CN115282827A

CN115282827A - Stirring device for preparing high-stain-resistance exterior wall micro-diamond coating and using method thereof

Info

Publication number: CN115282827A
Application number: CN202210976797.3A
Authority: CN
Inventors: 黄志强; 陈裕建; 冯石阳; 王小琴
Original assignee: Baorunda New Material Co Ltd
Current assignee: Baorunda New Material Co Ltd
Priority date: 2022-08-15
Filing date: 2022-08-15
Publication date: 2022-11-04

Abstract

A stirring device for preparing a high-pollution-resistance outer wall micro-diamond coating comprises a supporting seat, wherein a stirring barrel is fixedly connected to the inner wall of the supporting seat, a rotatable outer rotating shaft is mounted on the inner wall of the stirring barrel, a plurality of first stirring rods are arranged on one side of the outer rotating shaft, a second stirring rod is arranged on the other side of the outer rotating shaft, and when the outer rotating shaft rotates, a structure that the plurality of first stirring rods rotate and move inwards or outwards synchronously while moving circumferentially and move up and down and the second stirring rod rotates and moves left and right while moving reciprocally can be formed; during preparation, the raw materials can be stirred horizontally and vertically, so that the raw materials are fully and uniformly fused, and the excellent micro-diamond coating is produced.

Description

Stirring device for preparing high-stain-resistance exterior wall micro-diamond coating and using method thereof

Technical Field

The invention relates to the technical field of paint preparation, in particular to a stirring device for preparing a high-stain-resistance exterior wall micro-diamond paint and a using method thereof.

Background

The nano-micro-diamond has high hardness, rich effect, excellent environmental protection performance and outstanding decorative effect, and is suitable for various places with higher requirements on the individualized decorative effect of the wall surface, such as: high-grade houses, villas, storefronts, hotels, restaurants, office buildings, schools and the like; the nano-micro-diamond has outstanding product characteristics, such as high hardness and good scratch resistance; the texture effect is strong, and the hand feeling is smooth; the application range is wide, and the product can be matched in whole house; no peeling and cracking; waterproof, dustproof, difficult to fade; the construction is convenient and fast, and the operation is easy; when the micro-diamond coating is prepared, various raw materials such as micro-silica ash powder, concrete, mineral powder and the like need to be uniformly mixed and stirred, and because the existing stirring devices which use more raw materials are not suitable when the micro-diamond coating is prepared, the micro-diamond coating has a single stirring function and cannot be stirred in various modes, the production quality of the micro-diamond coating is influenced; therefore, the stirring device for preparing the high-pollution-resistance exterior wall micro-diamond coating is designed to solve the problems mentioned above.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the stirring device for preparing the high-stain-resistance exterior wall micro-diamond coating, which can be used for horizontally and vertically stirring raw materials during preparation, so that the raw materials are fully and uniformly fused, the excellent micro-diamond coating is produced, and the problems in the background art are effectively solved.

In order to solve the problems, the invention adopts the technical scheme that:

the utility model provides a high resistant agitating unit for preparing golden stone coating of outer wall that pollutes, includes the supporting seat, supporting seat inner wall rigid coupling has the agitator, rotatable outward turning shaft is installed to the agitator inner wall, one side of outward turning shaft is equipped with a plurality of first puddlers, and the opposite side of outward turning shaft is equipped with the second puddler, can constitute a plurality of first puddlers when the outward turning shaft rotates and move the structure that removes the limit reciprocating about moving about in step to inboard or outside removal limit circumference rotation, second puddler rotates the limit reciprocating and moves about.

The outer surface of the stirring barrel is fixedly connected with a motor, the right side of the motor is fixedly connected with a first bevel gear, the lower end of the first bevel gear is meshed with a second bevel gear, and an outer rotating shaft is fixedly connected to the inner wall of the center of the second bevel gear.

The upper end of the outer surface of the outer rotating shaft is fixedly connected with a fixed star straight gear, the outer surface of the fixed star straight gear is meshed with a planetary straight gear, the inner wall of the stirring barrel is fixedly connected with a gear ring meshed with the planetary straight gear, the lower end of the planetary straight gear is coaxially and fixedly connected with a long cam, the middle of the outer surface of the outer rotating shaft is sleeved with a second supporting plate, the upper end of the second supporting plate is fixedly connected with a first sliding pin matched with the long cam, and a first stirring rod and a second stirring rod are respectively arranged on the left side and the right side of the lower end of the second supporting plate.

The inner wall of one end of the second supporting plate is rotatably connected with a first rotating shaft, the upper end of the first rotating shaft is slidably connected to the inner wall of the lower end of the long cam, a third bevel gear is fixedly connected to the lower end of the outer surface of the first rotating shaft, a fourth bevel gear is meshed with the lower end of the third bevel gear, a second rotating shaft which is rotatably connected with the second supporting plate is fixedly connected to the inner wall of the center of the fourth bevel gear, a cross plate is fixedly connected to the left side of the outer surface of the second rotating shaft, four short pins which are evenly distributed are slidably connected to the inner wall of the cross plate, the first stirring frame is fixedly connected to the corresponding short pins respectively, and a track plate which is meshed with the short pins is further fixedly connected to the lower end surface of the second supporting plate.

The right end of the outer surface of the second rotating shaft is slidably connected with a vibrating cam, a cleaning plate is fixedly connected to the surface of the right end of the vibrating cam, and a second sliding pin fixedly connected with a second supporting plate is meshed to the outer surface of the vibrating cam.

The inner wall of the middle of the second supporting plate is rotatably connected with a driving straight gear in sliding connection with the outer rotating shaft, the outer surface of the driving straight gear is meshed with an idle gear, the lower end of the idle gear is coaxially and fixedly connected with an eccentric straight gear, the outer side of the eccentric straight gear is meshed with a driven straight gear, the inner wall of the center of the driven straight gear is fixedly connected with a third rotating shaft in sliding connection with the second supporting plate, the outer surface of the third rotating shaft is rotatably connected with a limiting connecting rod, the other end of the limiting connecting rod is hinged to the inner wall of the center of the eccentric straight gear, and a second stirring shaft is fixedly connected to the lower end surface of the third rotating shaft.

First bevel gear upper end meshing has driven bevel gear, is equipped with the U-shaped seat in the agitator, and driven bevel gear rotates to be connected at U-shaped seat inner wall, and driven bevel gear center department inner wall sliding connection has interior pivot, and the outer pivot inner wall is run through to interior pivot lower extreme, and interior pivot lower extreme surface rigid coupling has two centrosymmetries and with agitator bottom inner wall matched with scraper.

The U-shaped seat upper end surface left and right sides rigid coupling respectively has the curb plate, two curb plate inner wall sliding connection have a slide, the adversion rotation of axes connects at slide lower extreme surface, slide middle part inner wall rotation is connected with the disc, disc upper end surface non-centre of a circle department articulates there is two centrosymmetric first connecting rods, two first connecting rod outside ends articulate respectively has the anticreep pad, the terminal surface of anticreep pad outside is the rigid coupling respectively has the bayonet lock, the bayonet lock surface overlaps respectively has fills up matched with spring with the anticreep that corresponds, two sets of and corresponding bayonet lock matched with draw-in grooves have been seted up respectively to two curb plate middle part inner walls.

A use method of a stirring device for preparing high-pollution-resistance exterior wall micro-diamond paint comprises the following steps:

s1, adding raw materials for preparing a micro-diamond coating into a stirring barrel, starting a motor, enabling a first stirring rod to synchronously move inwards or outwards while rotating and circumferentially move upwards and downwards, carrying out large-area transverse stirring on the raw materials in the stirring barrel, enabling a second stirring rod to rotate, move leftwards and rightwards while reciprocating and move upwards and downwards, and carrying out large-area longitudinal stirring on the raw materials in the stirring barrel;

s2 can make clear wallboard limit circumference after the motor starts rotate limit rotation limit outside to remove, cleans the agitator inner wall, can make the scraper rotate when the interior pivot rotates, and the scraper rotates and can scrape the agitator bottom inner wall clearly.

The invention has novel structure, ingenious conception and simple and convenient operation, and compared with the prior art, the invention has the following advantages:

the raw materials for preparing the micro-diamond coating are added into the stirring barrel, the motor is started, the first stirring rod can synchronously move towards the inner side or the outer side while rotating, and circularly rotate and move up and down, the raw materials in the stirring barrel are transversely stirred for a large area, the second stirring rod can rotate, move left and right while reciprocating, and move up and down, and the raw materials in the stirring barrel are longitudinally stirred for a large area; through double stirring of the first stirring rod and the second stirring rod, raw materials are prepared more uniformly, and excellent micro-diamond coating is produced; after the motor is started, the periphery of the wall cleaning plate can rotate and automatically and outwards move, the inner wall of the stirring barrel is cleaned, the scraper can rotate when the inner rotating shaft rotates, and the scraper can rotate to clean the inner wall of the bottom end of the stirring barrel; the cleaning brush of the cleaning wall plate can dispose the materials adhered in the stirring barrel, and the scraping of the scraper can clean the materials accumulated in the bottom end of the stirring barrel in time.

Drawings

FIG. 1 is an isometric view of a stirring device for preparing a high-pollution-resistance exterior wall micro-diamond coating of the invention.

Fig. 2 is a structural view of the inner part of a stirring barrel of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating.

Fig. 3 is a sectional view of a stirring barrel of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 4 is a schematic side plate installation view of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 5 is a schematic view of the installation of a driven bevel gear of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 6 is a cross-sectional view of a sliding plate of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the present invention.

Fig. 7 is a schematic view of the installation of a gear ring of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 8 is a schematic view of the installation of a spur gear of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 9 is a schematic view of the installation of the second supporting plate of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 10 is a schematic view of the installation of the track plate of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the invention.

Fig. 11 is a schematic structural view of a track plate of the stirring device for preparing the high stain-resistant exterior wall microlite coating of the invention.

Fig. 12 is a schematic view of the installation of an eccentric spur gear of the stirring device for preparing the high stain-resistant exterior wall micro-diamond coating of the present invention.

Reference numbers in the figures: 1-stirring barrel, 2-supporting seat, 3-supporting leg, 4-motor, 5-cover plate, 6-first bevel gear, 7-second bevel gear, 8-outer rotating shaft, 9-first supporting plate, 10-first limiting plate, 11-sun straight gear, 12-planet straight gear, 13-gear ring, 14-second supporting plate, 15-long cam, 16-first sliding pin, 17-first rotating shaft, 18-third bevel gear, 19-fourth bevel gear, 20-second rotating shaft, 21-oscillating cam, 22-second sliding pin, 23-clear wall plate, 24-track plate, 25-short pin, 26-cross plate, 27-first stirring rod, 28-driving straight gear, 29-idle gear, 30-eccentric straight gear, 31-limiting connecting rod, 32-driven straight gear, 33-third rotating shaft, 34-second stirring rod, 35-U-shaped seat, 36-driven bevel gear, 37-inner rotating shaft, 38-side plate, 39-disc, 40-handle, 41-connecting rod, 41-42-first connecting rod, 42-second connecting rod, 44-scraper pad, 45-spring, and anti-slip-preventing pin.

Detailed Description

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

As shown in fig. 1 to 12, the present invention provides a stirring device for preparing a highly stain-resistant exterior wall micro-diamond coating, which comprises a supporting seat 2, wherein a stirring barrel 1 is fixedly connected to the inner wall of the supporting seat 2, a rotatable outer rotating shaft 8 is installed on the inner wall of the stirring barrel 1, a plurality of first stirring rods 27 are arranged on one side of the outer rotating shaft 8, a second stirring rod 34 is arranged on the other side of the outer rotating shaft 8, and when the outer rotating shaft 8 rotates, a structure can be formed in which the plurality of first stirring rods 27 rotate while moving synchronously inward or outward and moving circumferentially and moving up and down, and the second stirring rod 34 rotates while moving reciprocally and moving left and right and moving up and down.

As shown in fig. 1-2 and 9, four uniformly distributed support legs 3 are fixedly connected to the lower end surface of the support base 2 to support the stirring barrel 1; a detachable cover plate 5 is arranged on the inner wall of the upper end of the stirring barrel 1, the cover plate 5 plays a role in sealing the stirring barrel 1, and the cover plate 5 is arranged at the upper end of the stirring barrel 1 in an interference fit manner; the stirring barrel 1 is opened by taking down the cover plate 5, the raw materials are poured into the stirring barrel 1, when the outer rotating shaft 8 rotates, the corresponding first stirring rod 27 is driven to rotate while synchronously moving towards the inner side or the outer side while circumferentially rotating and moving up and down, and the corresponding second stirring rod 34 rotates while reciprocating and moving left and right while vertically moving, so that the raw materials can be transversely and longitudinally stirred and mixed, the raw materials are more uniformly prepared, and the excellent gold-bearing coating is produced.

The outer surface of the stirring barrel 1 is fixedly connected with a motor 4, the right side of the motor 4 is fixedly connected with a first bevel gear 6, the lower end of the first bevel gear 6 is meshed with a second bevel gear 7, and an outer rotating shaft 8 is fixedly connected to the inner wall of the center of the second bevel gear 7.

As shown in fig. 1-5, the outer surface of the motor 4 is further provided with a motor 4 box fixedly connected with the stirring barrel 1 to protect the motor 4, the motor 4 is used for providing a rotating force for the outer rotating shaft 8, and the motor 4 is the prior art and is not described again; the outer surface of the outer rotating shaft 8 is also rotatably connected with a first supporting plate 9, the first supporting plate 9 is fixedly connected to the inner wall of the stirring barrel 1, and the outer rotating shaft 8 can only rotate in a limiting way; the motor 4 is started to drive the first bevel gear 6 to rotate, and the rotation of the first bevel gear 6 drives the second bevel gear 7 and the outer rotating shaft 8 to synchronously rotate through meshing.

The upper end of the outer surface of the outer rotating shaft 8 is fixedly connected with a fixed star straight gear 11, the outer surface of the fixed star straight gear 11 is meshed with a planetary straight gear 12, the inner wall of the stirring barrel 1 is fixedly connected with a gear ring 13 meshed with the planetary straight gear 12, the lower end of the planetary straight gear 12 is coaxially and fixedly connected with a long cam 15, the middle of the outer surface of the outer rotating shaft 8 is sleeved with a second supporting plate 14, the upper end of the second supporting plate 14 is fixedly connected with a first sliding pin 16 matched with the long cam 15, and a first stirring rod 27 and a second stirring rod 34 are respectively installed on the left side and the right side of the lower end of the second supporting plate 14.

As shown in fig. 7-9, a first limiting plate 10 is fixedly connected to the upper end of the outer surface of the outer rotating shaft 8, a rotating shaft is fixedly connected to the inner walls of the spur gear 12 and the long cam 15, the rotating shaft is rotatably connected to the inner wall of the first limiting plate 10, and the spur gear 12 can be always meshed with the corresponding spur gear 11 and the corresponding gear ring 13 through the limiting support of the first limiting plate 10; the outer surface of the first sliding pin 16 is fixedly connected with a supporting plate, the bottom end of the supporting plate is fixedly connected to the second supporting plate 14, as shown in fig. 9, the second supporting plate 14 is sleeved on the outer surface of the outer rotating shaft 8, and the first sliding pin 16 corresponding to the limiting position can rotate circularly along with the long cam 15 and the straight planetary gear 12, can be engaged with the long cam 15 all the time, and does not influence the up-and-down movement of the first sliding pin 16; the external rotating shaft 8 can rotate by starting the motor 4, the external rotating shaft 8 can drive the sun straight gear 11 to rotate, the sun straight gear 11 rotates and can drive the planet straight gear 12 to rotate by being meshed with the planet straight gear 12, the planet straight gear 12 can rotate and can move circularly by being meshed with the gear ring 13 when rotating, the first rotating shaft 17 is rotatably connected to the inner wall of the second supporting plate 14, the first rotating shaft 17 is slidably connected to the inner wall of the long cam 15, so that the second supporting plate 14, the first sliding pin 16, the first stirring rack and the second stirring rack which correspond to each other are driven to rotate circularly by the planet straight gear 12 when rotating circularly, the long cam 15 is driven to rotate by the planet straight gear 12, and the second supporting plate 14, the first stirring rod 27 and the second stirring rod 34 can be driven to synchronously move up and down by the long cam 15 rotating and by being meshed with the first sliding pin 16.

The inner wall of one end of the second supporting plate 14 is rotatably connected with a first rotating shaft 17, the upper end of the first rotating shaft 17 is slidably connected with the inner wall of the lower end of the long cam 15, the lower end of the outer surface of the first rotating shaft 17 is fixedly connected with a third bevel gear 18, the lower end of the third bevel gear 18 is meshed with a fourth bevel gear 19, the inner wall of the center of the fourth bevel gear 19 is fixedly connected with a second rotating shaft 20 rotatably connected with the second supporting plate 14, the left side of the outer surface of the second rotating shaft 20 is fixedly connected with a cross plate 26, the inner wall of the cross plate 26 is slidably connected with four short pins 25 which are evenly distributed, the first stirring frames are respectively and fixedly connected with the corresponding short pins 25, and the lower end surface of the second supporting plate 14 is further fixedly connected with a track plate 24 meshed with the short pins 25.

As shown in fig. 9-11, the first rotating shaft 17 is in splined connection with the long cam 15, and the first rotating shaft 17 can slide up and down on the inner wall of the long cam 15 and can rotate along with the long cam 15 when the long cam 15 rotates, so that the second supporting plate 14 can move up and down; as shown in fig. 10, a bearing seat is rotatably connected to the outer surface of the second rotating shaft 20, the bottom end of the bearing seat is fixedly connected to the lower end surface of the second supporting plate 14, and the second rotating shaft 20 is limited to rotate only; the cross plates 26, the short pins 25 and the track plates 24 are installed and shaped as shown in fig. 11, the short pins 25 can slide left and right or up and down on the inner walls of the corresponding cross plates 26, closed-loop grooves meshed with the short pins 25 are formed in the end face of one side of the track plate 24, and when the short pins 25 rotate circumferentially, the short pins 25 can be synchronously folded inwards or spread outwards through meshing with the closed-loop grooves; when the long cam 15 rotates, the first rotating shaft 17 is driven to rotate, the first rotating shaft 17 rotates to drive the third bevel gear 18, the fourth bevel gear 19 and the second rotating shaft 20 to synchronously rotate through meshing and coaxial transmission, when the second rotating shaft 20 rotates, the cross plate 26 rotates, the corresponding short pins 25 and the first stirring rods 27 are driven to synchronously and circumferentially rotate through the rotation of the cross plate 26, and when the short pins 25 rotate circumferentially, the short pins 25 and the first stirring rods 27 can synchronously move inwards or outwards through meshing with the track plate 24, so that the first stirring rods 27 can move inwards or outwards synchronously while rotating in a large circle around the outer rotating shaft 8 as the center, and the raw materials are uniformly mixed and stirred in a large range in a transverse direction.

The right end of the outer surface of the second rotating shaft 20 is slidably connected with an oscillating cam 21, a cleaning plate 23 is fixedly connected to the surface of the right end of the oscillating cam 21, and a second sliding pin 22 fixedly connected with the second supporting plate 14 is engaged on the outer surface of the oscillating cam 21.

As shown in fig. 10, the oscillating cam 21 and the second rotating shaft 20 are connected by a spline, and the oscillating cam 21 can slide left and right on the outer surface of the second rotating shaft 20 and can drive the oscillating cam 21 to rotate when the second rotating shaft 20 rotates; the oscillating cam 21, the second sliding pin 22 and the wall cleaning plate 23 are installed and have the shape 10 shown in the specification, a supporting plate is fixedly connected to the outer surface of the second sliding pin 22 and fixedly connected to a corresponding bearing seat, so that the second sliding pin 22 is indirectly fixed on the second supporting plate 14, and the wall cleaning plate 23 is used for cleaning the inner wall of the stirring barrel 1 and preventing raw materials from being attached to the inner wall; when second pivot 20 rotates, can drive and vibrate cam 21, clear wallboard 23 synchronous revolution, can clear up agitator 1 inner wall under the condition that clear wallboard 23 and agitator 1 inner wall contacted, then can drive and vibrate cam 21, clear wallboard 23 synchronous outside lateral shifting through the meshing with second sliding pin 22 when vibrating cam 21 rotates, make clear wallboard 23 extrude agitator 1 inner wall, do further clearance effect.

The inner wall of the middle of the second supporting plate 14 is rotatably connected with a driving straight gear 28 in sliding connection with the outer rotating shaft 8, the outer surface of the driving straight gear 28 is meshed with an idle gear 29, the lower end of the idle gear 29 is coaxially and fixedly connected with an eccentric straight gear 30, the outer side of the eccentric straight gear 30 is meshed with a driven straight gear 32, the inner wall of the center of the driven straight gear 32 is fixedly connected with a third rotating shaft 33 in sliding connection with the second supporting plate 14, the outer surface of the third rotating shaft 33 is rotatably connected with a limiting connecting rod 31, the other end of the limiting connecting rod 31 is hinged to the inner wall of the center of the eccentric straight gear 30, and a second stirring shaft is fixedly connected to the lower end surface of the third rotating shaft 33.

As shown in fig. 9 and 12, the driving spur gear 28 is in splined connection with the external rotating shaft 8, and the driving spur gear 28 can slide up and down on the outer surface of the external rotating shaft 8 and can rotate along with the external rotating shaft 8 when the external rotating shaft 8 rotates; a rotating shaft is coaxially and fixedly connected with the inner walls of the idle gear 29 and the eccentric straight gear 30, penetrates through the second supporting plate 14 and is rotatably connected with the inner wall of the second supporting plate 14; the installation and shape of the eccentric straight gear 30, the third rotating shaft 33, the driven straight gear 32, the second stirring rod 34 and the limiting connecting rod 31 are as shown in fig. 12, the rotating shaft is fixedly connected to the inner wall of the center of the eccentric straight gear 30, and the other end of the limiting connecting rod 31 is rotatably connected to the outer surface of the rotating shaft; the third rotating shaft 33 can slide left and right on the inner wall of the second supporting plate 14, as shown in fig. 9, a key-shaped groove is formed in the second supporting plate 14, a circular ring pad is fixedly connected to the upper end of the outer surface of the third rotating shaft 33, the circular ring pad is slidably connected to the inner wall of the key-shaped groove, and the third rotating shaft 33 can slide back and forth on the inner wall of the circular ring pad and can rotate; when the outer rotating shaft 8 rotates, the corresponding driving spur gear 28, the corresponding idle gear 29 and the corresponding eccentric spur gear 30 are driven to rotate through meshing and coaxial transmission, because the eccentric spur gear 30 rotates in an eccentric circle mode, when the eccentric spur gear 30 rotates, the corresponding driven spur gear 32 is driven to rotate and move left and right through meshing with the driven spur gear 32, when the driven spur gear 32 moves left and right, the corresponding third rotating shaft 33 and the corresponding second stirring rod 34 are driven to reciprocate left and right, when the driven spur gear 32 rotates, the third rotating shaft 33 and the corresponding second stirring rod 34 are driven to rotate, and therefore the second stirring rack can rotate in a reciprocating mode while moving up and down, and the raw materials are stirred in a large-area longitudinal mode.

The meshing of first bevel gear 6 upper end has driven bevel gear 36, is equipped with U-shaped seat 35 in the agitator 1, and driven bevel gear 36 rotates to be connected at U-shaped seat 35 inner wall, and driven bevel gear 36 center department inner wall sliding connection has interior pivot 37, and interior pivot 37 lower extreme runs through outer 8 inner walls of rotating shaft, and interior pivot 37 lower extreme surface rigid coupling has two centrosymmetries and with agitator 1 bottom inner wall matched with scraper 46.

As shown in fig. 3-7, the inner rotary shaft 37 penetrates through the inner wall of the outer rotary shaft 8 and can slide and rotate up and down on the inner wall of the outer rotary shaft 8; a discharge nozzle is arranged on the inner wall of the bottom end of the stirring barrel 1, so that the stirred material can be conveniently taken out; the U-shaped seat 35 is fixedly connected on the upper end surface of the first supporting plate 9; as shown in fig. 5, spline teeth are arranged on the outer surface of the inner rotating shaft 37, spline grooves meshed with the spline teeth are arranged on the inner wall of the driven bevel gear 36, the inner rotating shaft 37 can rotate along with the driven bevel gear 36 by the meshing of the spline teeth and the spline grooves, the inner rotating shaft 37 can slide up and down on the inner wall of the driven bevel gear 36, when the inner rotating shaft 37 moves upwards, the spline teeth can move upwards, when the spline teeth move upwards to be disengaged from the spline grooves, namely the driven bevel gear 36 continues to rotate at the moment, the inner rotating shaft 37 is not driven to rotate, the scraper 46 is used for scraping the inner wall of the barrel bottom, and raw materials are prevented from being attached to the barrel bottom to cause waste; when the first bevel gear 6 rotates, the driven bevel gear 36, the inner rotating shaft 37 and the scraper 46 are driven to rotate by meshing with the driven bevel gear 36, and the scraper 46 rotates to scrape the bottom of the barrel.

The utility model discloses a U-shaped seat 35, including U-shaped seat 35 upper end surface, the non-centre of a circle department of disc 41 upper end surface, the both sides rigid coupling respectively have curb plate 38 on the U-shaped seat 35 upper end surface, two curb plate 38 inner wall sliding connection have a slide 39, interior pivot 37 rotates to be connected at slide 39 lower extreme surface, slide 39 middle part inner wall rotates and is connected with disc 41, disc 41 upper end surface non-centre of a circle department articulates there is two centrosymmetric first connecting rod 42, two first connecting rod 42 outside ends articulate respectively has anti-disengaging pad 43, anti-disengaging pad 43 outside terminal surface rigid coupling respectively has bayonet lock 45, bayonet lock 45 surface overlaps respectively has and fills up 43 matched with spring 44 with the anti-disengaging that corresponds, two sets of and the bayonet lock 45 matched with draw-in grooves that correspond are seted up respectively to two curb plate 38 middle part inner walls.

As shown in fig. 3-6, the sliding plate 39 can slide up and down on the inner walls of the two side plates 38; the side plate 38, the sliding plate 39, the disc 41, the first connecting rod 42 and the bayonet 45 are installed and shaped as shown in fig. 6, the inner wall of the sliding plate 39 is provided with an installation groove, the corresponding disc 41, the first connecting rod 42, the anti-falling pad 43 and the spring 44 are respectively installed on the inner wall of the installation groove, the anti-falling pad 43 can only slide left and right under the limit of the installation groove, one end of the spring 44 is fixedly connected to the anti-falling pad 43, the other end of the spring 44 is fixedly connected to the inner wall of the installation groove, and an outward driving force can be applied to the anti-falling pad 43 and the bayonet 45 through the self-pulling force of the spring 44, so that the bayonet 45 is stably meshed with the bayonet; the upper end of the disc 41 is coaxially and fixedly connected with a handle 40, and the handle 40 is used for conveniently driving the disc 41 to rotate; when the contact between the scraper 46 and the barrel bottom needs to be controlled, the handle 40 is rotated to rotate the disc 41, the disc 41 rotates to drive the inner side ends of the two first connecting rods 42 to rotate circumferentially, the outer side ends of the first connecting rods 42 can pull the corresponding anti-falling pads 43 to synchronously move inwards or outwards, when the anti-falling pads 43 move inwards, the springs 44 are pulled to extend and drive the bayonet locks 45 to move inwards, when the bayonet locks 45 move inwards to be separated from the bayonet grooves, the sliding plates 39 are pulled to move upwards at the moment, the corresponding inner rotating shafts 37 and the scraper 46 also move upwards, so that the scraper 46 is separated from the barrel bottom, and the scraper 46 can be controlled to be stably contacted with or separated from the barrel bottom through the matching of the corresponding bayonet locks 45; by controlling the contact of the scraper 46 with the barrel bottom, the scraper 46 is used for cleaning the barrel bottom when needed, so that the abrasion between the scraper 46 and the barrel bottom is reduced, and the service life is prolonged.

s1, adding raw materials for preparing a micro-diamond coating into a stirring barrel 1, starting a motor 4, enabling a first stirring rod 27 to rotate and move inwards or outwards synchronously while rotating circumferentially and move up and down, carrying out large-area transverse stirring on the raw materials in the stirring barrel 1, enabling a second stirring rod 34 to rotate and move left and right while moving up and down, and carrying out large-area longitudinal stirring on the raw materials in the stirring barrel 1; through the double stirring of the first stirring rod 27 and the second stirring rod 34, the raw materials are more uniformly prepared, and the excellent micro-diamond coating is produced.

S2, after the motor 4 is started, the cleaning wall plate 23 can rotate in the circumferential direction and move outwards in the self-rotation direction, the inner wall of the stirring barrel 1 is cleaned, the scraper 46 can rotate when the inner rotating shaft 37 rotates, and the scraper 46 can rotate to clean the inner wall of the bottom end of the stirring barrel 1; the materials adhered to the inside of the stirring barrel 1 can be disposed by the cleaning of the cleaning wall plate 23, and the materials accumulated at the bottom end of the stirring barrel 1 can be cleaned in time by the cleaning of the scraper 46.

When the stirring device is used, the raw materials for preparing the micro-diamond coating are added into the stirring barrel 1, the motor 4 is started, the first stirring rod 27 can synchronously move towards the inner side or the outer side and move up and down along with circumferential rotation, the raw materials in the stirring barrel 1 are transversely stirred in a large area, the second stirring rod 34 can rotate and move left and right along with reciprocating movement, and the raw materials in the stirring barrel 1 are longitudinally stirred in a large area; through double stirring of the first stirring rod 27 and the second stirring rod 34, raw materials are prepared more uniformly, and excellent micro-diamond coating is produced; after the motor 4 is started, the cleaning wall plate 23 can rotate circumferentially and rotate automatically and move outwards to clean the inner wall of the stirring barrel 1, the scraper 46 can rotate when the inner rotating shaft 37 rotates, and the scraper 46 can rotate to clean the inner wall of the bottom end of the stirring barrel 1; the materials adhered to the inside of the stirring barrel 1 can be disposed by the cleaning of the cleaning wall plate 23, and the materials accumulated at the bottom end of the stirring barrel 1 can be cleaned in time by the cleaning of the scraper 46.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides a high resistant agitating unit for dirty outer wall gilt stone coating preparation, includes supporting seat (2), its characterized in that: supporting seat (2) inner wall rigid coupling has agitator (1), rotatable outer pivot (8) are installed to agitator (1) inner wall, one side of outer pivot (8) is equipped with a plurality of first puddlers (27), and the opposite side of outer pivot (8) is equipped with second puddler (34), can constitute a plurality of first puddlers (27) when outer pivot (8) rotate the limit and move the structure that removes about reciprocating, second puddler (34) rotate the limit and remove about reciprocating simultaneously to inboard or outside circumference rotation limit reciprocating, reciprocate.

2. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 1, wherein: the outer surface of the stirring barrel (1) is fixedly connected with a motor (4), the right side of the motor (4) is fixedly connected with a first bevel gear (6), the lower end of the first bevel gear (6) is meshed with a second bevel gear (7), and an outer rotating shaft (8) is fixedly connected to the inner wall of the center of the second bevel gear (7).

3. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 2, wherein: the upper end of the outer surface of the outer rotating shaft (8) is fixedly connected with a sun straight gear (11), the outer surface of the sun straight gear (11) is meshed with a planet straight gear (12), the inner wall of the stirring barrel (1) is fixedly connected with a gear ring (13) meshed with the planet straight gear (12), the lower end of the planet straight gear (12) is coaxially and fixedly connected with a long cam (15), the middle of the outer surface of the outer rotating shaft (8) is sleeved with a second supporting plate (14), the upper end of the second supporting plate (14) is fixedly connected with a first sliding pin (16) matched with the long cam (15), and a first stirring rod (27) and a second stirring rod (34) are respectively installed on the left side and the right side of the lower end of the second supporting plate (14).

4. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 3, wherein: the inner wall of one end of the second supporting plate (14) is rotatably connected with a first rotating shaft (17), the upper end of the first rotating shaft (17) is connected to the inner wall of the lower end of the long cam (15) in a sliding mode, a third bevel gear (18) is fixedly connected to the lower end of the outer surface of the first rotating shaft (17), a fourth bevel gear (19) is meshed to the lower end of the third bevel gear (18), a second rotating shaft (20) rotatably connected with the second supporting plate (14) is fixedly connected to the inner wall of the center of the fourth bevel gear (19), a cross plate (26) is fixedly connected to the left side of the outer surface of the second rotating shaft (20), four short pins (25) which are evenly distributed are slidably connected to the inner wall of the cross plate (26), the first stirring frames are fixedly connected to the corresponding short pins (25) respectively, and a track plate (24) meshed with the short pins (25) is further fixedly connected to the lower end surface of the second supporting plate (14).

5. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 4, wherein: the right end of the outer surface of the second rotating shaft (20) is connected with an oscillating cam (21) in a sliding mode, the surface of the right end of the oscillating cam (21) is fixedly connected with a clear wall plate (23), and a second sliding pin (22) fixedly connected with the second supporting plate (14) is meshed on the outer surface of the oscillating cam (21).

6. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 3, wherein: second backup pad (14) middle part inner wall rotates and is connected with initiative straight-teeth gear (28) with outer pivot (8) sliding connection, initiative straight-teeth gear (28) surface meshing has idler (29), the coaxial rigid coupling of idler (29) lower extreme has eccentric straight-teeth gear (30), eccentric straight-teeth gear (30) outer side meshing has driven straight-teeth gear (32), driven straight-teeth gear (32) center department inner wall rigid coupling has third pivot (33) with second backup pad (14) sliding connection, third pivot (33) surface rotates and is connected with spacing connecting rod (31), the other end of spacing connecting rod (31) articulates at eccentric straight-teeth gear (30) center department inner wall, second (mixing) shaft rigid coupling is at third pivot (33) lower terminal surface.

7. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 2, wherein: first bevel gear (6) upper end meshing has driven bevel gear (36), is equipped with U-shaped seat (35) in agitator (1), and driven bevel gear (36) rotate to be connected at U-shaped seat (35) inner wall, and driven bevel gear (36) center department inner wall sliding connection has interior pivot (37), and outer pivot (8) inner wall is run through to interior pivot (37) lower extreme, and interior pivot (37) lower extreme surface rigid coupling has two centrosymmetries and with agitator (1) bottom inner wall matched with scraper (46).

8. The stirring device for preparing the high stain-resistant exterior wall microlite coating as claimed in claim 7, wherein: u-shaped seat (35) upper end surface left and right sides rigid coupling respectively has curb plate (38), two curb plate (38) inner wall sliding connection have one slide (39), adversion axle (37) rotate to be connected at slide (39) lower extreme surface, slide (39) middle part inner wall rotates and is connected with disc (41), disc (41) upper end surface non-centre of a circle department articulates there are two centrosymmetric first connecting rod (42), two first connecting rod (42) outside end articulates respectively has anticreep pad (43), anticreep pad (43) outside terminal surface rigid coupling respectively has bayonet lock (45), bayonet lock (45) surface cover respectively has with corresponding anticreep pad (43) matched with spring (44), two sets of and corresponding bayonet lock (45) matched with draw-in groove have been seted up respectively to two curb plate (38) middle part inner walls.

9. The use method of the stirring device for preparing the high stain resistance exterior wall microlite coating as claimed in claim 6 or 7, characterized in that: the method comprises the following steps:

s1, adding raw materials for preparing a micro-diamond coating into a stirring barrel (1), starting a motor (4), enabling a first stirring rod (27) to synchronously move inwards or outwards and circumferentially rotate and move up and down while rotating, enabling the raw materials in the stirring barrel (1) to be transversely stirred in a large area, enabling a second stirring rod (34) to rotate and move left and right while reciprocating, and enabling the raw materials in the stirring barrel (1) to be longitudinally stirred in a large area;

s2 can make clear wall board (23) rotate limit rotation and move to the outside side simultaneously after motor (4) start-up, cleans agitator (1) inner wall, can make scraper (46) rotate when interior pivot (37) rotate, and scraper (46) rotate and can clean agitator (1) bottom inner wall.