocking rods (314) are slidably arranged on the communication rings (316), four blocking rods (317) are fixedly arranged on each blocking ring (317), the four blocking rods (314) are fixedly arranged on each sliding ring, the four blocking rods (317) are fixedly arranged on one end, which is in sliding plates (313) and are in sliding connection with a transmission gear (308), an adjusting driving gear (309) meshed with an adjusting shielding frame (310) is fixedly arranged at the output end of the gear box (308), the adjusting shielding frame (310) is in contact fit with a resisting ring (317), and an adjusting spring (315) is fixedly arranged between the current limiting plate (313) and the communicating ring (316).

2. The door paint manufacturing blending device according to claim 1, wherein: the mixing assembly further comprises a six-way mixing pipeline (305), and the six-way mixing pipeline (305) is communicated with the interior of the blending stirring barrel (101) and is used for discharging paint into the blending stirring barrel (101).

3. The door paint production blending device according to claim 2, wherein: each communication ring (316) is fixedly connected with the six-way mixing pipeline (305), and the six-way mixing pipeline (305) is communicated with the inside of each flow regulating cavity (312).