CN116407980A

CN116407980A - Automatic color-mixing paint equipment

Info

Publication number: CN116407980A
Application number: CN202310319675.1A
Authority: CN
Inventors: 张炜洪; 袁乃岭; 郭木林; 贺兴辉
Original assignee: Huzhou Taihe Auto Parts Co ltd
Current assignee: Huzhou Taihe Auto Parts Co ltd
Priority date: 2023-03-29
Filing date: 2023-03-29
Publication date: 2023-07-11

Abstract

The utility model relates to automatic color matching paint equipment, which comprises a paint mixing main body, a color master mechanism and a gas supply cabinet, and is characterized in that: the front end of the paint mixing main body is provided with an operation screen, the right end of the paint mixing main body is provided with a paint mixing mechanism, the upper end of the paint mixing mechanism is connected with a paint inlet pipe, the upper end of the paint inlet pipe is connected with a color master mechanism, the upper end of the color master mechanism is provided with a power structure, the lower end of the power structure is fixedly connected with a first sliding chute, the lower end of the first sliding chute is fixedly connected with a first bottom plate, the front end of the first sliding chute is slidably connected with a first air cylinder stirring structure, the left end of the first sliding chute is provided with a first air inlet box, and the upper end of the first bottom plate is abutted to a color master barrel; the flow of paint in the pipeline is kept by utilizing heat generated by the operation of the pneumatic diaphragm pump through the heat storage chamber and the heat storage groove, so that the pipeline is not easy to be blocked; through setting up gravity hemisphere a, linkage cylinder stirring structure and pneumatic diaphragm pump, according to the sticky degree adjustment work rate of paint, reduce the energy consumption.

Description

Automatic color-mixing paint equipment

Technical Field

The utility model relates to the technical field of paint mixing equipment, in particular to automatic paint mixing equipment.

Background

The existing paint mixing process is to manually mix paint according to the proportion and the use amount by using a measuring cup, the paint is less in mixing, the production beat is delayed, and the material waste is caused by more mixing, so that the automatic paint mixing equipment is provided, time and labor are saved, the paint is not easy to block in the mixing process, and the paint mixing process is suitable for batch paint mixing in a spraying workshop.

One chinese patent of the utility model, CN201921448004.0, discloses a paint mixing system comprising a paint mixing tank connected to a paint tank for feeding and mixing paint; the circulating tank is connected with the paint mixing tank through a pipeline and is used for storing paint after paint mixing; a power pump respectively connected with the paint bucket, the paint mixing tank and the circulating tank; the stirring devices are respectively arranged in the paint mixing tank and the circulating tank; the circulating tank is internally provided with a liquid level detection device, and when the liquid level detection device detects that the liquid level in the circulating tank is a preset high liquid level, the power pump is stopped; when the liquid level in the circulating tank is a preset low liquid level, the power pump is started. The paint mixing system provided by the utility model can replace manual paint mixing, can be added in a large amount for one-time mixing, is used for a long time, reduces potential safety hazards in the operation process, improves paint mixing efficiency and paint utilization rate, but has the following problems: one does not have a design to prevent clogging of the paint line and the other does not have a design to adjust the stirring rate.

Disclosure of Invention

The utility model aims at solving the technical problems that a pipeline is easy to be blocked due to paint cooling and the power structure cannot adapt to energy waste caused by viscosity of different paints through a heat storage chamber, a heat storage groove and a gravity hemisphere a.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides an automatic palette lacquer equipment, includes mixing of colors main part, look parent mechanism and supplies the gas holder, its characterized in that:

the paint mixing device comprises a paint mixing main body, wherein an operation screen is arranged at the front end of the paint mixing main body, a maintenance door is arranged at the right end of the paint mixing main body, a paint mixing mechanism is arranged at the right end of the paint mixing main body, the upper end of the paint mixing mechanism is connected with a paint inlet pipe, and the upper end of the paint inlet pipe is connected with a color master mechanism;

the color master mechanism is provided with a power structure at the upper end, the lower end of the power structure is fixedly connected with a first chute, the lower end of the first chute is fixedly connected with a first bottom plate, the front end of the first chute is slidably connected with a first cylinder stirring structure, the left end of the first chute is provided with a first air inlet box, the upper end of the first bottom plate is abutted against a color master barrel, and the upper end of the color master barrel covers the color master barrel cover;

the gas supply cabinet, the gas supply cabinet right-hand member is equipped with the output board, output board right surface evenly distributed output interface, every output interface all connects the gas-supply pipe.

Preferably, 4 buttons are arranged below the operation screen and uniformly distributed on the front surface of the paint mixing main body, and the right surface of the maintenance door is provided with a door handle.

As one preference, the middle part of the power structure is provided with a pneumatic diaphragm pump, the lower end of the pneumatic diaphragm pump is fixedly connected with a first chute, the left end and the right end of the pneumatic diaphragm pump are symmetrically provided with heat conduction chambers, one ends of the heat conduction chambers, which are far away from the pneumatic diaphragm pump, are respectively provided with a heat storage chamber, the left side is fixedly connected with a heat storage groove a at the lower end of the heat storage chamber, the left side is fixedly connected with a heat storage groove b at the front end of the heat storage chamber, the right side is fixedly connected with a heat storage groove c at the right end of the heat storage chamber, a paint suction pipe is embedded in the groove of the heat storage groove a, a paint return pipe is embedded in the groove of the heat storage groove b, and a paint inlet pipe is embedded in the groove of the heat storage groove c.

As one preferable mode, an A port is arranged at the left lower end of the pneumatic diaphragm pump, a B port is arranged in the middle of the front end of the pneumatic diaphragm pump, the pneumatic diaphragm pump is connected with the A port at the upper end of the paint suction pipe, a B port is connected with the upper end of the paint return pipe, and a C port is connected with the upper end of the paint inlet pipe.

Preferably, an air inlet switch is arranged at one end, far away from the first sliding groove, of the first air inlet box, air inlet interfaces are symmetrically arranged in front and back of the first air inlet box, the front end of the first air inlet box is connected with the upper end of the air inlet pipe, and the rear end of the first air inlet box is connected with the lower end of the air conveying pipe.

As one preference, a regulating switch a is arranged on the left side of the upper end of the first air cylinder stirring structure, a D interface is arranged on the left end of the regulating switch a, the regulating switch a is positioned on the upper surface of the first air cylinder stirring structure, a stirring rod is arranged at the lower end of the first air cylinder stirring structure, the stirring rod penetrates through the color master barrel cover to enter the color master barrel, and small stirring rods are symmetrically arranged on the surface of the first stirring rod in a left-right mode.

As one preference, the upper surface left side of color master barrel lid is equipped with and inhales the lacquer interface, returns the lacquer interface, and the symmetry sets up around both, color master barrel front end is equipped with visual strip, just color master barrel bilateral symmetry is equipped with the handle, inhale the lacquer pipe and pass and inhale the lacquer interface and get into inside the color master barrel, it passes back the lacquer interface and get into inside the color master barrel, and returns lacquer pipe and inhale the lacquer pipe lower extreme and all be equipped with gravity hemisphere a, gravity hemisphere a lower extreme butt color master barrel bottom.

As one preference, the lower end of the paint mixing mechanism is provided with a second bottom plate, the left side of the upper end of the second bottom plate is abutted to the paint mixing barrel, the right side of the upper end of the second bottom plate is fixedly connected with a second sliding groove, the left end of the second sliding groove is slidably connected with a second air cylinder stirring structure, the rear end of the second sliding groove is fixedly connected with a second air inlet box, the second air cylinder stirring structure is identical to the first air cylinder stirring structure, and the second air inlet box is identical to the first air inlet box in structure.

As one preference, the paint mixing barrel and the color master barrel are identical in structure, the paint mixing barrel cover is arranged at the upper end of the paint mixing barrel, the flow measuring devices are axially distributed at the center of the circle of the upper end of the paint mixing barrel cover, the paint inlet pipe sequentially penetrates through the paint mixing barrel cover and the flow measuring devices to enter the paint mixing barrel, the gravity hemisphere b is arranged at the lower end of the paint inlet pipe and is abutted to the bottom of the paint mixing barrel, and the gravity hemisphere b is identical in structure with the gravity hemisphere a.

As another preferable mode, the A port, the B port, the C port, the paint sucking interface and the paint returning interface are identical in structure, the D interface, the air inlet interface and the output interface are identical in structure, the paint sucking pipe, the paint returning pipe and the paint inlet pipe are identical in structure, and the air conveying pipe and the air inlet pipe are identical in structure.

The utility model has the beneficial effects that:

(1) According to the utility model, the heat storage chamber and the heat storage groove are arranged, so that heat generated by compressed air of the pneumatic diaphragm pump is quickly introduced into the heat storage chamber and the heat storage groove through the heat conduction chamber, and the paint always keeps a flowing state in a pipeline, so that blockage is not easy to occur.

(2) According to the utility model, the gravity hemisphere a is arranged, so that the paint suction pipe and the paint return pipe are always positioned at the bottom of the color master barrel, the paint at the bottom is sucked, the utilization rate is improved, and the stirring speed can be changed by linking the first-air cylinder stirring structure according to the viscosity of the paint, and the liquid transportation efficiency can be changed by linking the pneumatic diaphragm pump.

(3) According to the utility model, the stirring area is increased by arranging the small stirring rod, so that paint in the paint mixing barrel and the color master barrel is fully stirred, substances such as pearls and silver powder in the paint are prevented from precipitating, and the yield of the paint is improved.

(4) According to the utility model, the flowmeter is arranged on the paint mixing barrel, so that the quantity of paint actually entering the barrel can be calculated accurately, paint can be regulated accurately, and the paint yield is improved.

(5) According to the utility model, the number of the color master mechanisms can be increased or decreased according to actual conditions by arranging the color master mechanisms, so that the color master mechanisms can be flexibly matched for use, and the applicability of the equipment is improved.

In conclusion, the equipment has the advantages of simple structure, difficult blockage of a paint pipeline, full stirring, accurate paint mixing and low energy consumption, and is particularly suitable for the technical field of paint mixing equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings described below are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of the whole automatic paint mixing equipment.

Fig. 2 is a schematic structural view of a portion of the color master mechanism.

Fig. 3 is a schematic structural view of a power structure part of the color master mechanism.

Fig. 4 is a schematic front view of a color master barrel portion.

Fig. 5 is a schematic structural view of a portion of the paint mixing mechanism.

Fig. 6 is a schematic front view of a portion of the paint mixing mechanism.

Detailed Description

The technical solutions in the embodiments of the present utility model are clearly and completely described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 6, the present utility model provides an automatic paint mixing apparatus, comprising a paint mixing main body 1, a color master mechanism 2 and a gas supply cabinet 3, characterized in that:

the paint mixing device comprises a paint mixing main body 1, wherein an operation screen 11 which is a large touchable display screen is arranged at the front end of the paint mixing main body 1, the operation screen is matched with an information processor in the paint mixing main body 1 to work and is used for selecting and modifying paint mixing formulas and browsing equipment backup information, a maintenance door 13 is arranged at the right end of the paint mixing main body 1 and is convenient for maintenance and debugging of internal parts of the paint mixing main body 1, a paint mixing mechanism 15 which is an important main city mechanism for paint mixing is arranged at the right end of the paint mixing main body 1, the upper end of the paint mixing mechanism 15 is connected with a paint inlet pipe 8, paint serving as a color master enters the paint mixing mechanism 15 through the paint inlet pipe 8 to finish mixing, the upper end of the paint inlet pipe 8 is connected with a color master mechanism 2, and a plurality of color master mechanisms are usually connected with a plurality of paint inlet pipes 8 respectively, and the paint inlet pipes 8 are connected with one paint mixing mechanism 15 to realize mixing;

the color master mechanism 2, the upper end of the color master mechanism 2 is provided with a power structure 24 for providing power for the transportation of paint, the lower end of the power structure 24 is fixedly connected with a first chute 22 for providing reliable supporting force for the power structure 24, the lower end of the first chute 22 is fixedly connected with a first bottom plate 21, the inner center position of the first chute is provided with a paint chip, the paint chip represents paint information and corresponds to the number stored in an information processor, the paint chip controls the corresponding first air inlet box 221 and the power structure 24 to work, the front end of the first chute 22 is slidably connected with a first cylinder stirring structure 26, so that the height of the first cylinder stirring structure 26 is conveniently adjusted according to the actual situation, the left end of the first chute 22 is provided with a first air inlet box 221 which is a control switch for pressing air into the color master mechanism 2 in the air supply cabinet 3, the upper end of the first bottom plate 21 is abutted against a color master barrel 23, the color master barrel 23 is used for containing paint serving as a color master, the bottom of the paint chip is also arranged at the bottom of the color master barrel, the paint chip is chaotic inside the first bottom plate 21 is convenient for preventing the color master barrel from being covered by the color master barrel 25;

the gas supply cabinet 3, the gas supply cabinet 3 right-hand member is equipped with output board 31, and the inside a plurality of aluminium gas cylinders that are equipped with of gas supply cabinet 3 provides compressed gas and supports for masterbatch mechanism 2 and mix lacquer mechanism 15, holds their working power, output board 31 right surface evenly distributed output interface 32, every output interface 32 all connects gas-supply pipe 9, and compressed gas transports masterbatch mechanism 2 and mix lacquer mechanism 15 via gas-supply pipe 9.

Further, as shown in fig. 1, 4 buttons 12 are disposed below the operation screen 11 and are uniformly distributed on the front surface of the paint mixing main body 1, and are an equipment power key, an air supply key, an equipment on-off key and an equipment pause key, wherein the air supply key controls whether the output plate 31 is used for conveying air outwards, and a door handle 14 is disposed on the right surface of the maintenance door 13, so that the maintenance door 13 can be conveniently opened and closed.

Further, as shown in fig. 3, the middle part of the power structure 24 is provided with a pneumatic diaphragm pump 241, which is a positive displacement reciprocating pump driven by compressed gas, and is composed of a gas flow structure and a liquid flow structure, the two side diaphragms are completely isolated, the high pressure gas in the gas valve chamber drives the connecting rod shaft to do left and right reciprocating motion through the gas flow dredging system, meanwhile, the consumed low pressure gas is rapidly discharged through the gas outlet, under the alternating action of the high and low pressure gas at the two sides, the connecting rod shaft drives the two side diaphragms to do left and right motion, the air pressure in the volume cavities at the two sides is alternately changed, thus realizing the continuous suction and discharge of liquid, the lower end of the pneumatic diaphragm pump 241 is fixedly connected with a first chute 22, the upper end of the first chute 22 is provided with a mounting platform, the pneumatic diaphragm pump 241 can be stably supported, the inside of the first chute 22 is provided with a gas pipe, one end of the gas pipe is connected with a first gas inlet box 221, the other end is connected with a pneumatic diaphragm pump 241, gas required by work is provided for the pneumatic diaphragm pump 241, the left end and the right end of the pneumatic diaphragm pump 241 are symmetrically provided with heat conduction chambers 242, the heat conduction chambers 242 are made of heat conduction insulating elastic rubber, the heat conduction chambers 242 are coated outside an airflow structure, heat conduction ribs are axially distributed in the circle center of the inside of the heat conduction chambers, heat generated by the work of the airflow structure can be rapidly led out, one end, far away from the pneumatic diaphragm pump 241, of the heat conduction chambers 242 is provided with heat storage chambers 243, the heat storage chambers 243 are made of heat storage materials, small honeycomb-shaped heat storage chambers are arranged in the heat storage chambers, heat conducted by the heat conduction chambers 242 can be stored, the lower ends of the left side of the heat storage chambers 243 are fixedly connected with heat storage grooves a245, the front ends of the left side of the heat storage chambers 243 are fixedly connected with heat storage grooves b244, the right side of the heat storage chambers 243 are fixedly connected with heat storage grooves c246, the heat storage grooves a245 are arranged, the heat storage tank b244 and the heat storage tank c246 are mainly used for dispersing heat in the heat storage chamber 243, the heat is stored in the internal long strip-shaped guide groove, the stored heat is transmitted to the paint suction pipe 6, the paint return pipe 5 and paint in the paint inlet pipe 8, so that the paint is kept in a flowing state and is not solidified and blocked, the paint suction pipe 6, the paint return pipe 5 and the paint inlet pipe 8 are arranged regularly and are not twisted, the paint does not stay in a pipeline under the action of gravity to form a blockage, the paint suction pipe 6 is embedded in the heat storage tank a245, the paint return pipe 5 is embedded in the heat storage tank b244, the paint inlet pipe 8 is embedded in the heat storage tank c246, the paint suction pipe 6, the paint return pipe 5 and the paint inlet pipe 8 are hollow plastic hoses, the material is transparent, whether the paint is abnormal or not can be observed conveniently, and the replacement cost is low.

Further, an a port 2411 is provided at the left lower end of the pneumatic diaphragm pump 241, which is a paint suction port, paint serving as a color master enters the pneumatic diaphragm pump 241 from the middle of the front end of the pneumatic diaphragm pump 241, a B port 2412 is provided at the middle of the front end of the pneumatic diaphragm pump 241, which is a paint return port, excessive paint sucked into the pneumatic diaphragm pump 241 passes through the pneumatic diaphragm pump and returns to the color master barrel 23, a pressure regulating valve is provided at the upper end of the pneumatic diaphragm pump 241, the speed of paint return is controlled by an adjusting air valve, a C port 2413 is provided at the right upper end of the pneumatic diaphragm pump 241, which is a transmission port, most of paint sucked up flows out from the pneumatic diaphragm pump 241 and flows to the paint mixing barrel 16, a pressure regulating valve and a buffer cup are provided at the upper end of the pneumatic diaphragm pump, the pressure regulating valve adjusts the working efficiency by adjusting the internal air pressure of the pneumatic diaphragm pump 241, and adjusts the transmission speed, which can also link the gravity hemisphere a51, the speed of the transport liquid of the pneumatic diaphragm pump 241 is adjusted, the upper end of the paint suction pipe 6 is connected to the a port 2411, the upper end of the paint return pipe 5 is connected to the B port 2412, and the upper end of the paint inlet pipe 8 is connected to the C port 2413.

Further, the one end of the first air inlet box 221 far away from the first chute 22 is provided with an air inlet switch 2211 to control whether the color master mechanism 2 is in air inlet, the first air inlet box 221 is provided with air inlet interfaces 2212 in a front-back symmetrical mode, the front end of the air inlet interfaces 2212 is connected with the upper end of the air inlet pipe 4 and is used for providing gas required by work for the first air cylinder stirring structure 26, and the rear end of the air inlet interfaces 2212 is connected with the lower end of the air delivery pipe 9, so that the gas of the gas supply cabinet 3 can enter the color master mechanism 2.

Further, as shown in fig. 2, the left side of the upper end of the first air cylinder stirring structure 26 is provided with an adjusting switch a261, and the adjusting switch a261 is located on the upper surface of the first air cylinder stirring structure 26, the first air cylinder stirring structure 26 is used for generating continuous rotation power from a compressed air system, the adjusting switch a261 controls the rotation speed by adjusting air pressure, the adjusting switch a261 can be linked with the gravity hemisphere a51, the left end of the adjusting switch a261 is provided with a D interface 262, air enters from the D interface and provides gas support required by working for the first air cylinder stirring structure 26, the lower end of the first air cylinder stirring structure 26 is provided with a first stirring rod 264, the first stirring rod 264 penetrates through the color master barrel cover 25 and enters the color master barrel 23, the surface of the first stirring rod 264 is symmetrically provided with small stirring rods 263 in a left-right mode, the shape of the small stirring rod 263 is like a branch, and the stirring range can be enlarged, so that paint substances can be uniformly distributed.

Further, the upper surface left side of color master barrel cover 25 is equipped with and inhales lacquer interface 251, returns lacquer interface 252, and the front and back symmetry between them sets up, and inhale lacquer interface 251 and be the interface that paint as the color master left of color master barrel 23, back lacquer interface 252 is the interface that paint as the color master returns color master barrel 23 from pneumatic diaphragm pump 241, color master barrel 23 front end is equipped with visual strip 231, can conveniently observe the capacity of in-barrel paint, in time add the paint of being convenient for, just color master barrel 23 bilateral symmetry is equipped with handle 232, conveniently take, inhale lacquer pipe 6 and pass inhale lacquer interface 251 entering color master barrel 23 inside, back lacquer pipe 5 passes back lacquer interface 252 entering color master barrel 23 inside, and back lacquer pipe 5 and inhale lacquer pipe 6 lower extreme all are equipped with gravity hemisphere a51, gravity hemisphere a51 lower extreme butt color master barrel 23 bottom, and weight hemisphere a51 is the hollow hemisphere, under the action for back lacquer pipe 5 and inhale lacquer pipe 6 and wait in the barrel bottom under the action of gravity always, conveniently inhale paint and in time add paint, and draw back to be equipped with the air cylinder 26 and flow rate through the air cylinder 26 a and change the air cylinder diameter sensor structure of rate that can be used for the air cylinder 26 a, the air cylinder 26 and the air cylinder diameter of a flow rate change, the air cylinder 26 a, the air cylinder diameter of the air cylinder is adjustable, and the air cylinder diameter of the air cylinder is adjustable, the air cylinder diameter of the air cylinder is adjustable, and flow rate is 26 a, and the air cylinder diameter is adjustable, and flow rate 26 is adjustable, and is equipped with a, and a rate is adjustable, and can be used.

Further, as shown in fig. 5, the lower end of the paint mixing mechanism 15 is provided with a second bottom plate 17, the paint mixing mechanism 15 is lifted, so that the paint mixing mechanism is kept clean, the left side of the upper end of the second bottom plate 17 is abutted to the paint mixing barrel 16, paint serving as a color master is all mixed in the paint mixing barrel 16, the right side of the upper end of the second bottom plate 17 is fixedly connected with a second chute 18, the left end of the second chute 18 is slidably connected with a second air cylinder stirring structure 182, the height is conveniently adjusted according to actual conditions, the second air cylinder stirring structure 182 is controlled by an information processor in the paint mixing main body 1, the rear end of the second chute 18 is fixedly connected with a second air inlet box 181, the information processor in the paint mixing main body 1 is controlled, the paint mixing mechanism can also be manually switched on, the second air cylinder stirring structure 182 is identical to the first air cylinder stirring structure 26 in structure, the second air inlet box 181 is identical to the first air inlet box 221 in structure, the same structural design can reduce cost and production line, and the replacement and maintenance are convenient.

Further, the paint mixing barrel 16 and the color master barrel 23 have the same structure, the upper end of the paint mixing barrel 16 is provided with a paint mixing barrel cover 161, after paint is prepared, only the clean paint mixing barrel 16 is needed to be replaced, the center of the circle of the upper end of the paint mixing barrel cover 161 is axially distributed with a flow meter 1611 for measuring the flow of the pipeline paint, a meter is arranged in the paint mixing barrel, one flow meter 1611 is bound with a paint chip to form the same group of numbers, the paint mixing barrel cover 161 and the flow meter 1611 are controlled by an information processor in the paint mixing main body 1, the paint inlet pipe 8 sequentially penetrates through the paint mixing barrel cover 161 and the flow meter 1611 to enter the paint mixing barrel 16 for new paint preparation, the lower end of the paint inlet pipe 8 is provided with a gravity hemisphere b81, the gravity hemisphere b81 is abutted to the bottom of the paint mixing barrel 16 and has the same structure as the gravity hemisphere a51, the gravity hemisphere b81 can also be linked with a second-number air cylinder stirring structure 182, the energy consumption is reduced, and the applicability of equipment is improved.

Still further, the structures of the a port 2411, the B port 2412, the C port 2413, the paint suction interface 251 and the paint return interface 252 are the same, the structures of the D interface 262, the air inlet interface 2212 and the output interface 32 are the same, the structures of the paint suction pipe 6, the paint return pipe 5 and the paint inlet pipe 8 are the same, the structures of the air delivery pipe 9 and the air inlet pipe 4 are the same, the same structural design can reduce the purchase cost, reduce the production line, and facilitate maintenance and replacement.

The working process comprises the following steps: firstly, an equipment power key on the paint mixing main body 1 is pressed down, and after the operation screen 11 is operated to select a paint mixing formula, an air supply key and an equipment switch key are pressed down, so that an output plate 31 at the right end of the air supply cabinet 3 works to supply air to the color master mechanism 2 and the paint mixing mechanism 15 through the air pipe 9; meanwhile, an information processor in the paint mixing main body 1 feeds back information to paint chips in the corresponding first bottom plates 21 according to paint types in the formula respectively, the paint chips control the corresponding first air inlet boxes 221 to be opened, and the power structure 24 works, so that paint in the color master barrel 23 sequentially passes through the paint suction pipe 6, the diaphragm pump 241 and the paint inlet pipe 8 and enters the paint mixing barrel 16; meanwhile, an information processor in the paint mixing main body 1 controls a second air inlet box 181 to be opened, a second air cylinder stirring structure 182 works to stir paint entering the paint mixing barrel 16 and mix the paint fully; meanwhile, an information processor in the paint mixing main body 1 feeds back information to a flowmeter 1611 with the same number as the paint chip according to the quantity of each paint in the formula, and sets the quantity of paint flow passing through the flowmeter; when the paint flow number is reached, the flow meter 1611 feeds back information to the corresponding paint chip, and the paint chip controls the corresponding first air inlet box 221 to be opened, and the power structure 24 stops working; the apparatus is then turned off after the paint in the paint kettle 16 has been thoroughly agitated.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "front and rear", "left and right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or component in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the utility model.

Of course, in this disclosure, those skilled in the art will understand that the term "a" or "an" is to be interpreted as "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, and in another embodiment, the number of elements may be multiple, and the term "a" is not to be construed as limiting the number.

The foregoing is merely a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any changes or substitutions easily conceivable by those skilled in the art under the technical teaching of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope of the claims.

Claims

1. Automatic palette lacquer equipment, including mixing of colors main part (1), masterbatch mechanism (2) and air feed cabinet (3), its characterized in that:

the paint mixing device comprises a paint mixing main body (1), wherein an operation screen (11) is arranged at the front end of the paint mixing main body (1), a maintenance door (13) is arranged at the right end of the paint mixing main body (1), a paint mixing mechanism (15) is arranged at the right end of the paint mixing main body (1), the upper end of the paint mixing mechanism (15) is connected with a paint inlet pipe (8), and the upper end of the paint inlet pipe (8) is connected with a color master mechanism (2);

the color master device comprises a color master mechanism (2), wherein a power structure (24) is arranged at the upper end of the color master mechanism (2), a first sliding groove (22) is fixedly connected to the lower end of the power structure (24), a first bottom plate (21) is fixedly connected to the lower end of the first sliding groove (22), a first air cylinder stirring structure (26) is slidably connected to the front end of the first sliding groove (22), a first air inlet box (221) is arranged at the left end of the first sliding groove (22), the upper end of the first bottom plate (21) is abutted to a color master barrel (23), and a color master barrel cover (25) is covered at the upper end of the color master barrel (23);

the gas supply cabinet (3), the right-hand member of gas supply cabinet (3) is equipped with output board (31), output interface (32) are evenly distributed to output board (31) right surface, every output interface (32) all connect gas-supply pipe (9).

2. An automatic paint mixing device according to claim 1, characterized in that 4 buttons (12) are arranged below the operation screen (11) and uniformly distributed on the front surface of the paint mixing main body (1), and the right surface of the maintenance door (13) is provided with a door handle (14).

3. The automatic color matching paint equipment according to claim 1, wherein a pneumatic diaphragm pump (241) is arranged in the middle of the power structure (24), a first chute (22) is fixedly connected to the lower end of the pneumatic diaphragm pump (241), heat conduction chambers (242) are symmetrically arranged at the left end and the right end of the pneumatic diaphragm pump (241), heat storage chambers (243) are arranged at one ends of the heat conduction chambers (242) far away from the pneumatic diaphragm pump (241), a heat storage groove a (245) is fixedly connected to the lower end of the heat storage chamber (243) at the left side, a heat storage groove b (244) is fixedly connected to the front end of the heat storage chamber (243) at the left side, a heat storage groove c (246) is fixedly connected to the right end of the heat storage chamber (243), a paint sucking pipe (6) is embedded in the groove of the heat storage groove a (245), a paint returning pipe (5) is embedded in the groove of the heat storage groove b (244), and a paint feeding pipe (8) is embedded in the groove of the heat storage groove c (246).

4. An automatic paint mixing device according to claim 3, wherein the lower left end of the pneumatic diaphragm pump (241) is provided with an a port (2411), the middle part of the front end of the pneumatic diaphragm pump (241) is provided with a B port (2412), the upper right end of the pneumatic diaphragm pump (241) is provided with a C port (2413), the upper end of the paint suction pipe (6) is connected with the a port (2411), the upper end of the paint return pipe (5) is connected with the B port (2412), and the upper end of the paint inlet pipe (8) is connected with the C port (2413).

5. The automatic paint mixing device according to claim 1, wherein an air inlet switch (2211) is arranged at one end of the first air inlet box (221) far away from the first sliding groove (22), air inlet interfaces (2212) are symmetrically arranged on the front and back of the first air inlet box (221), the air inlet interfaces (2212) at the front end are connected with the upper end of the air inlet pipe (4), and the air inlet interfaces (2212) at the back end are connected with the lower end of the air conveying pipe (9).

6. The automatic color matching paint equipment according to claim 1, wherein an adjusting switch a (261) is arranged on the left side of the upper end of the first air cylinder stirring structure (26), a D interface (262) is arranged on the left end of the adjusting switch a (261), the D interface (262) is located on the upper surface of the first air cylinder stirring structure (26), a first stirring rod (264) is arranged at the lower end of the first air cylinder stirring structure (26), the first stirring rod (264) penetrates through the color master barrel cover (25) to enter the color master barrel (23), and small stirring rods (263) are symmetrically arranged on the surface of the first stirring rod (264) in a left-right mode.

7. The automatic color matching paint equipment according to claim 1, wherein a paint suction interface (251) and a paint return interface (252) are arranged on the left side of the upper surface of the color master barrel cover (25), the paint suction interface and the paint return interface are arranged in a front-back symmetrical mode, a visual strip (231) is arranged at the front end of the color master barrel (23), handles (232) are symmetrically arranged on the left side and the right side of the color master barrel (23), a paint suction pipe (6) penetrates through the paint suction interface (251) to enter the color master barrel (23), a paint return pipe (5) penetrates through the paint return interface (252) to enter the color master barrel (23), gravity hemispheres a (51) are arranged at the lower ends of the paint return pipe (5) and the paint suction pipe (6), and the lower ends of the gravity hemispheres a (51) are abutted to the bottom of the color master barrel (23).

8. An automatic paint mixing device according to claim 1, wherein the lower end of the paint mixing mechanism (15) is provided with a second bottom plate (17), the left side of the upper end of the second bottom plate (17) is abutted to the paint mixing barrel (16), the right side of the upper end of the second bottom plate (17) is fixedly connected with a second sliding chute (18), the left end of the second sliding chute (18) is slidably connected with a second air cylinder stirring structure (182), the rear end of the second sliding chute (18) is fixedly connected with a second air inlet box (181), the second air cylinder stirring structure (182) is identical to a first air cylinder stirring structure (26), and the second air inlet box (181) is identical to a first air inlet box (221).

9. The automatic color mixing paint equipment according to claim 8, wherein the paint mixing barrel (16) and the color master barrel (23) are identical in structure, a paint mixing barrel cover (161) is arranged at the upper end of the paint mixing barrel (16), a flowmeter (1611) is axially distributed at the center of a circle of the upper end of the paint mixing barrel cover (161), the paint inlet pipe (8) sequentially penetrates through the paint mixing barrel cover (161) and the flowmeter (1611) to enter the paint mixing barrel (16), a gravity hemisphere b (81) is arranged at the lower end of the paint inlet pipe (8), and the gravity hemisphere b (81) is abutted to the bottom of the paint mixing barrel (16) and is identical to the gravity hemisphere a (51) in structure.

10. The automatic paint mixing device according to claim 4, wherein the structures of the port a (2411), the port B (2412), the port C (2413), the paint suction interface (251) and the paint return interface (252) are the same, the structures of the port D (262), the air inlet interface (2212) and the output interface (32) are the same, the structures of the paint suction pipe (6), the paint return pipe (5) and the paint inlet pipe (8) are the same, and the structures of the air delivery pipe (9) and the air inlet pipe (4) are the same.