CN115138257A - Spraying paint vehicle mixing stirring device - Google Patents

Abstract

The invention discloses a paint spraying and mixing device, which relates to the field of automatic equipment production and comprises a stirring barrel, a stirring barrel cover, a discharge port, an oil inlet and a powder inlet which are fixedly arranged on the stirring barrel, wherein motor supports are fixedly arranged on the oil inlet and the powder inlet, a plurality of adjusting supports are fixedly arranged on the stirring barrel, a plurality of supports and a plurality of grooves are arranged on the adjusting supports, a coarse stirring part is arranged on the stirring barrel cover, a fine stirring part is concentrically arranged on the stirring barrel, and an adjusting part is arranged on the fine stirring part.

Description

Spraying paint vehicle mixing stirring device

Technical Field

The invention relates to the field of paint production, in particular to a spraying paint mixing and stirring device.

Background

The production of metal materials requires a large amount of resources and is most easily corroded by the external environment, and the current society has a plurality of methods for protecting metals, and most conveniently, paint is sprayed undoubtedly and is also used in various industries. However, the requirement for paint spraying is higher while the times are developing, the material mixing uniformity in the material mixing and paint forming process is the key for good and bad finished paint, the problem that the material mixing and paint forming is uneven at present is that the paint material is agglomerated during stirring, particularly the metal powder paint material, if the agglomeration problem is not solved, the quality of the finished paint is greatly reduced, and even the finished paint cannot be used, so that waste is caused.

The patent with publication number CN105080413B in the prior art discloses a paint heating and stirring device, which comprises a container, wherein a vertical partition plate is arranged in the container to form a stirring area and a mixing area, a plurality of through holes are formed in the partition plate, an upper cover is arranged on the stirring area, a motor is arranged on the upper cover, the motor is connected with a stirring shaft arranged in the stirring area, stirring blades are arranged on the stirring shaft, and a feeding hole is formed in the side part of the upper cover; the outer wall of the container is sequentially provided with a heating layer, a heat storage layer and a heat preservation layer from inside to outside, and the heating and stirring device has the advantages of being capable of heating and stirring and being uniform in mixing, but the problems are not solved by the prior art.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the problem of agglomeration in the paint stirring and mixing process is solved.

Aiming at the technical problems, the invention adopts the technical scheme that: the utility model provides a spraying paint vehicle mixing stirring device, includes agitator, stirring bung and fixed mounting bin outlet, oil entry, powder entry, fixed mounting motor support on oil entry and the powder entry, the agitator on the fixed mounting several adjust the support, the regulation support on have a plurality of support and a plurality of notch, the agitator cover on be provided with thick stirring part, be provided with smart stirring part on the agitator with one heart, be provided with adjusting part on the smart stirring part, adjusting part be provided with landing slab, turning block, guide rail groove post, rotate the installation dwang on the turning block, guide rail groove post on fixed mounting have last ejector pad, lower ejector pad, dwang and last ejector pad form the cooperation, the dwang becomes the cooperation with pushing down, the turning block both sides fixed mounting swivel mount respectively, the landing slab on the slip square piece, swivel mount and slip square piece sliding connection, the slip square piece on the fixed connection sliding shaft.

Furthermore, the sliding shaft is fixedly connected with the supporting block I, the supporting block I is connected with the rotating shaft I in a sliding mode, the guide rail cylinder is fixedly installed on the stirring barrel, the sliding wafer is installed on the guide rail cylinder in a sliding mode, the guide rail slider is fixedly connected to the sliding wafer, the guide rail groove column is connected with the guide rail slider in a sliding mode, the supporting block I is matched with the sliding wafer, and the supporting block I is installed on the adjusting support in a sliding mode.

Furthermore, rotation axis I rotate and install on the support of adjusting the support, sliding mounting supporting shoe II on rotation axis I, supporting shoe II and adjusting the support slidable mounting, sliding mounting rotation axis II on supporting shoe II, rotation axis II rotates and installs on the support of adjusting the support, rotation axis II go up sliding mounting supporting shoe III, supporting shoe III slidable mounting is on adjusting the support, sliding mounting rotation axis III on supporting shoe III, rotation axis III rotates and installs on the support of adjusting the support, rotation axis III go up sliding mounting supporting shoe IV, supporting shoe IV slidable mounting is on adjusting the support.

Furthermore, the agitator lid on rotate the installation ring gear, thick stirring part on be provided with motor, gear, (mixing) shaft, motor support and motor fixed connection, gear and agitator lid rotate to be connected, the motor drives several gear revolve, gear and ring gear meshing, fixed connection drive shaft on the motor, the drive shaft passes through the belt and is connected with the agitator shaft, fixed connection stirring leaf on the (mixing) shaft makes stirring leaf revolution limit rotation carry out thick stirring through the rotation of motor.

Further, the agitator on fixed connection fixed sieve section of thick bamboo, fixed sieve section of thick bamboo on the fixed rotary drum of fixed connection, the landing slab and fixed rotary drum fixed connection, fixed sieve section of thick bamboo on the sliding connection sliding cylinder, fixed connection sliding cylinder piece on the sliding cylinder, fixed connection upper spring, lower spring on the sliding cylinder piece, the sliding disk of upper spring other end fixed connection, lower spring other end fixed connection agitator, the sliding cylinder form the cooperation with supporting shoe III, supporting shoe IV, supporting shoe II respectively.

Furthermore, the drive shaft on fixed connection driven shaft, there are several long round pins on the driven shaft, the driven shaft on slidable mounting centrifugal blade, centrifugal blade go up to rotate the installation and inhale the material sliding barrel, inhale fixed mounting guide rail groove post on the material sliding barrel, centrifugal blade on fixed mounting have the guide block, centrifugal blade is last to rotate installation fixed guide lead screw, the guide block form the cooperation with the fixed guide lead screw, the inside cavity of driven shaft and fixed guide lead screw swing joint.

Furthermore, an upper conical cylinder is fixedly connected to the centrifugal blade, a lower screen cylinder is fixedly connected to the stirring barrel, a lower conical cylinder is fixedly connected to the lower screen cylinder, and the outer conical surface of the upper conical cylinder is matched with the inner conical surface of the lower conical cylinder.

Furthermore, a plurality of sealing sheet guide rails are fixedly installed on the material suction sliding cylinder, sealing sheets are fixedly installed on the sealing sheet guide rails, sealing sheet springs are fixedly connected to the sealing sheets, and the other ends of the sealing sheet springs are fixedly connected to the material suction sliding cylinder.

Compared with the prior art, the invention has the beneficial effects that: (1) The rough stirring part is used for pretreatment, and the fine stirring part is used for eliminating the problem of paint agglomeration, so that the paint forming quality is improved; (2) Through rough mixing and the lower part of fine mixing spout the material and make metal powder can not sink the end, but is gushed and upwards carried out the mixing stirring once more, improved the compounding quality.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic sectional structure diagram of the adjusting part.

Fig. 5 is a partially enlarged view of C in fig. 2.

Fig. 6 is a partially enlarged view of a portion B in fig. 2.

FIG. 7 is a schematic view of the internal structure of the present invention.

FIG. 8 is a schematic view of a partial structure of a fine stirring member.

FIG. 9 is a schematic sectional view of a fine stirring member.

FIG. 10 is a partial schematic structural view of a fine stirring member.

Fig. 11 is a partially enlarged view of fig. 10 at D.

Fig. 12 is a schematic view of a fixed guide rail screw structure.

Reference numbers: 101-a stirring barrel; 102-stirring barrel cover; 103-a motor support; 104-a discharge outlet; 105-an oil inlet; 106-powder inlet; 107-ring gear; 108-adjusting the stent; 201-a motor; 202-gear; 203-a stirring shaft; 204-a belt; 205-stirring blade; 206-a drive shaft; 207-driven shaft; 208-a stationary drum; 209-fixed screen cylinder; 210-a sliding cylinder block; 211-a sliding cylinder; 301-a platform plate; 302-a turret; 303-sliding square sheet; 304-a sliding shaft; 305-a turning block; 306-guide rail slot columns; 307-rotating rods; 308-guide rail cylinder; 309-push-up block; 310-pushing down the block; 311-a support block I; 312-rotating shaft I; 313-upper spring; 314-a lower spring; 315-support block iii; 316-rotating shaft III; 317-supporting block IV; 318-sliding the disc; 319-support block II; 320-rotating shaft II; 321-a guide rail slide block; 401-suction sliding cylinder; 402-centrifugal blades; 403-lower cone; 404-lower screen drum; 405-fixed guide rail screws; 406-a sealing sheet; 407-a mounting rail; 408-a flap spring; 409-upper cone; 410-guide block.

Detailed Description

The technical scheme of the invention is further explained by the specific embodiment in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, 2 and 6, a stirring barrel cover 102 is rotatably mounted on a stirring barrel 101, a discharge port 104, an oil inlet 105 and a powder inlet 106 are fixedly mounted on the stirring barrel 101, a motor support 103 is fixedly mounted on the oil inlet 105 and the powder inlet 106, a motor 201 is fixedly connected to the motor support 103, a gear ring 107 is rotatably mounted on the stirring barrel cover 102, the motor 201 is meshed with a plurality of gears 202 for transmission, the gears 202 are meshed with the gear ring 107, a driving shaft 206 is fixedly connected to the motor 201, two groups of stirring shafts 203 are connected with the driving shaft 206 through a belt 204, a driven shaft 207 is fixedly connected to the driving shaft 206, a stirring blade 205 is fixedly connected to the stirring shaft 203, the driven shaft 207 rotates when the motor 201 is started, the stirring blade 205 rotates while revolving, a fixed sieve barrel 209 is fixedly connected to the stirring barrel 101, a plurality of feed inlets are arranged at the upper end of the fixed sieve barrel 209, a fixed sieve barrel 208 is fixedly connected to the fixed sieve barrel 211, a sliding barrel 211 is fixedly connected to the sliding barrel 211, and the part of the fixed barrel 209 covered by the sliding barrel 211 cannot communicate with the external sieve duct.

As shown in fig. 3 and 4, a rotating block 305 is rotatably connected to the fixed rotating cylinder 208, a rotating rod 307 is rotatably connected to the rotating block 305, a set of rotating frames 302 are fixedly connected to both sides of the rotating block 305, respectively, the rotating frames 302 slide on the sliding square pieces 303, the sliding square pieces 303 are slidably connected to the platform plate 301, the sliding shafts 304 are fixedly connected to the sliding square pieces 303, the platform plate 301 is fixedly connected to the fixed rotating cylinder 208, the guide rail grooved columns 306 are fixedly connected to the suction sliding cylinders 401, the guide rail grooved columns 306 are fixedly connected to the upper push blocks 309 and the lower push blocks 310, when the guide rail grooved columns 306 descend, the lower push blocks 310 press the upper push rods of the rotating rods 307 to rotate the rotating rods 307, and drive the rotating block 305 to rotate to displace the rotating block 302, and the displacement of the rotating frame 302 displaces the sliding shafts 304 fixedly connected to the sliding square pieces 303 to displace.

As shown in fig. 5, the sliding shaft 304 is fixedly connected with a supporting block i 311, the supporting block i 311 is slidably connected with a rotating shaft i 312, the supporting block i 311 is slidably connected with the adjusting bracket 108, the stirring barrel 101 is fixedly connected with a guide rail cylinder 308, the guide rail cylinder 308 is slidably connected with a sliding disc 318, the sliding disc 318 is fixedly connected with a guide rail slider 321, the guide rail slider 321 is slidably connected with the guide rail groove column 306, when the sliding shaft 304 is displaced, the supporting block i 311 slides on the adjusting bracket 108 to support or disconnect the sliding disc 318, and when the guide rail groove column 306 rises, the guide rail slider 321 can be driven to rise together, that is, the sliding disc 318 is driven to rise.

As shown in fig. 6 and 7, the rotating shaft i 312 is rotatably connected with the bracket of the adjusting bracket 108, a supporting block ii 319 is slidably mounted on the rotating shaft i 312, the supporting block ii 319 is slidably mounted with the adjusting bracket 108, a rotating shaft ii 320 is slidably mounted on the supporting block ii 319, the rotating shaft ii 320 is rotatably mounted on the bracket of the adjusting bracket 108, a supporting block iii 315 is slidably mounted on the rotating shaft ii 320, the supporting block iii 315 is slidably mounted on the adjusting bracket 108, a rotating shaft iii 316 is slidably mounted on the supporting block iii 315, the rotating shaft iii 316 is rotatably mounted on the bracket of the adjusting bracket 108, a supporting block iv 317 is slidably mounted on the rotating shaft iii 316, the supporting block iv 317 is displaced by the rotation of the rotating shaft i 312, the directions of displacement of the supporting block iii 317 and the supporting block iv are opposite, and the minimum distance between the two groups of supporting blocks iii 315 is smaller than the minimum distance between the two groups of supporting blocks iv 317, the supporting block II 319 is used for converting the movement direction, the sliding cylinder block 210 is fixedly connected with an upper spring 313 and a lower spring 314, the other end of the upper spring 313 is fixedly connected with a sliding wafer 318, the other end of the lower spring 314 is fixedly connected with the stirring barrel 101, when the supporting block I311 loosens the supporting sliding wafer 318, the sliding wafer 318 approaches to the stirring barrel 101 under the action of the upper spring 313, meanwhile, the rotating shaft I312 rotates due to the displacement of the supporting block I311, namely, the distance between the two groups of supporting blocks III 315 gradually increases, the distance between the two groups of supporting blocks IV 317 gradually decreases, after the supporting block III 315 is loosened, the sliding cylinder block 210 is pulled downwards by the lower spring 314, at the moment, the distance between the two groups of IV supporting blocks 317 cannot clamp the sliding cylinder block 210, namely, the sliding cylinder block 210 slides downwards across the upper end face of the supporting block IV 317 until the lower end face of the supporting block IV 317 is overlapped with the upper end face of the sliding cylinder 210, when the rotating shaft iii 316 moves upward, because the lower end surface of the supporting block iv 317 presses the upper end surface of the sliding cylinder block 210, at this time, the sliding wafer 318 moves upward against the elastic force of the upper spring 313, and then the upper pushing block 309 drives the lower pushing rod on the rotating rod 307 to rotate, so that the supporting block i 311 moves, the supporting block iv 317 moves away from the guide rail cylinder 308, the supporting block iii 315 moves close to the guide rail cylinder 308, the upper end surface of the sliding cylinder block 210 firstly passes through the supporting block iv 317 and then passes through the supporting block iii 315, so that the lower end surface of the sliding cylinder block 210 is attached to the upper end surface of the supporting block iii 315, and at this time, the supporting block iii 315 provides support for the sliding cylinder block 210, so that the sliding cylinder block 210 cannot move downward.

As shown in fig. 2, 8, 9, 10, 11, 12, the driven shaft 207 is fixedly connected to the driving shaft 206, the driven shaft 207 is provided with a plurality of long pins, the driven shaft 207 is slidably connected with the centrifugal blade 402, the centrifugal blade 402 is rotatably connected with the material suction sliding barrel 401, the centrifugal blade 402 is rotatably connected with the fixed guide rail lead screw 405, the fixed guide rail lead screw 405 is provided with a bidirectional thread groove, the centrifugal blade 402 is fixedly connected with the guide block 410, the guide block 410 slides on the fixed guide rail lead screw 405, the driven shaft 207 is hollow and coaxially arranged with the fixed guide rail lead screw 405, the fixed guide rail lead screw 405 is fixedly connected to the stirring barrel 101, the centrifugal blade 402 is fixedly connected with the upper cone barrel 409, the upper cone barrel 409 reciprocates up and down through the rotation of the driven shaft 207, when the upper cone barrel 409 moves to the lowest end, the outer cone surface of the upper cone barrel is attached to the inner cone surface of the lower cone barrel 403, the lower cone barrel 404 is fixedly connected with the stirring barrel 101, the lower cone barrel 403 is fixedly connected with the fixed cone barrel 403, the paint powder is sprayed out through the centrifugal blade 402, the centrifugal powder mixing barrel 209 and the centrifugal powder spraying barrel 209, the centrifugal powder spraying barrel is sprayed out through the centrifugal powder spraying barrel 209, the centrifugal blade 402, the centrifugal powder spraying barrel 409 is uniformly.

As shown in fig. 9, a plurality of sealing guide rails 407 are fixedly installed on the material suction sliding cylinder 401, a sealing sheet 406 is fixedly installed on the sealing guide rails 407, a hole corresponding to the sealing sheet 406 is formed in the material suction sliding cylinder 401, the diameter of the hole is smaller than that of the sealing sheet 406, a sealing sheet spring 408 is fixedly connected to the sealing sheet 406, the other end of the sealing sheet spring 408 is fixedly connected to the material suction sliding cylinder 401, when the material suction sliding cylinder 401 moves downward, the sealing sheet 406 does not move, when the material suction sliding cylinder 401 moves upward, the sliding cylinder 211 blocks the hole channel of the fixed screen cylinder 209, so that the lower portion of the material suction sliding cylinder 401 is vacuum, and the sealing sheet spring 408 is compressed by air pressure, so that oil on the upper portion of the material suction sliding cylinder 401 enters the lower portion of the material suction sliding cylinder 401.

The working principle is as follows: adding a proper amount of lacquer oil at an oil inlet 105, starting a motor 201 to enable the device to operate, adding lacquer powder at a powder inlet 106, wherein the lacquer powder floats on the upper layer, stirring blades 205 rotate while revolving to stir the lacquer powder preliminarily, a guide rail groove column 306 moves downwards along with the rotation of a driven shaft 207, a sliding cylinder 211 does not block a pore passage on a fixed screen cylinder 209 corresponding to the height of the lower screen cylinder 404, finely stirred lacquer is discharged through the lower screen cylinder 404 when a material sucking sliding cylinder 401 descends, and then is discharged to a rough stirring area through the lower part of the fixed screen cylinder 209, a lower push block 310 on the guide rail groove column 306 enables a rotating rod 307 to rotate when an outer conical surface of an upper conical cylinder is to be attached to an inner conical surface of the lower conical cylinder 403, so that a sliding disc 318 is slowly released by a supporting block I311, a sliding disc 210 is slowly released by a supporting block 315 III, and a mesh passage on the fixed screen cylinder 209 corresponding to the lower screen cylinder 404 is blocked by the downward displacement of the sliding cylinder 211, sealing a cavity between the material suction sliding cylinder 401 and the lower screen cylinder 404, then lifting the material suction sliding cylinder 401, pressing the sliding cylinder block 210 by the supporting block IV 317 to make the cavity between the material suction sliding cylinder 401 and the lower screen cylinder 404 always sealed, sucking the paint from the sealing sheet 406, finely stirring the paint by the movement of the centrifugal blade 402, when the material suction sliding cylinder 401 is about to rise to the vertex, pushing the lower push rod of the rotating rod 307 by the upper push block 309 to make the rotating block 305 reverse, making the supporting block I311 gradually approach to the guide rail cylinder 308 by the rotation of the rotating block 305, meanwhile, the supporting block IV 317 is far away from the guide rail cylinder 308, the supporting block III is close to the guide rail cylinder 308, the sliding cylinder block 210 moves upwards, then the material suction sliding cylinder 401 moves downwards again to press the paint out from the lower screen cylinder 404 again, and the supporting block III 315 provides support for the sliding cylinder block 210, support block I311 provides support for sliding wafer 318, and the paint material is made to be thoroughly mixed through a certain period of work, and then discharged through discharge opening 104.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (8)

1. The utility model provides a spraying paint vehicle mixing stirring device, includes agitator (101), stirring bung (102) and fixed mounting bin drain hole (104), oil entry (105), powder entry (106) on agitator (101), fixed mounting motor support (103) on oil entry (105) and powder entry (106), its characterized in that: agitator (101) on fixed mounting several adjust support (108), adjust support (108) on have a plurality of support and a plurality of notch, stirring bung (102) on be provided with thick stirring part, agitator (101) go up the concentric smart stirring part that is provided with, be provided with adjusting part on the smart stirring part, adjusting part be provided with landing slab (301), turning block (305), guide rail groove post (306), turning block (305) on rotatable mounting dwang (307), guide rail groove post (306) on fixed mounting have last pushing shoe (309), lower pushing shoe (310), dwang (307) and last pushing shoe (309) form the cooperation, dwang (307) and lower pushing shoe (310) form the cooperation, fixed mounting rotating turret (302) respectively is fixed mounting rotating turret (305) both sides, landing slab (301) on slidable mounting slip square piece (303), rotating turret (302) and slip square piece (303) sliding connection, slip square piece (303) on fixed connection sliding shaft (304).

2. A paint spraying mixing and blending apparatus as claimed in claim 1, wherein: the slide shaft (304) and I (311) fixed connection of supporting shoe, sliding connection axis of rotation I (312) on supporting shoe I (311), agitator (101) on fixed mounting guide rail cylinder (308), sliding mounting slip disk (318) on guide rail cylinder (308), fixed connection guide rail slider (321) on the slip disk (318), guide rail groove post (306) and guide rail slider (321) sliding connection, I (311) of supporting shoe and slip disk (318) form the cooperation, I (311) sliding mounting of supporting shoe is on adjusting support (108).

3. A paint spraying mixing and blending apparatus as claimed in claim 2, wherein: the rotating shaft I (312) is rotatably installed on a support of an adjusting support (108), a supporting block II (319) is slidably installed on the rotating shaft I (312), the supporting block II (319) and the adjusting support (108) are slidably installed, a rotating shaft II (320) is slidably installed on the supporting block II (319), the rotating shaft II (320) is rotatably installed on the support of the adjusting support (108), a supporting block III (315) is slidably installed on the rotating shaft II (320), a supporting block III (315) is slidably installed on the adjusting support (108), a rotating shaft III (316) is slidably installed on the supporting block III (315), the rotating shaft III (316) is rotatably installed on the support of the adjusting support (108), a supporting block IV (317) is slidably installed on the rotating shaft III (316), and a supporting block IV (317) is slidably installed on the adjusting support (108).

4. A paint spray mixing and blending apparatus as claimed in claim 1, wherein: the stirring barrel cover (102) is rotatably provided with a gear ring (107), a motor (201), a gear (202) and a stirring shaft (203) are arranged on the rough stirring component, a motor support (103) is fixedly connected with the motor (201), the gear (202) is rotatably connected with the stirring barrel cover (102), the motor (201) drives a plurality of gears (202) to rotate, the gears (202) are meshed with the gear ring (107), the motor (201) is fixedly connected with a driving shaft (206), the driving shaft (206) is connected with the stirring shaft (203) through a belt (204), the stirring shaft (203) is fixedly connected with stirring blades (205), and the stirring blades (205) are rotated while revolving to perform rough stirring through the rotation of the motor (201).

5. A paint spraying mixing and blending apparatus as claimed in claim 3, wherein: agitator (101) on fixed connection fixed sieve section of thick bamboo (209), fixed sieve section of thick bamboo (209) on fixed connection fixed rotary drum (208), platform board (301) and fixed rotary drum (208) fixed connection, fixed sieve section of thick bamboo (209) on sliding connection sliding cylinder (211), fixed connection sliding cylinder piece (210) are gone up in sliding cylinder (211), fixed connection spring (313), lower spring (314) are gone up in sliding cylinder piece (210), last spring (313) other end fixed connection slip disk (318), lower spring (314) other end fixed connection agitator (101), sliding cylinder (211) respectively with supporting shoe III (315), IV supporting shoe (317), supporting shoe II (319) form the cooperation.

6. A paint spraying mixing and blending apparatus as claimed in claim 4, wherein: drive shaft (206) on fixed connection driven shaft (207), driven shaft (207) on have a plurality of long round pins, driven shaft (207) on slidable mounting centrifugal blade (402), centrifugal blade (402) on the rotatable mounting inhale material sliding tube (401), inhale fixed mounting guide rail groove post (306) on material sliding tube (401), centrifugal blade (402) on fixed mounting have guide block (410), centrifugal blade (402) on the rotatable mounting fixed guide rail lead screw (405), guide block (410) and fixed guide rail lead screw (405) form the cooperation, driven shaft (207) inside cavity and fixed guide rail lead screw (405) swing joint.

7. A paint spraying mixing and blending apparatus as claimed in claim 6, wherein: an upper conical barrel (409) is fixedly connected to the centrifugal blade (402), a lower screen barrel (404) is fixedly connected to the stirring barrel (101), a lower conical barrel (403) is fixedly connected to the lower screen barrel (404), and the outer conical surface of the upper conical barrel (409) is matched with the inner conical surface of the lower conical barrel (403).

8. A paint spraying mixing and blending apparatus as claimed in claim 6, wherein: the material suction sliding cylinder (401) is fixedly provided with a plurality of sealing sheet guide rails (407), sealing sheets (406) are fixedly arranged on the sealing sheet guide rails (407), sealing sheet springs (408) are fixedly connected to the sealing sheets (406), and the other ends of the sealing sheet springs (408) are fixedly connected to the material suction sliding cylinder (401).

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