CN108176288B

CN108176288B - Clean paint proportioning system

Info

Publication number: CN108176288B
Application number: CN201810036024.0A
Authority: CN
Inventors: 王慧丽; 宋哲星; 齐和宇
Original assignee: Anhui Phoenix Paint Technology Co ltd
Current assignee: ANHUI PHOENIX PAINT TECHNOLOGY Co.,Ltd.
Priority date: 2018-01-15
Filing date: 2018-01-15
Publication date: 2020-08-04
Anticipated expiration: 2038-01-15
Also published as: CN108176288A

Abstract

The invention belongs to the technical field of paint production equipment, and particularly relates to a clean paint proportioning system which comprises a rack, a tank body, a pressurizing module, a feeding pipe, a stirring module, a gas purifying module, a discharging pipe and a cleaning module; a frame is arranged on the outer side of the tank body; the pressurizing module comprises a mounting plate, a cylinder, a screw rod, a piston and a bottom plate; the stirring module comprises a rotating motor, an elastic blade and a stirring shaft; the gas purifying module is arranged on the other side of the tank body; the gas purifying module comprises a pipeline, a gas suction control valve, a communication control valve, a gas purifying device and a gas exhaust control valve; the cleaning module is arranged on the tank body outside the stirring module; the cleaning module comprises a cleaning motor, a gear set, a first mounting ring, a second mounting ring, a third mounting ring, a magnet and a hairbrush. The clean paint proportioning system provided by the invention has a cleaning function, reduces the workload of workers and improves the production efficiency.

Description

Clean paint proportioning system

Technical Field

The invention belongs to the technical field of paint production equipment, and particularly relates to a clean paint proportioning system.

Background

Paint is a chemical mixture coating that can be firmly covered on the surface of an object for protection, decoration, marking and other special purposes. The ' coating process ' book which is relatively authoritative in the Chinese coating world is defined in the following way that ' the coating is a material which can be coated on the surface of an object by different construction processes to form a continuous solid film with firm adhesion and certain strength. The film thus formed is generally called a coating film, also called a paint film or a coating.

The paint needs to be crushed, dispersed, emulsified and mixed with raw materials in the production process. The quality of paint finished products is directly influenced by the full stirring of the raw materials, the conventional stirring equipment concentrates the raw materials in a stirring barrel, a plurality of raw materials are stacked together, the raw materials can be fully stirred in a long time, and the production efficiency is low; in addition, in the production process of the paint, a large amount of chemical raw materials are required to be added, so that a lot of toxic and harmful gases are inevitably generated in the mixing process of the paint, and the toxic and harmful gases are volatilized, so that the health of production workers is seriously influenced.

Paint has the adhesion for the clearance of paint mixing equipment becomes difficult, and inside the operation workman can't get into the agitator tank body, the clearance to agitated vessel becomes very difficult.

Disclosure of Invention

In order to make up for the defects of the prior art, the cleaning type paint proportioning system provided by the invention realizes the cleaning of the inner wall of the stirring tank by adsorbing the inner brush by the outer magnet and moving the magnet.

The invention relates to a clean paint proportioning system which comprises a rack, a tank body, a pressurizing module, a feeding pipe, a stirring module, a gas purifying module, a discharging pipe and a cleaning module, wherein the tank body is arranged on the rack; a rack is arranged on the outer side of the tank body; the pressurizing module is positioned at the upper part of the tank body, and one side of the pressurizing module is fixedly connected with a feeding pipe; the pressurizing module is used for pressing the raw materials input by the feeding pipe into the stirring module; the stirring module is positioned at the lower side of the pressurizing module and is positioned at the lower part of the tank body; the gas purifying module is arranged on the other side of the tank body; the discharge pipe is arranged below the stirring module; the cleaning module is arranged on the tank body outside the stirring module.

The stirring module comprises a rotating motor, an elastic blade and a stirring shaft; the rotating motor is arranged at the bottom of the rack; the rotating motor is fixedly connected with a stirring shaft; a group of elastic blades are arranged on the periphery of the stirring shaft; the elastic blades are used for rotationally stirring raw materials;

the cleaning module comprises a cleaning motor, a gear set, a first mounting ring, a second mounting ring, a third mounting ring, a magnet and a brush; the cleaning motor is arranged on the bottom plate of the rack; the cleaning motor is connected with a gear set in a matching way; the gear set is connected with the first mounting ring, the second mounting ring and the third mounting ring in a matching way, and differential rotation of the first mounting ring, the second mounting ring and the third mounting ring is realized; the first mounting ring, the second mounting ring and the third mounting ring are respectively rotatably mounted on the periphery of the tank body; the first mounting ring, the second mounting ring and the third mounting ring are respectively provided with a magnet; the magnet is used for attracting the brush in the tank body; the brush is used for rotating the brush and removing stirring module inner wall residual dirt, and the clearance motor is rotatory, drives the gear that a set of drive ratio is different to it is rotatory to realize first collar, second collar and third collar differential through the gear train, and first collar, second collar and third collar are respectively through the brush of the magnet absorption live on the stirring module inner wall that sets up, realize differential clearance stirring module inner wall.

Preferably, the brushes are arranged on the inner wall of the stirring module in a staggered manner through magnets; the contact surface of the brush and the inner wall is provided with elastic brush filaments; the other side of the brush is provided with a group of flow disturbing holes; the turbulence holes can form local turbulence when the brush rotates, and dirt accumulated on the back of the brush is avoided.

Preferably, the clean gas module comprises a pipeline, a suction control valve, a communication control valve, a clean control valve and an exhaust control valve; the lower end of the pipeline is connected to one side of the stirring module, and a suction control valve is arranged at the connection part; the upper end of the pipeline is provided with a T-shaped tee joint; one end of the T-shaped tee joint is connected with the pressurizing module, and a communication control valve is arranged at the interface; the other end of the T-shaped tee joint is connected with a clean air control valve, an exhaust control valve is arranged at the interface, and when the cylinder of the pressurizing module extrudes raw materials downwards, the suction control valve and the communication control valve are controlled to be opened, and the exhaust control valve is closed; and pumping the toxic gas generated by the stirring module into the upper cavity of the pressurizing module by using the piston, then closing the air suction control valve to open the exhaust control valve, and pumping the pumped toxic gas to the clean control valve by using the piston for treatment.

Preferably, the pressurizing module comprises a mounting plate, a cylinder, a screw rod, a piston and a bottom plate; the mounting plate is fixedly connected to the upper end of the rack; the mounting plate is fixedly connected with the air cylinder; the pushing rod of the cylinder is rotationally connected with the screw rod; the screw rod is screwed at the top of the tank body; the lower end of the screw rod is fixedly connected with a piston; the piston is positioned at the upper part of the tank body; the bottom plate is provided with the bottom of the pressurizing module and is used for stirring the modules at intervals, the screw rod is pushed to move through the air cylinder, the piston is pushed by rotation, the energy consumption loss of pressing is reduced, and the piston presses the raw materials entering the pressurizing module into the stirring module.

Preferably, the bottom plate is provided with a group of spiral holes; the spiral hole is used for communicating the pressurizing module and the stirring module, a plurality of spiral holes are adopted, raw materials are extruded into a spiral shape, and multiple strands are fused, so that the mixing is more sufficient.

Preferably, the elastic blades comprise a first blade and a second blade; the first blade and the second blade are sequentially and fixedly arranged on the stirring shaft; the surfaces of the first blade and the second blade are provided with through holes; a blade perforation and No. two blade perforation dislocation arrangement, the raw materials is at the stirring in-process, forms the stranded through the perforation that sets up to set up the perforation through crisscross, make the continuous blending of stirring in-process stranded trickle, improve mix efficiency.

The invention has the following beneficial effects:

1. according to the clean paint proportioning system, the raw materials are extruded into a plurality of strands of trickle flows through the pressurizing module, and the raw materials are fully mixed through the stirring module; meanwhile, a gas purification module is arranged to pump out toxic gas generated by stirring; the brush on the inner wall of the stirring module is adsorbed by the magnet arranged through the first mounting ring, the second mounting ring and the third mounting ring, so that the inner wall of the stirring module is cleaned at a differential speed.

2. According to the cleaning type paint proportioning system, the brushes on the inner wall of the stirring module are adsorbed by the magnets arranged on the first mounting ring, the second mounting ring and the third mounting ring, so that the inner wall of the stirring module is cleaned in a differential speed manner.

3. According to the clean paint proportioning system, the air cylinder pushes the screw rod to move, the piston is pushed by rotation, the downward pressing energy consumption loss is reduced, and the piston presses the raw materials entering the pressing module into the stirring module.

4. According to the clean paint proportioning system, the toxic gas generated by stirring is pumped to the air purification control valve for treatment by utilizing the piston motion of the pressurizing module.

5. According to the clean paint proportioning system, the bottom plate is provided with the plurality of spiral holes, raw materials are extruded into a spiral shape, and multiple strands are fused, so that the mixing is more sufficient.

6. According to the clean paint proportioning system, multiple strands of thin flows are formed through the through holes arranged on the elastic blades in the stirring process of raw materials, and the through holes are arranged in a staggered mode, so that the multiple strands of thin flows are continuously blended in the stirring process, and the stirring efficiency is improved.

Drawings

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

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is a cross-sectional view A-A of FIG. 2;

in the figure: the device comprises a frame 1, a tank body 2, a pressurizing module 3, a mounting plate 31, a cylinder 32, a screw rod 33, a piston 34, a bottom plate 35, a screw hole 351, a feeding pipe 4, a stirring module 5, a rotating motor 51, an elastic blade 52, a first blade 521, a second blade 522, a gas purifying module 6, a gas suction control valve 61, a communication control valve 62, a gas purifying control valve 63, a discharging pipe 7, a cleaning module 8, a cleaning motor 81, a gear set 82, a first mounting ring 83, a second mounting ring 84, a third mounting ring 85, a magnet 86 and a brush 87.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, the clean paint proportioning system of the invention comprises a frame 1, a tank 2, a pressurizing module 3, a feeding pipe 4, a stirring module 5, a gas purifying module 6, a discharging pipe 7 and a cleaning module 8; a frame 1 is arranged on the outer side of the tank body 2; the pressurizing module 3 is positioned at the upper part of the tank body 2, and one side of the pressurizing module 3 is fixedly connected with a feeding pipe 4; the pressurizing module 3 is used for pressing the raw materials input by the feeding pipe 4 into the stirring module 5; the stirring module 5 is positioned at the lower side of the pressurizing module 3 and is positioned at the lower part of the tank body 2; the gas purifying module 6 is arranged at the other side of the tank body 2; the discharge pipe 7 is arranged below the stirring module 5; the cleaning module 8 is arranged on the tank body 2 at the outer side of the stirring module 5.

The stirring module 5 comprises a rotating motor 51, an elastic blade 52 and a stirring shaft; the rotating motor 51 is arranged at the bottom of the frame 1; the rotating motor 51 is fixedly connected with a stirring shaft; a group of elastic blades 52 are arranged on the periphery of the stirring shaft; the elastic blade 52 is used for rotationally stirring the raw materials;

the cleaning module 8 comprises a cleaning motor 81, a gear set 82, a first mounting ring 83, a second mounting ring 84, a third mounting ring 85, a magnet 86 and a brush 87; the cleaning motor 81 is arranged on the bottom plate of the frame 1; the cleaning motor 81 is connected with a gear set 82 in a matching way; the gear set 82 is connected with a first mounting ring 83, a second mounting ring 84 and a third mounting ring 85 in a matching way, and differential rotation of the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 is realized; the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 are respectively and rotatably mounted on the periphery of the tank body 2; the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 are respectively provided with a magnet 86; the magnet 86 is used for attracting the brush 87 in the tank body 2; the brush 87 is used for rotating the brush to remove residual dirt on the inner wall of the stirring module 5, the cleaning motor 81 rotates to drive a group of gears with different transmission ratios, the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 are rotated in a differential mode through the gear set, the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 respectively adsorb the brush on the inner wall of the stirring module 5 through the arranged magnets 86, and the inner wall of the stirring module 5 is cleaned in a differential mode.

As an embodiment of the present invention, the brushes 87 are arranged on the inner wall of the stirring module 5 in a staggered manner by the magnets 86; the contact surface of the brush 87 and the inner wall is provided with elastic brush filaments; the other side of the brush 87 is provided with a group of flow disturbing holes; the turbulent flow holes can form local turbulent flow when the brush 87 rotates, and dirt accumulated on the back of the brush is avoided.

As an embodiment of the present invention, the purge module 6 includes a pipe, a suction control valve 61, a communication control valve 62, a purge control valve 63, and an exhaust control valve; the lower end of the pipeline is connected to one side of the stirring module 5, and a suction control valve 61 is arranged at the connection part; the upper end of the pipeline is provided with a T-shaped tee joint; one end of the T-shaped tee joint is connected with the pressurizing module 3, and a communication control valve 62 is arranged at the interface; the other end of the T-shaped tee joint is connected with a clean air control valve 63, an exhaust control valve is arranged at the interface, and when the cylinder 32 of the pressurizing module 3 extrudes raw materials downwards, the suction control valve 61 and the communication control valve 62 are controlled to be opened, and the exhaust control valve is closed; the poisonous gas generated by the stirring module 5 is pumped into the upper chamber of the pressurizing module 3 by the piston 34, then the suction control valve 61 is closed, the exhaust control valve is opened, and the pumped poisonous gas is pumped to the clean control valve 63 by the piston 34 for processing.

As an embodiment of the present invention, the pressurizing module 3 includes a mounting plate 31, a cylinder 32, a screw rod 33, a piston 34, and a bottom plate 35; the mounting plate 31 is fixedly connected to the upper end of the frame 1; the mounting plate 31 is fixedly connected with an air cylinder 32; the pushing rod of the air cylinder 32 is rotationally connected with a screw rod 33; the screw rod 33 is screwed on the top of the tank body 2; the lower end of the screw rod 33 is fixedly connected with a piston 34; the piston 34 is positioned at the upper part of the tank body 2; the bottom plate 35 is arranged at the bottom of the pressurizing module 3 and used for spacing the stirring modules 5, the screw rod 33 is pushed to move through the air cylinder 32, the piston 34 is pushed to rotate, the energy consumption loss of pressing is reduced, and the raw materials entering the pressurizing module 3 are pressed into the stirring modules 5 through the piston 34.

As an embodiment of the present invention, the bottom plate 35 is provided with a set of spiral holes 351; spiral hole 351 is used for intercommunication pressurization module 3 and stirring module 5, adopts a plurality of spiral holes 351, extrudes the raw materials into the screw-tupe, and the stranded fuses for the mix is more abundant.

As an embodiment of the present invention, the flexible blade 52 includes a first blade 521 and a second blade 522; the first blade 521 and the second blade 522 are sequentially and fixedly arranged on the stirring shaft; the surfaces of the first blade 521 and the second blade 522 are both provided with through holes; blade 521 perforates and blade 522 perforation dislocation arrangement No. two, the raw materials is at the stirring in-process, forms the stranded through the perforation that sets up to set up the perforation through crisscross, make the continuous blending of stirring in-process stranded trickle, improve mix efficiency.

When the device works, raw materials are input into the pressurizing module 3 through the feeding pipe 4, the screw rod 33 is pushed to move through the air cylinder 32, the piston 34 is pushed to rotate, the energy consumption loss of pressing is reduced, and the raw materials entering the pressurizing module 3 are pressed into the stirring module 5 through the piston 34; meanwhile, when the cylinder 32 of the pressurizing module 3 extrudes the raw material downwards, the suction control valve 61 and the communication control valve 62 are controlled to be opened, and the exhaust control valve is closed; the poisonous gas generated by the stirring module 5 is pumped into the upper chamber of the pressurizing module 3 by the piston 34, then the gas suction control valve 61 is closed, the gas exhaust control valve is opened, and the pumped poisonous gas is pumped to the gas purification control valve 63 by the piston 34 for processing; the raw materials are extruded spirally through the bottom plate 35 of the pressurizing module 3, and are fused in multiple strands, so that the stirring of the stirring module 5 is facilitated; the raw materials are put into the stirring module 5, and the rotating motor 51 drives the elastic blades 52 to stir the raw materials; due to the staggered perforations arranged on the elastic blades 52, multiple strands of fine flow are continuously blended in the stirring process, and the stirring efficiency is improved; when the stirring module 5 needs to be cleaned after stirring is finished, cleaning liquid is injected into the tank body 2 through the feeding pipe 4; the cleaning motor 81 is started to rotate to drive a group of gear sets with different transmission ratios, differential rotation of the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 is achieved through the gear sets, the first mounting ring 83, the second mounting ring 84 and the third mounting ring 85 respectively adsorb the hairbrush 87 on the inner wall of the stirring module 5 through the arranged magnets 86, and the inner wall of the stirring module 5 is cleaned in a differential mode. The foregoing illustrates and describes the principles, general features, and advantages of the present invention.

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

Claims

1. A clean paint proportioning system which characterized in that: the device comprises a rack (1), a tank body (2), a pressurizing module (3), a feeding pipe (4), a stirring module (5), a gas purifying module (6), a discharging pipe (7) and a cleaning module (8); a rack (1) is arranged on the outer side of the tank body (2); the pressurizing module (3) is positioned at the upper part of the tank body (2), and one side of the pressurizing module (3) is fixedly connected with a feeding pipe (4); the pressurizing module (3) is used for pressing the raw materials input by the feeding pipe (4) into the stirring module (5); the stirring module (5) is positioned at the lower side of the pressurizing module (3) and is positioned at the lower part of the tank body (2); the gas purifying module (6) is arranged on the other side of the tank body (2); the discharge pipe (7) is arranged below the stirring module (5); the cleaning module (8) is arranged on the tank body (2) at the outer side of the stirring module (5); wherein the stirring module (5) comprises a rotating motor (51), an elastic blade (52) and a stirring shaft; the rotating motor (51) is arranged at the bottom of the frame (1); the rotating motor (51) is fixedly connected with a stirring shaft; a group of elastic blades (52) is arranged on the periphery of the stirring shaft; the elastic blade (52) is used for rotationally stirring raw materials; the cleaning module (8) comprises a cleaning motor (81), a gear set (82), a first mounting ring (83), a second mounting ring (84), a third mounting ring (85), a magnet (86) and a brush (87); the cleaning motor (81) is arranged on a bottom plate of the rack (1); the cleaning motor (81) is connected with a gear set (82) in a matching way; the gear set (82) is connected with the first mounting ring (83), the second mounting ring (84) and the third mounting ring (85) in a matching mode, and differential rotation of the first mounting ring (83), the second mounting ring (84) and the third mounting ring (85) is achieved; the first mounting ring (83), the second mounting ring (84) and the third mounting ring (85) are respectively and rotatably mounted on the periphery of the tank body (2); magnets (86) are respectively arranged on the first mounting ring (83), the second mounting ring (84) and the third mounting ring (85); the magnet (86) is used for attracting the brush (87) in the tank body (2); the brush (87) is used for rotatably brushing off residual dirt on the inner wall of the stirring module (5);

the brushes (87) are arranged on the inner wall of the stirring module (5) in a staggered manner through magnets (86); the contact surface of the brush (87) and the inner wall is provided with elastic brush filaments; the other side of the brush (87) is provided with a group of flow disturbing holes; the turbulent flow holes can form local turbulent flow when the brush (87) rotates;

the air purification module (6) comprises a pipeline, an air suction control valve (61), a communication control valve (62), an air purification control valve (63) and an air exhaust control valve; the lower end of the pipeline is connected to one side of the stirring module (5), and a suction control valve (61) is arranged at the connection part; the upper end of the pipeline is provided with a T-shaped tee joint; one end of the T-shaped tee joint is connected with the pressurizing module (3), and a communication control valve (62) is arranged at the interface; the other end of the T-shaped tee joint is connected with a clean air control valve (63), and an exhaust control valve is arranged at the interface;

the pressurizing module (3) comprises a mounting plate (31), a cylinder (32), a screw rod (33), a piston (34) and a bottom plate (35); the mounting plate (31) is fixedly connected to the upper end of the rack (1); the mounting plate (31) is fixedly connected with a cylinder (32); the pushing rod of the air cylinder (32) is rotationally connected with a screw rod (33); the screw rod (33) is screwed on the top of the tank body (2); the lower end of the screw rod (33) is fixedly connected with a piston (34); the piston (34) is positioned at the upper part of the tank body (2); the bottom plate (35) is provided with the bottom of the pressurizing module (3) and is used for stirring the modules (5) at intervals;

the bottom plate (35) is provided with a group of spiral holes (351); the spiral hole (351) is used for communicating the pressurizing module (3) with the stirring module (5); the elastic blade (52) comprises a first blade (521) and a second blade (522); the first blade (521) and the second blade (522) are sequentially and fixedly arranged on the stirring shaft; the surfaces of the first blade (521) and the second blade (522) are provided with through holes; the first blade (521) through holes and the second blade (522) through holes are arranged in a staggered mode;

raw materials are input into the pressurizing module (3) through the feeding pipe (4), the screw rod (33) is pushed to move through the air cylinder (32), the piston (34) is pushed to rotate, the energy consumption loss of pressing is reduced, and the raw materials entering the pressurizing module (3) are pressed into the stirring module (5) through the piston (34); meanwhile, when the cylinder (32) of the pressurizing module (3) extrudes the raw material downwards, the air suction control valve (61) and the communication control valve (62) are controlled to be opened, and the air exhaust control valve is closed; toxic gas generated by the stirring module (5) is pumped into an upper cavity of the pressurizing module (3) by using the piston (34), then the gas suction control valve (61) is closed, the gas exhaust control valve is opened, and the pumped toxic gas is pumped to the clean gas control valve (63) by using the piston (34) for treatment; the raw materials are extruded spirally through a bottom plate (35) of the pressurizing module (3), and are fused in multiple strands, so that the stirring of the stirring module (5) is facilitated; raw materials are put into the stirring module (5), and the rotating motor (51) drives the elastic blades (52) to stir the raw materials; due to the staggered perforations arranged on the elastic blades (52), multiple strands of fine flow are continuously blended in the stirring process, and the stirring efficiency is improved; when the stirring module (5) needs to be cleaned after stirring is finished, cleaning liquid is injected into the tank body (2) through the feeding pipe (4); open clearance motor (81) and rotate, drive the gear train that a set of drive ratio is different to it is rotatory to realize first collar (83), second collar (84) and third collar (85) differential through the gear train, and first collar (83), second collar (84) and third collar (85) adsorb brush (87) on stirring module (5) inner wall through magnet (86) that set up respectively, realize differential clearance stirring module (5) inner wall.