CN107321205A

CN107321205A - A kind of ecological dry powder paint magnetic ball stirring system of oyster shell whiting

Info

Publication number: CN107321205A
Application number: CN201710671663.XA
Authority: CN
Inventors: 刘毅; 刘国强; 李玉玲
Original assignee: Anqing Zeyuan Chemical Co Ltd
Current assignee: Anqing Zeyuan Chemical Co Ltd
Priority date: 2017-08-08
Filing date: 2017-08-08
Publication date: 2017-11-07

Abstract

The invention belongs to building material manufacture field, specifically a kind of ecological dry powder paint magnetic ball stirring system of oyster shell whiting, including main body, stirring module, stirring body, grinding module, water inlet module, loop module and controller, described stirring module is partially located at body interior, described grinding module is located at body interior, described stirring body is located at body interior and is operated between stirring module and grinding module, below described water inlet module insertion body interior, described loop module is located at below main body, and the controller is located above main body；The mode that the present invention is engaged by using stirring module, stirring body, water inlet module, grinding module and loop module, realize the circulation production of mixing, the multiple stirring of dry powder paint, the abrasive action of dry powder paint and the dry powder paint of dry powder and water, accelerate the manufacturing speed of dry powder paint, the producing efficiency of dry powder paint is improved, the quality of dry powder paint is improved.

Description

Ecological dry powder coating magnetic ball mixing system of shell powder

Technical Field

The invention belongs to the field of building material manufacturing, and particularly relates to a magnetic ball stirring system for a shell powder ecological dry powder coating.

Background

Compared with the existing commonly used liquid coating, the dry powder coating has remarkable storage and transportation advantages, and has the environmental protection advantage of no need of adding organic solvent, so that the dry powder coating inevitably becomes the development trend of the decoration field. However, the existing stirring equipment is consistent with other existing dry powder coatings, so that the dry powder coatings are completely and uniformly mixed with water, and are not easy to mix for a long time, and a certain amount of dry powder particles still exist, so that the liquid coating prepared in the way is coated on the wall surface, the problems of unevenness and unsmooth wall surface inevitably occur, the attractiveness of the wall surface is seriously influenced, and the decoration quality of the wall surface is influenced.

A Chinese patent with publication number CN206262422U in the prior art discloses a dry powder coating stirring device, which comprises a main body and a differential motor, wherein the main body is internally divided into a plurality of stirring parts and a discharging part by a filter screen, the differential motor is positioned above the main body, two half shafts of the differential motor are respectively connected with a first rotating shaft and a second rotating shaft, the lower ends of the first rotating shaft and the second rotating shaft penetrate and extend into the stirring parts, and the first rotating shaft and the second rotating shaft are respectively provided with a first stirring device and a second stirring device corresponding to each stirring part. The technical scheme realizes the stirring and grinding of the dry powder and the water, but the technical scheme still has the following defects: according to the technical scheme, the mixture of water and dry powder is injected into the main body to be stirred, so that the dry powder and the water are easily mixed unevenly, the quality of the dry powder coating is reduced, and the dry powder coating is long in finished product manufacturing time and low in production efficiency due to the adoption of two-stage stirring; in the technical scheme, the size of a gap between the first stirring device and the second stirring device is fixed, so that the technical scheme can only grind dry powder with particles of fixed size, and when the dry powder particles are too large, the dry powder particles cannot enter a gap between the first stirring device and the second stirring device, so that the design scheme is invalid; the technical scheme adopts a one-time production process, so that the quality of the dry powder coating cannot be ensured;

in view of the above, the magnetic ball stirring system for the shell powder ecological dry powder coating, provided by the invention, can be used for stirring dry powder and water more uniformly, grinding large particles in the dry powder coating more fully, and has the following specific beneficial effects:

1. the invention relates to a shell powder ecological dry powder coating magnetic ball stirring system which comprises a main body, a stirring module, a stirring body, a grinding module, a water inlet module, a circulating module and a controller, wherein the stirring module, the stirring body and the water inlet module are matched to realize the mixing of dry powder and water and the multiple stirring of the dry powder coating; the mode that the circulating module is matched with the main body is adopted, so that the detection of the moisture content in the dry powder coating is realized, and further, the circulating production of the dry powder coating is realized.

2. According to the shell powder ecological dry powder coating magnetic ball stirring system, the stirring module is internally provided with the stirring motor, the stirring shaft, the stirring electromagnetic rod and the spiral spring, the stirring motor drives the stirring shaft to rotate, and the stirring shaft drives the stirring electromagnetic rod in threaded connection with the stirring shaft to rotate, so that the stirring of the stirring electromagnetic rod on the dry powder coating is realized; the stirring electromagnetic rod is electrified to generate magnetism, the stirring body positioned between the stirring electromagnetic rod and the grinding module moves upwards, and the stirring body is mixed and stirred with the dry powder coating in the upward movement process, so that the dry powder coating is further stirred by the stirring body; the stirring body is contacted with the spiral spring in the movement process, and the spiral spring vibrates up and down under the action of elastic force, so that the further stirring of the dry powder coating by the spiral spring is realized; the mixing module and the mixing body are matched to realize multiple mixing of the dry powder coating, so that the manufacturing speed of the dry powder coating is increased, the manufacturing time of the dry powder coating is shortened, and the quality of the dry powder coating is improved.

3. According to the shell powder ecological dry powder coating magnetic ball stirring system, the grinding net and the grinding electromagnetic rod are arranged in the grinding module, the grinding electromagnetic rod is driven to rotate by the stirring shaft, the grinding electromagnetic rod is controlled to be powered on by the controller to generate magnetism, the stirring body moves downwards under the action of the magnetic force of the grinding electromagnetic rod, the stirring body reaches the upper surface of the grinding net and rotates around the shaft along with the grinding electromagnetic rod, the stirring bodies rub and extrude with each other in the rotating process of the stirring bodies on the grinding net, and large particles in the dry powder coating are ground into fine particles under the rubbing and extruding action of the stirring bodies, so that the grinding effect of the grinding module and the stirring bodies is achieved.

4. The invention relates to a shell powder ecological dry powder coating magnetic ball stirring system, wherein a circulating module of the shell powder ecological dry powder coating magnetic ball stirring system comprises a moisture detection sensor, a discharge valve, a discharge pipe, a discharge port and a circulating pump, a controller is adopted to control the moisture detection sensor, the discharge valve and the circulating pump to work, the moisture detection sensor detects the moisture content of a dry powder coating in a lower shell and feeds a detection result back to the controller, when the detection result is equal to a preset value, the controller controls one end of the discharge valve, which is communicated with the discharge port, to be opened, and the dry powder coating is output from the discharge port under the action of the; when the detection result is higher than or lower than the preset value, the controller controls one end of the discharge valve, which is communicated with the circulating pump, to be opened, the dry powder coating is output from the discharge valve and enters the circulating pump under the action of the discharge pipe, and the dry powder coating enters the main body again under the action of the circulating pump to be stirred and ground again, so that the circulating manufacture of the dry powder coating is realized, and the quality of the dry powder coating is improved.

5. According to the shell powder ecological dry powder coating magnetic ball stirring system, the stirring water adopts the magnetized water, when the shell powder ecological dry powder coating magnetic ball stirring system works, the stirring electromagnetic rod is electrified to generate magnetism, the magnetized water flows rapidly under the action of the magnetic force, the flowing speed of the water is accelerated, the mixing of the dry powder and the water is accelerated, further, the manufacturing speed of the dry powder coating is accelerated, the manufacturing time of the dry powder coating is shortened, and the efficiency is improved.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides a shell powder ecological dry powder coating magnetic ball stirring system which comprises a main body, a stirring module, a stirring body, a grinding module, a water inlet module, a circulating module and a controller, wherein the stirring module, the stirring body and the water inlet module are matched to realize the mixing of dry powder and water and the multiple stirring of the dry powder coating; the mode that the circulating module is matched with the main body is adopted, so that the detection of the moisture content in the dry powder coating is realized, and further, the circulating production of the dry powder coating is realized.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a dry powder coating stirring and grinding device which comprises a main body, a stirring module, a stirring body, a grinding module, a water inlet module, a circulating module and a controller, wherein the stirring module is locally positioned in the main body and is used for stirring dry powder coating in the main body; the grinding module is positioned in the main body and is used for grinding the dry powder coating in the main body; the stirring body is positioned in the main body and works between the stirring module and the grinding module; the water inlet module is inserted into the lower part of the inner part of the main body and is used for injecting water into the main body; the circulating module is positioned below the main body and used for automatically detecting the quality of the dry powder coating and circularly producing the dry powder coating; the controller is positioned above the main body and is used for switching the electric element in the invention.

The main part includes casing, curb plate, casing and landing leg down, last casing be located the curb plate top and meet through the bolt with the curb plate, it is equipped with the feed inlet to go up the casing, the feed inlet communicates with each other with the main part is inside, the casing is located the curb plate below and links firmly with the curb plate down, the landing leg is located casing below and links firmly with the casing down.

The stirring module comprises a stirring motor, a motor base, a coupler, a stirring shaft, a stirring electromagnetic rod, a spiral spring, a fixed base, a thrust bearing, a water injection sealing ring, a gasket and a shaft end sleeve, wherein the motor base is positioned above the upper shell and fixedly connected with the upper shell, the stirring motor is positioned on the motor base and connected with the motor base, the stirring motor is connected with the stirring shaft through the coupler, a plurality of stirring electromagnetic rods and a plurality of spiral springs are arranged in the stirring module, the stirring electromagnetic rod is in threaded connection with the stirring shaft, the spiral spring is connected with the stirring shaft through a clamping groove, the fixed base is positioned below the stirring shaft and used for supporting the stirring shaft, a step hole is arranged in the middle of the fixed base, an internal thread is arranged below the step hole, the thrust bearing is positioned in the step hole in the middle of the fixed base, the gasket is positioned between the water injection sealing ring and the step surface. When the dry powder coating stirring device works, the controller controls the stirring motor to be electrified, the stirring motor drives the stirring shaft to rotate through the coupler, the stirring shaft drives the stirring electromagnetic rod in threaded connection with the stirring shaft to rotate, and the stirring electromagnetic rod stirs the dry powder coating; when the powder coating stirring device works, the controller controls the stirring electromagnetic rod to be electrified, the stirring electromagnetic rod generates magnetism, the stirring body positioned between the stirring electromagnetic rod and the grinding net moves upwards under the action of magnetic force, and the stirring body is stirred with the dry powder coating in the upwards movement process, so that the stirring effect of the stirring body is realized; the stirring body touches the spiral spring in the upward movement process, the spiral spring vibrates up and down under the action of elastic force, and the spiral spring stirs the dry powder coating, so that the stirring effect of the spiral spring is realized.

The grinding module is including grinding the net, grinding the sealing washer and grinding the electromagnetic rod, grind the net and be located the (mixing) shaft below and through grinding sealing washer and (mixing) shaft connection, it is equipped with a plurality of tiny through-holes to grind the net, and tiny through-hole is arranged in screening dry powder coating medium and large granule, grind the electromagnetic rod and be located the grinding net below, grind the electromagnetic rod and pass through threaded connection with the (mixing) shaft, it can produce strong magnetism to grind the circular telegram of electromagnetic rod. The during operation, the (mixing) shaft drives and grinds the electromagnetic bar and rotates, controller control grinds the circular telegram of electromagnetic bar, it produces magnetism to grind the electromagnetic bar, the stirring body moves down under the effect of the magnetic force of grinding the electromagnetic bar, the stirring body reachs the upper surface of grinding the net and does pivoting along with grinding the electromagnetic bar, the stirring body rotates the in-process on grinding the net, stirring body looks mutual friction extrusion, the large granule in the dry powder coating is ground into tiny granule under the friction extrusion effect of the stirring body, the grinding effect of grinding module and stirring body has been realized.

The module of intaking includes inlet tube, pipe seal circle and inlet bend, the inlet tube inserts the main part inside and is connected with the curb plate through running through the curb plate, the one end of inlet tube is equipped with the external screw thread, inlet bend both ends are equipped with internal thread and external screw thread respectively, the inlet tube passes through the screw thread and is connected with inlet bend, inlet bend passes through the screw thread and links to each other with the fixing base. During the operation, the inlet tube is followed to the magnetized drinking water and is got into the elbow of intaking, and the elbow of intaking and fixing base spiro union, and in getting into the water course of (mixing) shaft by the cavity from the inlet elbow spun magnetized drinking water entering into the cavity that inlet elbow and fixing base formed, the magnetized drinking water in the water course gets into the pipe of intaking, and the magnetized drinking water that comes out from the pipe of intaking gets into inside the stirring electromagnetic bar with the pipe spiro union of intaking to finally follow the play water orifice and the cleaning orifice blowout of stirring electromagnetic bar.

The circulation module includes moisture content detection sensor, bleeder valve, discharging pipe, discharge gate and circulating pump, and moisture content detection sensor is located the inner wall of casing down, the bleeder valve is located the below of casing down and links firmly with casing down, the one end of bleeder valve is passed through the discharging pipe and is linked to each other with the feed end of circulating pump, the discharge end of circulating pump is connected to the curb plate top through the discharging pipe and with the inside switch-on of main part, the discharge gate is located the other end of bleeder valve and wants the switch-on through discharging pipe and bleeder valve. When the dry powder coating stirring and grinding device works, the controller controls the water content detection sensor, the discharge valve and the circulating pump to work, the water content detection sensor detects the water content of the dry powder coating in the lower shell and feeds a detection result back to the controller, when the detection result is higher than or lower than a preset value, the controller controls one end of the discharge valve, which is communicated with the circulating pump, to be opened, the dry powder coating is output from the discharge valve and enters the circulating pump under the action of the discharge pipe, and the dry powder coating enters the main body again under the action of the circulating pump to be stirred and ground again; when the detection result is equal to the preset value, the controller controls one end of the discharge valve leading to the discharge hole to be opened, and the dry powder coating is output from the discharge hole under the action of the discharge pipe.

The stirring shaft is a hollow shaft, a water channel is arranged in the stirring shaft, a plurality of water injection round pipes are arranged on the stirring shaft, external threads are arranged outside the water injection round pipes, and a plurality of clamping grooves are formed in the outer surface of the stirring shaft and used for fixing the spiral springs.

The stirring electromagnetic rod comprises a rod body, a through hole, a rod internal thread, water outlet spray holes, a coil, a rubber layer and a cleaning hole, wherein the through hole is arranged along the axis and penetrates through the stirring electromagnetic rod, the rod internal thread is arranged at one end of the through hole, a plurality of water outlet spray holes are formed in the side face of the stirring electromagnetic rod and communicated with the through hole, the coil is wound on the outer surface of the rod body along the axis of the rod body, a wiring terminal of the coil is located on the same side of the rod body, the coil is wrapped by the rubber layer, and the rubber layer is located on the outer surface of the rod body. When the electromagnetic stirring rod works, the magnetized water sprayed from the circular water injection pipe enters the through hole of the electromagnetic stirring rod and is sprayed out through the water outlet spray hole and the cleaning hole.

The stirring body is a spherical stirring body or a square stirring body. During operation, the stirring body moves directionally under the action of magnetic force, the stirring bodies rub and extrude with each other, large particles in the dry powder coating enter the grooves of the stirring bodies, and the friction and extrusion effect of the spherical stirring bodies grinds the large particles into fine particles. The spherical stirring body comprises a spherical magnet, spherical rubber and a groove, the spherical magnet is positioned in the middle of the spherical stirring body, the spherical rubber wraps the spherical magnet, and the groove is formed in the surface of the spherical rubber. The square stirring body comprises a spherical magnet, square rubber and a groove, the spherical magnet is located in the middle of the square stirring body, the square rubber wraps the spherical magnet, and the groove is formed in the surface of the square rubber.

Preferably, the water solution adopted by the invention is magnetized water, when the stirring electromagnetic rod is electrified, the stirring electromagnetic rod generates magnetism, and the magnetized water flows rapidly under the action of the magnetic force, so that the manufacturing speed of the dry powder coating is accelerated, and the manufacturing efficiency of the dry powder coating is improved.

The invention has the beneficial effects that:

Drawings

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

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a cross-sectional view of a stirring electromagnetic rod of the present invention;

FIG. 4 is a cross-sectional view of a spherical stirring body of the present invention;

FIG. 5 is a cross-sectional view of a square stirring body of the present invention;

in the figure: the stirring device comprises a main body 1, an upper shell 11, a feeding hole 111, a side plate 12, a lower shell 13, supporting legs 14, a stirring module 2, a stirring motor 21, a motor base 22, a coupler 23, a stirring shaft 24, a water injection circular tube 240, a clamping groove 241, a water channel 242, a stirring electromagnetic rod 25, a rod body 251, a through hole 252, a rod internal thread 253, a water outlet spray hole 254, a coil 255, a rubber layer 256, a cleaning hole 257, a spiral spring 26, a fixed seat 27, a thrust bearing 28, a water injection sealing ring 29, a gasket 290, a shaft end sleeve 291, a stirring body 3, a spherical stirring body 31, a groove 30, a spherical magnet 311, spherical rubber 312, a square stirring body 32, square rubber 322, a grinding module 4, a grinding net 41, a grinding sealing ring 42, a grinding electromagnetic rod 43, a water inlet module 5, a water inlet pipe 51, a pipe sealing ring 52, a water inlet elbow 53, a, Discharge port 64, circulating pump 65, controller 7.

Detailed Description

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

As shown in fig. 1 to 5, the stirring and grinding device for dry powder paint of the present invention comprises a main body 1, a stirring module 2, a stirring body 3, a grinding module 4, a water inlet module 5, a circulation module 6 and a controller 7, wherein the stirring module 2 is partially located inside the main body 1, and the stirring module 2 is used for stirring the dry powder paint in the main body 1; the grinding module 4 is positioned inside the main body 1, and the grinding module 4 is used for grinding the dry powder coating in the main body 1; the stirring body 3 is positioned in the main body 1 and works between the stirring module 2 and the grinding module 4; the water inlet module 5 is inserted into the lower part of the interior of the main body 1, and the water inlet module 5 is used for injecting water into the main body 1; the circulating module 6 is positioned below the main body 1, and the circulating module 6 is used for automatically detecting the quality of the dry powder coating and circularly producing the dry powder coating; the controller 7 is located above the main body 1, and the controller 7 is used for switching of the electric elements in the present invention.

The main part 1 includes upper casing 11, curb plate 12, casing 13 and landing leg 14 down, upper casing 11 be located curb plate 12 top and meet through the bolt with curb plate 12, upper casing 11 is equipped with feed inlet 111, feed inlet 111 communicates with each other with main part 1 is inside, casing 13 is located curb plate 12 below and links firmly with curb plate 12 down, landing leg 14 is located casing 13 below and links firmly with casing 13 down.

The stirring module 2 comprises a stirring motor 21, a motor base 22, a coupler 23, a stirring shaft 24, a stirring electromagnetic rod 25, a spiral spring 26, a fixed base 27, a thrust bearing 28, a water injection seal ring 29, a gasket 290 and a shaft end sleeve 291, wherein the motor base 22 is positioned above the upper shell 11 and fixedly connected with the upper shell 11, the stirring motor 21 is positioned on the motor base 22 and connected with the motor base 22, the stirring motor 21 is connected with the stirring shaft 24 through the coupler 23, the stirring module 2 is internally provided with a plurality of stirring electromagnetic rods 25 and a plurality of spiral springs 26, the stirring electromagnetic rods 25 are in threaded connection with the stirring shaft 24, the spiral springs 26 are connected with the stirring shaft 24 through clamping grooves 241, the fixed base 27 is positioned below the stirring shaft 24 and used for supporting the stirring shaft 24, a stepped hole is formed in the middle of the fixed base 27, an internal thread is formed below the hole, the thrust bearing 28 is positioned in the stepped hole in, the water injection seal ring 29 is located below the thrust bearing 28, and the gasket 290 is located between the water injection seal ring 29 and the step surface. When the dry powder coating stirring device works, the controller 7 controls the stirring motor 21 to be electrified, the stirring motor 21 drives the stirring shaft 24 to rotate through the coupler 23, the stirring shaft 24 drives the stirring electromagnetic rod 25 in threaded connection with the stirring shaft to rotate, and the stirring electromagnetic rod 25 stirs the dry powder coating; when the powder coating stirring device works, the controller 7 controls the stirring electromagnetic rod 25 to be electrified, the stirring electromagnetic rod 25 generates magnetism, the stirring body 3 positioned between the stirring electromagnetic rod 25 and the grinding net 41 moves upwards under the action of magnetic force, and the stirring body 3 is stirred with the dry powder coating in the upwards moving process, so that the stirring effect of the stirring body 3 is realized; the stirring body 3 touches the spiral spring 26 in the upward movement process, the spiral spring 26 vibrates up and down under the action of elastic force, and the spiral spring 26 stirs the dry powder coating, so that the stirring effect of the spiral spring 26 is realized.

Grinding module 4 includes grinding net 41, grinding sealing ring 42 and grinding electromagnetic rod 43, grinding net 41 is located (mixing) shaft 24 below and is connected with (mixing) shaft 24 through grinding sealing ring 42, grinding net 41 is equipped with a plurality of tiny through-holes 252, and tiny through-hole 252 is arranged in screening dry powder coating big granule, grinding electromagnetic rod 43 is located grinding net 41 below, and grinding electromagnetic rod 43 passes through threaded connection with (mixing) shaft 24, grinding electromagnetic rod 43 circular telegram can produce strong magnetism. The during operation, (mixing) shaft 24 drives grinding electromagnetic rod 43 and rotates, controller 7 control grinding electromagnetic rod 43 circular telegram, grinding electromagnetic rod 43 produces magnetism, stirring body 3 moves down under the effect of the magnetic force of grinding electromagnetic rod 43, stirring body 3 reaches the upper surface of grinding net 41 and does pivoting along with grinding electromagnetic rod 43, stirring body 3 rotates the in-process on grinding net 41, 3 the extrusion of the mutual friction of stirring body, the large granule in the dry powder coating is ground into tiny granule under the extrusion of the friction of stirring body 3, the grinding of grinding module 4 and stirring body 3 has been realized.

Intake module 5 includes inlet tube 51, pipe seal 52 and the elbow 53 of intaking, inlet tube 51 inserts main part 1 inside and is connected with curb plate 12 through pipe seal 52 through running through curb plate 12, inlet tube 51's one end is equipped with the external screw thread, the elbow 53 both ends of intaking are equipped with internal thread and external screw thread respectively, inlet tube 51 is connected with the elbow 53 of intaking through the screw thread, the elbow 53 of intaking links to each other with fixing base 27 through the screw thread. During operation, the magnetized drinking water gets into elbow 53 from inlet tube 51, and elbow 53 and the fixing base 27 spiro union of intaking, and the magnetized drinking water that gets out from elbow 53 of intaking gets into the cavity that elbow 53 and fixing base 27 formed and gets into in the water course 242 of (mixing) shaft 24 by the cavity, and the magnetized drinking water in the water course 242 gets into the pipe of intaking, and the magnetized drinking water that comes out from the pipe of intaking gets into inside the stirring electromagnetic bar 25 with the pipe spiro union of intaking to spout from the play water orifice 254 and the washing hole 257 of stirring electromagnetic bar 25 finally.

Circulation module 6 includes moisture content detection sensor 61, bleeder valve 62, discharging pipe 63, discharge gate 64 and circulating pump 65, and moisture content detection sensor 61 is located the inner wall of casing 13 down, bleeder valve 62 is located the below of casing 13 down and links firmly with casing 13 down, the one end of bleeder valve 62 is passed through discharging pipe 63 and is linked to each other with circulating pump 65's feed end, circulating pump 65's discharge end is connected to curb plate 12 top and with the inside switch-on of main part 1 through discharging pipe 63, discharge gate 64 is located the other end of bleeder valve 62 and wants the switch-on through discharging pipe 63 and bleeder valve 62. When the dry powder coating stirring and grinding device works, the controller 7 controls the moisture detection sensor 61, the discharge valve 62 and the circulating pump 65 to work, the moisture detection sensor 61 detects the moisture content of the dry powder coating in the lower shell 13 and feeds a detection result back to the controller 7, when the detection result is higher than or lower than a preset value, the controller 7 controls one end of the discharge valve 62, which is communicated with the circulating pump 65, to be opened, the dry powder coating is output from the discharge valve 62 and enters the circulating pump 65 under the action of the discharge pipe 63, and the dry powder coating enters the main body 1 again under the action of the circulating pump 65 to be stirred and ground again; when the detection result is equal to the preset value, the controller 7 controls one end of the discharge valve 62, which leads to the discharge port 64, to be opened, and the dry powder coating is output from the discharge port 64 under the action of the discharge pipe 63.

The stirring shaft 24 is a hollow shaft, a water channel 242 is arranged in the hollow shaft, a plurality of water injection circular pipes 240 are arranged on the stirring shaft 24, external threads are arranged outside the water injection circular pipes 240, a plurality of clamping grooves 241 are arranged on the outer surface of the stirring shaft 24, and the clamping grooves 241 are used for fixing the spiral springs.

The stirring electromagnetic rod 25 comprises a rod body 251, a through hole 252, a rod internal thread 253, water outlet spray holes 254, a coil 255, a rubber layer 256 and a cleaning hole 257, wherein the through hole 252 is arranged along an axis and penetrates through the stirring electromagnetic rod 25, the rod internal thread 253 is arranged at one end of the through hole 252, the side surface of the stirring electromagnetic rod 25 is provided with a plurality of water outlet spray holes 254, the water outlet spray holes 254 are communicated with the through hole 252, the coil 255 is wound on the outer surface of the rod body 251 along the axis of the rod body 251, a terminal of the coil 255 is positioned on the same side of the rod body 251, the coil 255 is wrapped by the rubber layer 256, and the rubber layer 256 is positioned on the outer surface of. In operation, the magnetized water sprayed from the circular water injection pipe 240 enters the through hole 252 of the stirring electromagnetic rod 25 and is sprayed out through the water outlet spray hole 254 and the cleaning hole 257.

The stirring body 3 is a spherical stirring body 31 or a square stirring body 32. During operation, stirring body 3 directional motion under the effect of magnetic force, the mutual friction extrusion of stirring body 3, the large granule in the dry powder coating gets into the recess 30 of stirring body 3, and the friction extrusion effect of spherical stirring body 31 grinds the large granule into tiny granule. The spherical stirring body 31 comprises a spherical magnet 311, spherical rubber 312 and a groove 30, the spherical magnet 311 is positioned in the middle of the spherical stirring body 31, the spherical rubber 312 wraps the spherical magnet 311, and the groove 30 is arranged on the surface of the spherical rubber 312. The square stirring body 32 comprises a spherical magnet 311, square rubber 322 and a groove 30, the spherical magnet 311 is positioned in the middle of the square stirring body 32, the square rubber 322 wraps the spherical magnet 311, and the groove 30 is arranged on the surface of the square rubber 322.

As an implementation mode of the invention, the aqueous solution adopted by the invention is magnetized water, when the stirring electromagnetic bar is electrified, the stirring electromagnetic bar generates magnetism, and the magnetized water flows rapidly under the action of the magnetic force, so that the preparation speed of the dry powder coating is accelerated, and the preparation efficiency of the dry powder coating is improved.

When the dry powder mixing device works, dry powder particles are poured into the main body 1 from the feeding hole 111 by a worker, magnetic water is injected into the water inlet pipe 51, the magnetized water enters the water inlet elbow 53 from the water inlet pipe 51, the water inlet elbow 53 is in threaded connection with the fixed seat 27, the magnetized water sprayed out of the water inlet elbow 53 enters a cavity formed by the water inlet elbow 53 and the fixed seat 27 and enters the water channel 242 of the mixing shaft 24 from the cavity, the magnetized water in the water channel 242 enters the water injection circular pipe 240, the magnetized water discharged out of the water injection circular pipe 240 enters the mixing electromagnetic rod 25 in threaded connection with the water injection circular pipe 240, the magnetized water sprayed out of the water injection circular pipe 240 enters the through hole 252 of the mixing electromagnetic rod 25 and is sprayed out through the water outlet spray hole 254 and the cleaning hole 257; the controller 7 controls the stirring motor 21 to be electrified, the stirring motor 21 drives the stirring shaft 24 to rotate through the coupler 23, the stirring shaft 24 drives the stirring electromagnetic rod 25 in threaded connection with the stirring shaft 24 to rotate, the stirring electromagnetic rod 25 stirs the dry powder coating, and the stirring effect of the stirring electromagnetic rod 25 on the dry powder coating is realized; the controller 7 controls the stirring electromagnetic rod 25 to be electrified, the stirring electromagnetic rod 25 generates magnetism, the stirring body 3 positioned between the stirring electromagnetic rod 25 and the grinding net 41 moves upwards under the action of magnetic force, and the stirring body 3 is stirred with the dry powder coating in the process of moving upwards, so that the stirring effect of the stirring body 3 is realized; the stirring body 3 is contacted with the spiral spring 26 in the upward movement process, the spiral spring 26 vibrates up and down under the action of elastic force, and the spiral spring 26 stirs the dry powder coating, so that the stirring effect of the spiral spring 26 is realized; when the stirring motor 21 works, the stirring shaft 24 drives the grinding electromagnetic rod 43 to rotate, the controller 7 controls the grinding electromagnetic rod 43 to be electrified, the grinding electromagnetic rod 43 generates magnetism, the stirring body 3 moves downwards under the action of the magnetic force of the grinding electromagnetic rod 43, the stirring body 3 reaches the upper surface of the grinding net 41 and rotates around the shaft along with the grinding electromagnetic rod 43, the stirring bodies 3 rub and extrude with each other in the rotating process of the stirring body 3 on the grinding net 41, large particles in the dry powder coating are ground into fine particles under the rubbing and extruding action of the stirring body 3, and the grinding effect of the grinding module 4 and the stirring body 3 is realized; the controller 7 controls the water content detection sensor 61, the discharge valve 62 and the circulating pump 65 to work, the water content detection sensor 61 detects the water content of the dry powder coating in the lower shell 13 and feeds the detection result back to the controller 7, when the detection result is higher than or lower than a preset value, the controller 7 controls one end of the discharge valve 62, which is communicated with the circulating pump 65, to be opened, the dry powder coating is output from the discharge valve 62 and enters the circulating pump 65 under the action of the discharge pipe 63, and the dry powder coating enters the main body 1 again under the action of the circulating pump 65 to be stirred and ground again; when the detection result is equal to the preset value, the controller 7 controls one end of the discharge valve 62, which leads to the discharge port 64, to be opened, and the dry powder coating is output from the discharge port 64 under the action of the discharge pipe 63, so that the circular production of the dry powder coating is realized, and the quality of the dry powder coating is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a ecological dry powder coating magnetic ball mixing system of shell powder which characterized in that: the automatic water feeding device comprises a main body (1), a stirring module (2), a stirring body (3), a grinding module (4), a water feeding module (5), a circulating module (6) and a controller (7), wherein the stirring module (2) is locally positioned inside the main body (1), the grinding module (4) is positioned inside the main body (1), the stirring body (3) is positioned inside the main body (1) and works between the stirring module (2) and the grinding module (4), the water feeding module (5) is inserted into the lower portion inside the main body (1), the circulating module (6) is positioned below the main body (1), and the controller (7) is positioned above the main body (1); wherein,

the main body (1) comprises an upper shell (11), a side plate (12), a lower shell (13) and supporting legs (14), wherein the upper shell (11) is positioned above the side plate (12) and connected with the side plate (12) through bolts, the upper shell (11) is provided with a feed inlet (111), the feed inlet (111) is communicated with the inside of the main body (1), the lower shell (13) is positioned below the side plate (12) and fixedly connected with the side plate (12), and the supporting legs (14) are positioned below the lower shell (13) and fixedly connected with the lower shell (13);

the stirring module (2) comprises a stirring motor (21), a motor base (22), a coupler (23), a stirring shaft (24), a stirring electromagnetic rod (25), a spiral spring (26), a fixing base (27), a thrust bearing (28), a water injection sealing ring (29), a gasket (290) and a shaft end sleeve (291), wherein the motor base (22) is positioned above the upper shell (11) and fixedly connected with the upper shell (11), the stirring motor (21) is positioned on the motor base (22) and connected with the motor base (22), the stirring motor (21) is connected with the stirring shaft (24) through the coupler (23), the stirring module (2) is internally provided with a plurality of stirring electromagnetic rods (25) and a plurality of spiral springs (26), the stirring electromagnetic rods (25) are in threaded connection with the stirring shaft (24), and the spiral springs (26) are connected with the stirring shaft (24) through a clamping groove (241), the stirring shaft (24) is supported by the fixed seat (27) which is positioned below the stirring shaft (24), a step hole is formed in the middle of the fixed seat (27), internal threads are formed below the step hole, the thrust bearing (28) is positioned in the step hole in the middle of the fixed seat (27) and matched with the stirring shaft (24), the water injection sealing ring (29) is positioned below the thrust bearing (28), and the gasket (290) is positioned between the water injection sealing ring (29) and the step surface;

grind module (4) including grinding net (41), grinding sealing washer (42) and grinding electromagnetic rod (43), grind net (41) and be located (mixing) shaft (24) below and be connected with (mixing) shaft (24) through grinding sealing washer (42), it is equipped with a plurality of tiny through-holes (252) to grind net (41), and tiny through-hole (252) are arranged in screening dry powder coating big granule, grind electromagnetic rod (43) and are located and grind net (41) below, grind electromagnetic rod (43) and (mixing) shaft (24) and pass through threaded connection, it can produce strong magnetism to grind electromagnetic rod (43) circular telegram.

2. The shell powder ecological dry powder coating magnetic ball stirring system of claim 1, characterized in that: intake module (5) including inlet tube (51), pipe seal circle (52) and inlet elbow (53), inlet tube (51) are connected with curb plate (12) through running through curb plate (12) insert main part (1) inside and through pipe seal circle (52), the one end of inlet tube (51) is equipped with the external screw thread, inlet elbow (53) both ends are equipped with internal thread and external screw thread respectively, inlet tube (51) are connected with inlet elbow (53) through the screw thread, inlet elbow (53) link to each other with fixing base (27) through the screw thread.

3. The shell powder ecological dry powder coating magnetic ball stirring system of claim 1, characterized in that: circulation module (6) are including moisture content detection sensor (61), bleeder valve (62), discharging pipe (63), discharge gate (64) and circulating pump (65), and moisture content detection sensor (61) is located the inner wall of casing (13) down, bleeder valve (62) are located the below of casing (13) down and link firmly with casing (13) down, the one end of bleeder valve (62) is passed through discharging pipe (63) and is linked to each other with the feed end of circulating pump (65), the discharge end of circulating pump (65) is connected to curb plate (12) top and with main part (1) inside switch-on through discharging pipe (63), discharge gate (64) are located the other end of bleeder valve (62) and are put through with bleeder valve (62) through discharging pipe (63).

4. The shell powder ecological dry powder coating magnetic ball stirring system of claim 1, characterized in that: the stirring shaft (24) is a hollow shaft, a water channel (242) is arranged in the hollow shaft, a plurality of water injection round pipes (240) are arranged on the stirring shaft (24), external threads are arranged outside the water injection round pipes (240), a plurality of clamping grooves (241) are arranged on the outer surface of the stirring shaft (24), and the clamping grooves (241) are used for fixing the spiral springs.

5. The shell powder ecological dry powder coating magnetic ball stirring system of claim 1, characterized in that: the stirring electromagnetic rod (25) comprises a rod body (251), a through hole (252), a rod internal thread (253), a water outlet spray hole (254), a coil (255), a rubber layer (256) and a cleaning hole (257), the through hole (252) is arranged along the axis and penetrates through the stirring electromagnetic rod (25), one end of the through hole (252) is provided with a rod internal thread (253), the other end of the through hole (252) is provided with a cleaning hole (257), the side surface of the stirring electromagnetic rod (25) is provided with a plurality of water outlet spray holes (254), the water outlet spray holes (254) are communicated with the through holes (252), the coil (255) is wound on the outer surface of the rod body (251) along the axis of the rod body (251), the terminals of the coil (255) are positioned on the same side of the rod body (251), the coil (255) is wrapped by a rubber layer (256), and the rubber layer (256) is positioned on the outer surface of the rod body (251).

6. The dry powder paint stirring and grinding device as claimed in claim 1, wherein: the stirring body (3) is a spherical stirring body (31) or a square stirring body (32).

7. The dry powder paint stirring and grinding device as claimed in claim 6, wherein: the spherical stirring body (31) comprises a spherical magnet (311), spherical rubber iron (311) and a groove (30), the spherical magnet (311) is positioned in the middle of the spherical stirring body (31), the spherical rubber (312) wraps the spherical magnet (311), and the groove (30) is formed in the surface of the spherical rubber (312).

8. The dry powder paint stirring and grinding device as claimed in claim 6, wherein: the square stirring body (32) comprises a spherical magnet (311), square rubber (322) and a groove (30), the spherical magnet (311) is positioned in the middle of the square stirring body (32), the square rubber (322) wraps the spherical magnet (311), and the surface of the square rubber (322) is provided with the groove (30).

9. The dry powder paint stirring and grinding device as claimed in claim 1, wherein: the water solution adopted by the device is magnetized water.