CN114100934A

CN114100934A - Fireproof paint spraying equipment and paint spraying method thereof

Info

Publication number: CN114100934A
Application number: CN202111434832.0A
Authority: CN
Inventors: 杨运涛
Original assignee: Shanghai Zhengzhi Precision Machinery Co ltd
Current assignee: Beijing Guangya Kehui Chemical Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-03-01
Anticipated expiration: 2041-11-29
Also published as: CN114100934B

Abstract

The invention belongs to the technical field of fireproof paint spraying, and particularly relates to fireproof paint spraying equipment and a paint spraying method thereof, which are completed by matching the fireproof paint spraying equipment, this fire retardant coating paint spraying apparatus is including processing case, processing case removes and is equipped with the processing part and polishes steel and get rid of impurity and chemical edulcoration, processing case middle upper end is equipped with the production part and stirs the grinding and generate fire prevention painting to fire retardant coating, production part below is equipped with the painting part and evenly sprays paint and the mopping is even to steel, the painting part is kept away from processing part one end and is equipped with the fire prevention painting of drying part to steel surface and shakes drying qualitatively, processing case is equipped with feeding transport mechanism to processing part one side, processing case is equipped with the feeding slide to feeding transport mechanism one end slip, processing case is equipped with ejection of compact transport mechanism to drying part one end, processing case is equipped with ejection of compact slide to ejection of compact transport mechanism one end slip.

Description

Fireproof paint spraying equipment and paint spraying method thereof

Technical Field

The invention belongs to the technical field of fireproof paint spraying, and particularly relates to fireproof paint spraying equipment and a paint spraying method thereof.

Background

The steel is a building material which can not be burnt, has the characteristics of earthquake resistance, bending resistance and the like, and can relatively increase the load capacity of a building and meet the requirement of aesthetic appearance and shape of the building design in practical application; but, steel as a building material has some defects which are difficult to avoid in the aspect of fire prevention, and the mechanical properties, such as yield point, tensile strength, elastic modulus and the like, of the steel are all rapidly reduced due to the increase of temperature, so that the spraying of the fire-proof coating on a steel structure is needed.

The current fireproof paint spraying equipment has the following problems;

firstly, steel is not treated before paint spraying, and impurities exist to influence the paint spraying effect;

secondly, a large amount of fireproof paint is wasted during paint spraying;

and thirdly, the fireproof coating is not uniformly sprayed, so that the surface of the steel is not flat.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides fireproof paint spraying equipment and a paint spraying method thereof, which can polish the surface of steel to treat burrs and iron rust, and chemically remove impurities after melting, so that the cleanness of the surface of the steel is ensured, and the fireproof paint is favorably coated; the fireproof paint is produced by mixing, then is uniformly coated on the surface of the steel, and then is sprayed on the surface of the steel, so that the uniform and sufficient paint spraying on the surface of the steel is facilitated; the fireproof paint on the surface of the steel is dried and fixed in a rotating mode in time, and the fireproof paint is prevented from falling off.

The purpose of the invention can be realized by the following technical scheme: a fireproof paint spraying device and a paint spraying method thereof comprise the following steps:

s1, steel processing, namely putting the steel on a conveying mechanism, and grinding impurities in a processing box;

s2, removing impurities on the surface of the steel through chemical solution and wiping the steel clean;

s3: treating the coating, namely feeding the fireproof painting material into a treatment cylinder through a feeding funnel, and stirring and mixing;

s4: grinding the paint, and grinding and stirring the mixed paint to produce paint;

s5: spraying paint, namely uniformly spraying the treated paint on the surface of the steel;

s6: painting, namely uniformly rotating and brushing the falling paint on the surface of the steel through rotation;

s7, drying, namely performing vibration drying on the paint on the surface of the steel;

s8: taking out, namely taking out the steel coated with the fireproof coating for use;

steps S1-S8 are completed by matching a fireproof paint spraying device, the fireproof paint spraying device comprises a processing box, the processing box is movably provided with a processing part for polishing steel to remove impurities and chemical impurities, the upper end of the middle of the processing box is provided with a production part for stirring and grinding fireproof paint to generate fireproof paint, the lower part of the production part is provided with a painting part for uniformly painting the steel and uniformly brushing the paint, one end, far away from the processing part, of the painting part is provided with a drying part for vibrating and drying the fireproof paint on the surface of the steel, the processing box is provided with a feeding conveying mechanism to one side of the processing part, the processing box is provided with a feeding sliding plate to one end of the feeding conveying mechanism in a sliding manner, the processing box is provided with a discharging conveying mechanism to one end of the drying part, and the processing box is provided with a discharging sliding plate to one end of the discharging conveying mechanism in a sliding manner.

Preferably, the processing part comprises a processing block, a linkage barrel is arranged in the middle of the processing block in a rotating mode, the processing block is located in the direction of the processing box towards the feeding conveying mechanism, two second motors are fixedly arranged at the upper end and the lower end of one side of the feeding sliding plate, two first linkage telescopic columns are fixedly arranged in the middle of the processing block by the two second motors, the two first linkage telescopic columns penetrate through the linkage barrel to be connected in a rotating mode, two polishing blocks are fixedly arranged in the middle of the linkage barrel by the two first linkage telescopic columns, two rotating blocks are arranged on one side of the second motor in the linkage barrel in a rotating mode, and a storage cavity is formed in the processing block below the rotating blocks.

Preferably, a plurality of telescopic clamping plates are arranged on two sides of the linkage cylinder in a sliding mode, two partition plates are arranged on two sides of the middle of the linkage cylinder in a sliding mode, a rotating cylinder is arranged on the periphery of the middle of the linkage cylinder, a plurality of linkage shafts are arranged between the rotating cylinder and the linkage cylinder in a linkage mode, a plurality of telescopic scraping rods are uniformly and fixedly arranged on the outer circumferential surface of the rotating cylinder, a solution cavity is formed in the periphery of the rotating cylinder in the treatment block, a plurality of wiping clamping plates are arranged on the circumferential wall of the linkage cylinder in a direction away from the feeding sliding plate in a sliding mode, a linkage motor is arranged at the lower end of the linkage cylinder in a linkage mode, and the linkage motor is connected in the treatment block in a rotating mode.

Preferably, the production part comprises a production cylinder, the production cylinder is positioned at the upper end of the processing box, a feeding funnel is fixedly arranged at the upper end inside the production cylinder, a discharging rotating shaft is rotatably arranged at the lower end of the feeding funnel, a third motor is fixedly arranged in the processing box below the production cylinder, a linkage column is fixedly arranged at the upper end of the third motor, the linkage column is rotatably connected with the processing box and the production cylinder, and a grinding cylinder is fixedly arranged on the outer circumferential surface of the linkage column above the inside of the production cylinder.

Preferably, the circumferencial direction has set firmly a plurality of flexible posts on the linkage post, flexible post is kept away from linkage post one end and is rotated and be equipped with the grinding post, be equipped with the chamber of breathing in the grinding post, the chamber of breathing in is equipped with a plurality of inlet channel with grinding post external connection, grinding post circumferencial direction slides and is equipped with a plurality of broken fragments, grinding post circumferencial direction evenly slides and is equipped with a plurality of abrasive bricks, the abrasive brick is kept away from grinding post one end and is slided and be equipped with anti-blocking piece, the grinding barrel lower extreme is equipped with a plurality of unloading holes, the grinding barrel below slides on the linkage post outer periphery and is equipped with a plurality of movable blocks, the movable block is kept away from linkage post one end and is slided and is equipped with the connecting block, the connecting block is kept away from movable block one end and is slided and be equipped with flexible scraping block, be equipped with the centrifugal chamber in the linkage post, centrifugal chamber is equipped with the feed inlet with production section of thick bamboo internal connection.

Preferably, the painting part comprises a second linkage telescopic column, the second linkage telescopic column is located at the lower end of a third motor, the second linkage telescopic column is rotatably connected in the processing box, a rotating disc is fixedly arranged at the lower end of the second linkage telescopic column, a discharge hole is formed between the periphery of the rotating disc and the centrifugal cavity, a painting block is fixedly arranged in the processing box below the rotating disc, a plurality of painting blocks are fixedly arranged at the upper end of the inner part of the painting block, a stirring column is rotatably arranged in the painting block, a painting cavity is arranged in the painting block below the stirring column, a control blanking hole is formed in the upper part of the stirring column and connected with the upper part of the rotating disc, and a plurality of telescopic brush blocks are slidably arranged on two sides of the painting block.

Preferably, the piece below of spraying paint rotates in the piece of painting and is equipped with a plurality of mopping and rotates the post, the mopping rotates and is equipped with the feeding chamber in the post, the mopping rotates the slip of post circumferencial direction and is equipped with a plurality of feed rods, the feeding chamber rotates the post external connection with the mopping and is equipped with the inlet valve, the mopping rotates the slip of post circumferencial direction and is equipped with a plurality of brush pieces, the feeding intracavity has set firmly a plurality of ejection of compact balls, the slip is equipped with the clamp plate in the ejection of compact ball, be equipped with the ejection of compact chamber with the feeding chamber is connected in the ejection of compact ball, ejection of compact chamber and brush piece internal connection.

Preferably, the stoving part is including drying the piece, it fixes on processing case both sides wall to dry the piece, be equipped with the heating chamber in the stoving piece, the heating intracavity has set firmly the heating piece, heating chamber both sides are equipped with two air inlets with stoving piece external connection, it is equipped with the vibrations board to dry the piece upper end slip, it has set firmly flexible piece to be connected between vibrations board and the stoving piece, be equipped with the stoving chamber in the vibrations board, the stoving chamber is connected with the heating chamber and is equipped with the interface channel, the vibrations board is connected the heating chamber and is dried the chamber with the connection channel after sliding up in the stoving piece.

Has the advantages that:

1. through the processing part setting, polish processing burr and rust to the steel surface, melt and then carry out chemical impurity removal, guaranteed steel surface's clean, be favorable to paining of fire prevention japanning.

2. Through production part and painting part setting, mix production to the fire prevention japanning, then evenly paint on the steel surface, spout the fire prevention japanning of whereabouts again on the steel surface again, be favorable to the steel surface paint spraying evenly abundant.

3. Through the setting of the drying part, the fireproof paint on the surface of the steel is timely rotated and dried qualitatively, and the falling of the fireproof paint is prevented.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic top view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Fig. 5 is a schematic cross-sectional view at B-B in fig. 3.

Fig. 6 is a schematic view of a portion C in fig. 4.

Fig. 7 is a schematic view of a portion D in fig. 4.

Fig. 8 is a schematic view of a portion at E in fig. 4.

Fig. 9 is a schematic view of a portion at F in fig. 4.

Fig. 10 is a schematic view of a portion of fig. 4 at G.

Fig. 11 is a schematic view of a portion H in fig. 4.

In the figure, a processing box 10, a processing part 11, a production part 12, a painting part 13, a drying part 14, a feeding conveying mechanism 15, a first motor 16, a feeding sliding plate 17, a processing block 18, a second motor 19, a first linkage telescopic column 20, a polishing block 21, a rotating block 22, a storage cavity 23, a partition plate 24, a telescopic clamp plate 25, a linkage cylinder 26, a rotating cylinder 27, a telescopic scraping rod 28, a linkage shaft 29, a solution cavity 30, a wiping clamp plate 31, a production cylinder 32, a feeding hopper 33, a blanking rotating shaft 34, a third motor 35, a linkage column 36, a grinding cylinder 37, a telescopic column 38, a grinding column 39, a suction cavity 40, an air inlet channel 41, a crushing block 42, a grinding block 43, an anti-blocking block 44, a blanking hole 45, a moving block 46, a connecting block 47, a telescopic scraping block 48, a centrifugal cavity 49, a feeding hole 50, a discharging hole 51, a second linkage telescopic column 52, a rotating disc 53, a control blanking hole 54, a painting block 55, The paint spraying device comprises a paint spraying cavity 56, a stirring column 57, a telescopic brush block 58, a paint brushing rotating column 59, a feeding cavity 60, a feeding rod 61, a brush block 62, a discharging ball 63, a pressing plate 64, a discharging cavity 65, a paint coating block 66, a discharging conveying mechanism 67, a drying block 68, a heating block 69, a heating cavity 70, a telescopic block 71, a vibration plate 72, a connecting channel 73, a drying cavity 74, an air inlet 75, a discharging sliding plate 76, a linkage motor 77 and an inlet valve 78.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1 to 11, a fireproof paint spraying apparatus and a method for spraying fireproof paint thereof includes the steps of:

steps S1-S8 are completed by matching a fireproof paint spraying apparatus, the fireproof paint spraying apparatus comprises a processing box 10, the processing box 10 is movably provided with a processing part 11 for polishing steel to remove impurities and chemical impurities, the upper end of the middle of the processing box 10 is provided with a production part 12 for stirring and grinding fireproof paint to generate fireproof paint, a painting part 13 is arranged below the production part 12 for uniformly painting and brushing the steel, one end of the painting part 13, which is far away from the processing part 11, is provided with a drying part 14 for performing vibration drying on the fireproof paint on the steel surface, the processing box 10 is provided with a feeding conveying mechanism 15 to one side of the processing part 11, the processing box 10 is provided with a feeding sliding plate 17 to one end of the feeding conveying mechanism 15 in a sliding manner, the processing box 10 is provided with a discharging conveying mechanism 67 to one end of the drying part 14, and the processing box 10 is provided with a discharging sliding plate 76 to one end of the discharging conveying mechanism 67 in a sliding manner.

Further, with reference to fig. 1 to 11, the processing part 11 includes a processing block 18, a linkage cylinder 26 is rotatably disposed in the middle of the processing block 18, the processing block 18 is located in the direction from the processing box 10 to the feeding and conveying mechanism 15, two second motors 19 are fixedly disposed on the processing block 18 toward the upper and lower ends of one side of the feeding sliding plate 17, two first linkage telescopic columns 20 are fixedly disposed on the two second motors 19 toward the middle of the processing block 18, the two first linkage telescopic columns 20 penetrate through the linkage cylinder 26 to be rotatably connected, two polishing blocks 21 are fixedly disposed on the two first linkage telescopic columns 20 toward the middle of the linkage cylinder 26, two rotating blocks 22 are rotatably disposed on one side of the second motor 19 on the linkage cylinder 26, and a storage cavity 23 is disposed in the processing block 18 below the rotating blocks 22.

Further, referring to fig. 1-11, a plurality of retractable clamping plates 25 are slidably disposed on two sides of a linkage cylinder 26, two partition plates 24 are slidably disposed on two sides of the middle of the linkage cylinder 26, a rotation cylinder 27 is disposed on the periphery of the middle of the linkage cylinder 26, a plurality of linkage shafts 29 are disposed between the rotation cylinder 27 and the linkage cylinder 26 in a linkage manner, a plurality of retractable scraping rods 28 are uniformly and fixedly disposed on the outer circumferential surface of the rotation cylinder 27, a solution chamber 30 is disposed in the treatment block 18 on the periphery of the rotation cylinder 27, a plurality of wiping clamping plates 31 are slidably disposed on the wiping clamping plates 31 on the circumferential wall of the linkage cylinder 26 in the direction away from the feeding sliding plate 17, a linkage motor 77 is disposed at the lower end of the linkage cylinder 26 in a linkage manner, and the linkage motor 77 is rotatably connected in the treatment block 18.

Further, referring to fig. 1-11, the production component 12 includes a production cylinder 32, the production cylinder 32 is located at the upper end of the processing box 10, a feeding funnel 33 is fixedly disposed at the upper end of the interior of the production cylinder 32, a discharging rotating shaft 34 is rotatably disposed at the lower end of the feeding funnel 33, a third motor 35 is fixedly disposed in the processing box 10 below the production cylinder 32, a linkage column 36 is fixedly disposed at the upper end of the third motor 35, the linkage column 36 is rotatably connected to the processing box 10 and the production cylinder 32, and a grinding cylinder 37 is fixedly disposed on the outer circumferential surface of the linkage column 36 above the interior of the production cylinder 32.

Further, with reference to fig. 1 to 11, a plurality of telescopic columns 38 are fixedly arranged on the linkage column 36 in the circumferential direction, a grinding column 39 is rotatably arranged at one end of each telescopic column 38 far away from the linkage column 36, an air suction cavity 40 is arranged in each grinding column 39, a plurality of air inlet channels 41 are arranged in the air suction cavity 40 and the grinding column 39 in a connected manner, a plurality of broken fragments 42 are arranged on the grinding column 39 in the circumferential direction in a sliding manner, a plurality of grinding blocks 43 are uniformly arranged on the grinding column 39 in the circumferential direction in a sliding manner, an anti-blocking block 44 is arranged at one end of each grinding block 43 far away from the grinding column 39 in a sliding manner, a plurality of blanking holes 45 are arranged at the lower end of the grinding cylinder 37, a plurality of moving blocks 46 are arranged on the outer circumferential surface of the linkage column 36 below the grinding cylinder 37 in a sliding manner, a connecting block 47 is arranged at one end of each moving block 46 far away from the linkage column 36 in a sliding manner, a telescopic scraping block 48 is arranged at one end of each connecting block 47 in a sliding manner, a centrifugal cavity 49 is arranged in the linkage column 36, and a feeding hole 50 is arranged inside the production cylinder 32 in a connected manner.

Further, referring to fig. 1 to 11, the painting part 13 includes a second linkage telescopic column 52, the second linkage telescopic column 52 is located at the lower end of the third motor 35, the second linkage telescopic column 52 is rotatably connected in the processing box 10, a rotating disc 53 is fixedly arranged at the lower end of the second linkage telescopic column 52, a discharge hole 51 is connected between the periphery of the rotating disc 53 and the centrifugal cavity 49, a painting block 66 is fixedly arranged below the rotating disc 53 in the processing box 10, a plurality of painting blocks 55 are fixedly arranged at the upper end inside the painting block 66, a stirring column 57 is rotatably arranged in the painting block 55, a painting cavity 56 is arranged below the stirring column 57 in the painting block 55, a control blanking hole 54 is connected above the stirring column 57 and the rotating disc 53, and a plurality of telescopic brush blocks 58 are slidably arranged at two sides of the painting block 66.

Further, with reference to fig. 1-11, a plurality of painting rotating columns 59 are rotatably disposed below the painting block 55 in the painting block 66, a feeding cavity 60 is disposed in each painting rotating column 59, a plurality of feeding rods 61 are slidably disposed in the circumferential direction of each painting rotating column 59, a feeding valve 78 is disposed between each feeding cavity 60 and each painting rotating column 59 in external connection, a plurality of painting rotating columns 62 are slidably disposed in the circumferential direction of each painting rotating column 59, a plurality of discharging balls 63 are fixedly disposed in each feeding cavity 60, a pressing plate 64 is slidably disposed in each discharging ball 63, a discharging cavity 65 is connected with each feeding cavity 60 in each discharging ball 63, and each discharging cavity 65 is connected with each painting rotating column 62 in internal connection.

Further, with reference to fig. 1-11, the drying component 14 includes drying blocks 68, the drying blocks 68 are fixed on two side walls of the processing box 10, a heating cavity 70 is provided in the drying blocks 68, a heating block 69 is fixedly provided in the heating cavity 70, two air inlets 75 are provided on two sides of the heating cavity 70 and outside of the drying blocks 68, a vibration plate 72 is slidably provided at the upper end of the drying blocks 68, a telescopic block 71 is fixedly provided between the vibration plate 72 and the drying blocks 68, a drying cavity 74 is provided in the vibration plate 72, the drying cavity 74 and the heating cavity 70 are connected and provided with a connecting channel 73, and the vibration plate 72 slides up in the drying blocks 68 and then is connected with the heating cavity 70 and the drying cavity 74 through the connecting channel 73.

Principle of operation

S1, steel is processed, the feeding sliding plate 17 slides open in the processing box 10, the steel is placed at the upper end of the feeding conveying mechanism 15, the feeding conveying mechanism 15 starts the steel to be conveyed into the processing box 10, the steel enters the processing block 18 through the inclined block at one end of the processing block 18, the second motor 19 starts the first linkage telescopic column 20 to telescopically push the grinding block 21 to grind and remove burrs and iron rust on the surface of the steel, and the ground powder rotates through the rotating block 22 to enter the storage cavity 23 to be stored.

S2, chemical impurity removal, wherein steel enters a chemical solution through the partition plate 24, the telescopic clamp plate 25 stretches to clamp the steel, the linkage motor 77 is started to drive the linkage cylinder 26 to rotate, the linkage cylinder 26 rotates to drive the rotation cylinder 27 to rotate through the linkage shaft 29, the rotation cylinder 27 rotates to drive the telescopic scraping rod 28 to rotate, the telescopic scraping rod 28 rotates to enable the chemical solution in the solution cavity 30 to enter the linkage cylinder 26 to remove impurities from the steel, the chemical solution flows through a circulation flow channel to discharge generated substances, and the steel is wiped dry through stretching of the wiping clamp plate 31 after chemical impurity removal.

S3: and (3) treating the coating, namely putting the fireproof coating into the feeding hopper 33, controlling the feeding rotating shaft 34 to rotate to enable the fireproof coating to fall into the grinding cylinder 37, and starting the third motor 35 to rotate through the linkage column 36 to drive the grinding cylinder 37 to rotate so as to fully mix the fireproof coating.

S4: grinding coating, grinding post 39 rotates on flexible post 38, grinding post 39 rotates and drives broken fragment 42 to rotate and carry out the breakage to fire retardant coating, the dust that the breakage produced is inhaled in the chamber 40 of breathing in through inlet channel 41, grinding post 39 rotates and drives grinding block 43 normal running fit grinding vessel 37 and rotate and grind fire retardant coating, fire retardant coating falls to feed hopper 33 in through unloading hole 45 after grinding, unload in hole 45 blocks up and slide in grinding block 43 through anti-blocking piece 44 and dredge unloading hole 45, linkage post 36 rotates and drives connecting block 47 through movable block 46 slip drive, connecting block 47 rotates and drives flexible piece 48 roll-off of scraping, slide back to connecting block 47 through flexible piece 48 after movable block 46 slips back in evenly scraping fire retardant coating in centrifugal chamber 49 through feed inlet 50 and scrape centrifugal chamber 49 in, linkage post 36 rotates and drives fire retardant coating in centrifugal chamber 49 and mixes into appropriate amount of water and mixes and carries out fire retardant coating.

S5: spray paint, fall down the rolling disc 53 top to fire prevention painting through discharge gate 51, steel enters into in the painting piece 66, the flexible post 52 of second linkage rotates and drives the rolling disc 53 and rotate, enter into the spraying chamber 56 to fire prevention painting when control unloading hole 54 aims at spraying paint piece 55 in, stirring post 57 rotates and drives the even steel surface that falls of fire prevention painting in the spraying chamber 56, linkage motor 77 starts and drives steel rotation through wiping splint 31 to steel one end centre gripping, make fire prevention painting spout the surface of steel.

S6: brushing paint, the flexible brush piece 58 of steel normal running fit brushes fire prevention painting on the steel evenly, brushing paint rotates the post 59 and rotates and drives feed rod 61 and rotate and enter into feed cavity 60 through advancing valve 78 the coating of whereabouts, fire prevention painting in the feed cavity 60 enters into ejection of compact chamber 65 in ejection of compact ball 63, clamp plate 64 slides in ejection of compact ball 63 and extrudes fire prevention painting and enter into brush piece 62, brushing paint rotates the post 59 and rotates and drives brush piece 62 normal running paint extrusion even rotation in the brush piece 62 and brush the steel surface.

And S7, drying, wherein the steel material moves to the upper end of the drying block 68, air enters the heating cavity 70 through the air inlet 75, the heating block 69 is heated, the air is heated and expanded to drive the vibration plate 72 to slide upwards in the drying block 68, the vibration plate 72 slides upwards to enable the connecting channel 73 to be connected with the heating cavity 70 and the drying cavity 74, and hot air in the heating cavity 70 enters the drying cavity 74 through the connecting channel 73 to perform vibration drying on the paint on the surface of the steel material.

S8: taking out, the discharging sliding plate 76 is opened in the processing box 10 in a sliding manner, the steel is moved to the upper end of the discharging conveying mechanism 67, and the discharging conveying mechanism 67 is started to move the steel coated with the fireproof coating out of the processing box 10 for use.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The fireproof paint spraying equipment and the paint spraying method thereof are characterized by comprising the following steps:

step S1-S8 adopt a fire retardant paint spraying apparatus cooperation to accomplish, and this fire retardant paint spraying apparatus is including processing case (10), processing case (10) are removed and are equipped with processing part (11) and polish to steel and get rid of impurity and chemical edulcoration, processing case (10) middle upper end is equipped with production part (12) and stirs grinding formation fire retardant paint to fire retardant paint, production part (12) below is equipped with painting part (13) and evenly sprays paint and the mopping is even to steel, painting part (13) are kept away from processing part (11) one end and are equipped with stoving part (14) and shake stoving qualitative to the fire retardant paint on steel surface, processing case (10) are equipped with feeding transport mechanism (15) to processing part (11) one side, processing case (10) are equipped with feeding slide (17) to feeding transport mechanism (15) one end slip, the drying device is characterized in that a discharging conveying mechanism (67) is arranged at one end, facing the drying part (14), of the processing box (10), and a discharging sliding plate (76) is arranged at one end, facing the discharging conveying mechanism (67), of the processing box (10) in a sliding mode.

2. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 1, wherein: the processing component (11) comprises a processing block (18), a linkage cylinder (26) is rotatably arranged in the middle of the processing block (18), the processing block (18) is positioned in the direction from the processing box (10) to the feeding conveying mechanism (15), two second motors (19) are fixedly arranged at the upper end and the lower end of one side of the processing block (18) towards the feeding sliding plate (17), two first linkage telescopic columns (20) are fixedly arranged in the middle direction of the two second motors (19) towards the processing block (18), the two first linkage telescopic columns (20) penetrate through the linkage cylinder (26) to be rotatably connected, two polishing blocks (21) are fixedly arranged on the two first linkage telescopic columns (20) towards the middle direction of the linkage cylinder (26), one side of the second motor (19) is provided with two rotating blocks (22) on the linkage cylinder (26) in a rotating way, a storage cavity (23) is arranged in the processing block (18) below the rotating block (22).

3. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 2, wherein: a plurality of flexible splint (25) are equipped with in the slip of linkage section of thick bamboo (26) both sides, the slip of both sides is equipped with two baffle (24) in the middle of linkage section of thick bamboo (26), the periphery is equipped with a rotation section of thick bamboo (27) in the middle of linkage section of thick bamboo (26), it is equipped with a plurality of universal driving shafts (29) to rotate to link between section of thick bamboo (27) and linkage section of thick bamboo (26), it scrapes pole (28) evenly to have set firmly a plurality of flexibles on rotation section of thick bamboo (27) outer periphery, it is equipped with solution chamber (30) to rotate a section of thick bamboo (27) periphery in processing piece (18), linkage section of thick bamboo (26) are kept away from on feeding slide (17) direction circumference wall and are cleaned splint (31) and are slided and are equipped with a plurality of splint (31) of cleaning, linkage section of thick bamboo (26) lower extreme linkage is equipped with linkage motor (77), linkage motor (77) are at processing piece (18) internal rotation connection.

4. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 3, wherein: production part (12) is including production section of thick bamboo (32), production section of thick bamboo (32) are located processing case (10) upper end, the inside upper end of production section of thick bamboo (32) has set firmly feed hopper (33), feed hopper (33) lower extreme rotates and is equipped with unloading axis of rotation (34), production section of thick bamboo (32) below has set firmly third motor (35) in processing case (10), third motor (35) upper end has set firmly linkage post (36), linkage post (36) are at processing case (10) and production section of thick bamboo (32) internal rotation connection, production section of thick bamboo (32) inside top has set firmly grinding vessel (37) on linkage post (36) outer periphery.

5. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 4, wherein: a plurality of telescopic columns (38) are fixedly arranged on the linkage column (36) in the circumferential direction, one ends, far away from the linkage column (36), of the telescopic columns (38) are rotatably provided with grinding columns (39), air suction cavities (40) are arranged in the grinding columns (39), a plurality of air inlet channels (41) are connected with the outer portions of the grinding columns (39) in a connected mode, a plurality of broken fragments (42) are arranged on the grinding columns (39) in a sliding mode in the circumferential direction, a plurality of grinding blocks (43) are uniformly arranged on the grinding columns (39) in a sliding mode in the circumferential direction, anti-blocking blocks (44) are arranged on one ends, far away from the grinding columns (39), of the grinding blocks (43) in a sliding mode, a plurality of blanking holes (45) are formed in the lower end of the grinding cylinder (37), a plurality of moving blocks (46) are arranged on the outer circumferential surface of the linkage column (36) in a sliding mode below the grinding cylinder (37), and connecting blocks (47) are arranged on one ends, far away from the linkage column (36), of the moving blocks (46) in a sliding mode, one end, far away from the moving block (46), of the connecting block (47) is provided with a telescopic scraping block (48) in a sliding mode, a centrifugal cavity (49) is arranged in the linkage column (36), and the centrifugal cavity (49) is connected with the inner portion of the production cylinder (32) and provided with a feeding hole (50).

6. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 5, wherein: the painting part (13) comprises a second linkage telescopic column (52), the second linkage telescopic column (52) is located at the lower end of a third motor (35), the second linkage telescopic column (52) is connected in a processing box (10) in a rotating mode, a rotating disc (53) is fixedly arranged at the lower end of the second linkage telescopic column (52), a discharge hole (51) is formed between the periphery of the rotating disc (53) and a centrifugal cavity (49) in a connecting mode, a painting block (66) is fixedly arranged in the processing box (10) below the rotating disc (53), a plurality of painting blocks (55) are fixedly arranged at the upper end of the inner portion of the painting block (66), a stirring column (57) is rotatably arranged in the painting block (55) below the stirring column (57), a painting cavity (56) is formed in the spraying block (55) below the stirring column (57), a material discharging control hole (54) is formed in the upper portion of the stirring column (57) and the rotating disc (53) in a connecting mode, a plurality of telescopic brush blocks (58) are arranged on two sides of the paint coating block (66) in a sliding mode.

7. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 6, wherein: spout lacquer piece (55) below and be equipped with a plurality of mopping rotation post (59) in painting piece (66) internal rotation, the mopping rotates and is equipped with feeding chamber (60) in post (59), the mopping rotates post (59) circumferencial direction slip and is equipped with a plurality of feeding rod (61), feeding chamber (60) rotates post (59) external connection with the mopping and is equipped with inlet valve (78), the mopping rotates post (59) circumferencial direction slip and is equipped with a plurality of brush piece (62), feeding chamber (60) internal fixation has a plurality of play material ball (63), it is equipped with clamp plate (64) to slide in play material ball (63), it is equipped with out material chamber (65) to be connected with feeding chamber (60) in play material ball (63), play material chamber (65) and brush piece (62) internal connection.

8. The fireproof paint spraying apparatus and the fireproof paint spraying method according to claim 7, wherein: drying unit (14) is including drying block (68), drying block (68) is fixed on processing case (10) both sides wall, be equipped with in drying block (68) and heat chamber (70), heating chamber (70) internal fixation has heating block (69), heating chamber (70) both sides are equipped with two air inlets (75) with drying block (68) external connection, drying block (68) upper end slides and is equipped with vibrations board (72), it has flexible piece (71) to be connected between vibrations board (72) and drying block (68) to set firmly, be equipped with stoving chamber (74) in vibrations board (72), stoving chamber (74) are connected with heating chamber (70) and are equipped with interface channel (73), heating chamber (70) and stoving chamber (74) are connected to vibration board (72) connection channel (73) after drying block (68) internal sliding.