CN204051569U - For the production of integral type dispersion and the Homogeneous phase mixing equipment of coating - Google Patents

Abstract

The utility model discloses the dispersion of a kind of integral type for the production of coating and Homogeneous phase mixing equipment, comprise feeding system and dispersion hybrid system, dispersion hybrid system top cover is provided with feeding cylinder one, feeding cylinder two, feeding cylinder one inside is provided with mesh screen, feeding system is always led to by feeding tube and feeding cylinder and connects, feeding system is provided with circulation crushing system, and circulation crushing system upper end is connected with feeding cylinder one side is through by coarse fodder tremie pipe; At the rotating shaft that dispersion hybrid system inner upper end is fixedly connected with straight down, rotating shaft is also provided with dual dispersing mixer structure; Arrange some static mixing systems in dispersion hybrid system lower end, each static mixing system inside is provided with some wave alignment unit sheets, is also provided with cooling recirculation system in some static mixing system sides; The utility model advantage is: dispersion incorporation time is short, takes up an area little, is uniformly mixed, and coating precision is high and evenly, environmental protection and energy saving, cooling-down effect is better.

Description

For the production of integral type dispersion and the Homogeneous phase mixing equipment of coating

Technical field

The utility model relates to coating apparatus technical field, particularly relates to the dispersion of a kind of integral type for the production of coating and Homogeneous phase mixing equipment.

Background technology

Coating is a kind of material, this material can be coated in object surface by different construction technologies, form adhere well, there is some strength, continuous print solid film, coating belongs to fine chemical product, modern coating is progressively becoming the polyfunctional engineering material of a class, be an important industry in chemical industry, be widely used in all trades and professions.

It is pre-dispersed that coating material production step mainly comprises raw material, and---grinding distribution---coating adjustment---filters and packages, coating mixture homogeneity is then the basic assurance of coating quality, prior art is carried out according to above-mentioned steps distribution mostly, get off can extend process time of coating according to each step, and also comprise static mixer in grinding distribution of the prior art, also be static mixer is arranged on apparatus for grinding and dispersing next step, static mixer mixes the coating of grinding distribution to disperse again again, therefore, if be provided separately with apparatus for grinding and dispersing, then the coating just mixed in apparatus for grinding and dispersing part coatings in pipeline transportation can be precipitated again, if can in time the coating very first time in apparatus for grinding and dispersing be carried out again mixing in static mixer, then its mixing dispersion effect can be better, secondly, existing apparatus for grinding and dispersing adopts a kind of dispersed with stirring device mostly, and its mixing effect is poor, and because coating is sticking, part coatings can be bonded on grinding distribution machine inwall, causes paint waste in whipping process, again, general static mixer adopts the set-up mode of screw substantially, and the defect that this mode exists is, also can be bonded on propeller blade by some coating, cause waste, again, can adulterate in the raw material of coating a little bulky grain unavoidably, but the feed end of prior art does not arrange the device removing larger particles, causes coating in use can there are quality problems.

Summary of the invention

For the problems referred to above that prior art exists, it is short that the utility model aims to provide a kind of dispersion incorporation time, takes up an area little, be uniformly mixed, coating precision is high and evenly, environmental protection and energy saving, cooling-down effect is preferably for the production of integral type dispersion and the Homogeneous phase mixing equipment of coating.

To achieve these goals, the technical scheme that adopts of the utility model is as follows:

For the production of integral type dispersion and the Homogeneous phase mixing equipment of coating, comprise feeding system and be fixed on the dispersion hybrid system on fixed support, described dispersion hybrid system top is provided with drive motors, the described dispersion hybrid system top cover being positioned at described drive motors both sides is respectively equipped with feeding cylinder one, feeding cylinder two, described feeding cylinder one inside is provided with mesh screen, described feeding system is located at described dispersion hybrid system side, and described feeding system is always led to by feeding tube and described feeding cylinder and connects, described feeding system is provided with circulation crushing system, described circulation crushing system upper end is connected with described feeding cylinder one side is through by coarse fodder tremie pipe, be provided with the rotating shaft be fixedly connected with described drive motors output shaft end in described dispersion hybrid system inner upper end straight down, described rotating shaft be also provided with dual dispersing mixer structure, arrange some static mixing systems in described dispersion hybrid system lower end, each described static mixing system inside is provided with some wave alignment unit sheets, is also provided with cooling recirculation system in some described static mixing system sides.

Further, described dual dispersing mixer structure comprises and is located at helical blade on described rotating shaft and is fixed on some layers on described rotating shaft agitating device arranged side by side from the top down.

Further, every layer of described agitating device comprises equidistant to be fixed on described rotating shaft and to some shafts of described dispersion hybrid system interior periphery radiation, each described shaft end and middle part are respectively equipped with blade one and the blade two of arc.

Further, each described blade one both ends and each described blade two both ends are equipped with shear-blade.

Further, each described static mixing system is drum, and be made up of inner core and urceolus, some cooling water flow pipes are provided with between described inner core and urceolus, each described static mixing system upper/lower terminal is respectively equipped with current collector and waterflow distributor, is also provided with compound outlet in each described static mixing system bottom.

Further, described waterflow distributor is made up of the circular pipeline being located at upper end and the bosh that is located at lower end, be provided with in described circular pipeline and each described cooling water flow pipe distributor pipe one to one, bottom described bosh, have compound feed opening.

Further, each described wave alignment unit sheet is combined by recess and protuberance interval.

Further, described cooling recirculation system one end carries cooling water by cold water efferent duct to each described waterflow distributor, the other end by hot water return pipe by the hot water recycled back in each current collector to cooling recirculation system, and be provided with circulating pump on described hot water return pipe pipeline.

Further, the pump housing is provided with in described feeding system.

Principle of the present utility model and beneficial effect are: first, in the feeding cylinder one of dispersion mixing equipment, mesh screen is set, bulky grain in mesh screen is pulverized in circulation crushing system again by coarse fodder tremie pipe, the relatively fine particle pulverized directly falls into feeding system, again enter in dispersion hybrid system by feeding tube, which ensure that the quality of charging, guarantee uniform particles, secondly, rotating shaft in dispersion hybrid system arranges dual dispersing mixer structure, be respectively helical blade and fixing on the rotary shaft and to the shaft of dispersion hybrid system ambient radiation, shaft is provided with blade one and blade two, blade one is located at shaft end, blade one both ends also arrange shear-blade, coating can not disperseed within the shortest time mix by means of only dual dispersing mixer structure in the process stirred, and the coating be bonded on dispersion hybrid system inwall can be wiped off by shear-blade, avoid waste, again, static mixing system is directly arranged in the bottom of dispersion hybrid system, guarantee that falling into static mixing system through the coating energy very first time tentatively mixed in dispersion hybrid system mixes again, and the unit sheet adopting some waves linear in static mixing system, the linear unit sheet of wave is formed larger, less cavity separately, its static mixing effect reaches best, and avoid the bonding of coating, and cooling water flow pipe is also set in static mixing system, the partial heat produced in dispersion hybrid system is walked by cooling water flow pipe racks, it is good that thermal effect falls, further, dispersion hybrid system and some static mixing systems are wholely set, and save and take up an area space.

Accompanying drawing explanation

Fig. 1 is the utility model schematic front view.

Fig. 2 is the utility model dispersion hybrid system inside top structural representation.

Fig. 3 is the utility model static mixing system inside top structural representation.

Fig. 4 is the utility model waterflow distributor structural representation.

Fig. 5 is the utility model current collector structural representation.

Wherein: 1-feeding system, 2-circulation crushing system, 3-disperses hybrid system, 31-rotating shaft, 32-helical blade, 33-shaft, 34-blade one, 35-blade two, 4-static mixing system, 41-inner core, 42-urceolus, 43-wave alignment unit sheet, 44-cooling water flow pipe, 45-waterflow distributor, 451-distributor pipe, 452-bosh, 453-compound feed opening, 46-current collector, 47-compound exports, 5-drive motors, 6-cooling recirculation system, 61-cold water efferent duct, 62-hot water return pipe, 7-feeding cylinder one, 71-mesh screen, 8-feeding cylinder two, 9-fixed support, 10-shear-blade, 11-feeding tube, 12-coarse fodder tremie pipe.

Detailed description of the invention

In order to make those of ordinary skill in the art understand the technical solution of the utility model, below in conjunction with drawings and Examples, the technical solution of the utility model is further described.

Embodiment: with reference to the dispersion of the integral type for the production of coating shown in accompanying drawing 1 and Homogeneous phase mixing equipment, comprise feeding system 1 and be fixed on the dispersion hybrid system 3 on fixed support 9, described dispersion hybrid system 3 is set to cylindrical, the pump housing is provided with in described feeding system 1, arranging the pump housing is promoted in dispersion hybrid system 3 by raw material, described dispersion hybrid system 3 top is provided with drive motors 5, described dispersion hybrid system 3 top cover being positioned at described drive motors 5 both sides is respectively equipped with feeding cylinder 1, feeding cylinder 28, feeding cylinder 1, feeding cylinder 28 is all obliquely installed, various source fillings is mainly added in feeding cylinder 1, in order to add various additive in feeding cylinder 28, described feeding cylinder 1 inside is provided with mesh screen 71, described feeding system 1 is located at described dispersion hybrid system 3 side, and described feeding system 1 is connected with described feeding cylinder 1 is through by feeding tube 11, described feeding system 1 is provided with circulation crushing system 2, described circulation crushing system 2 discharging end with just to described feeding system 1, described circulation crushing system 2 upper end is connected with described feeding cylinder 1 side is through by coarse fodder tremie pipe 12, and be connected with mesh screen 71 side is through, raw material is after mesh screen 71 sieves, larger particles falls into coarse fodder tremie pipe 12 by inclination mesh screen 71, and then enter in circulation crushing system 2, the fines pulverized again in described circulation crushing system 2 can directly fall in feeding system 1, be provided with the rotating shaft 31 be fixedly connected with described drive motors 5 output shaft end in described dispersion hybrid system 3 inner upper end straight down, described rotating shaft 31 is also provided with dual dispersing mixer structure, in described dispersion hybrid system 3 lower end, 2 static mixing systems 4 are set, each described static mixing system upper end is connected with through bottom described dispersion hybrid system 3, each described static mixing system 4 inside is provided with 4 wave alignment unit sheet 43(as Fig. 3), each described wave alignment unit sheet 43 is combined by recess and protuberance interval, each described wave alignment unit sheet 43 is close to static mixing system 4 inwall, and vertically arrange, formed and there is large cavity and areola structure separately, the tab of 4 wave alignment unit sheets 43 forms areola, the recess of 4 wave alignment unit sheets 43 combines and forms large cavity, cooling recirculation system 6 is also provided with 4 described static mixing system 4 sides.

In the utility model, described dual dispersing mixer structure comprises and is located at helical blade 32 on described rotating shaft 31 and is fixed on some layers on described rotating shaft 31 agitating device arranged side by side from the top down, every layer of described agitating device comprises equidistant to be fixed on described rotating shaft 31 and to 6 shafts 33 of described dispersion hybrid system 3 interior periphery radiation, each described shaft 33 end and middle part are respectively equipped with blade 1 and the blade 2 35 of arc, the length of each described shaft 33 is close to the length of described dispersion hybrid system 3 radius, each described blade 1 both ends and each described blade 2 35 both ends are equipped with shear-blade 10(as Fig. 2).

In the utility model, each described static mixing system 4 is drum, and be made up of inner core 41 and urceolus 42, some cooling water flow pipes 44 are provided with between described inner core 41 and urceolus 42, cooling water is transported in each static mixing system from bottom to top by some cooling water water flow pipes 44, heat remaining in coating can be taken away in the process that cooling water constantly transports, cooling fast, on each described static mixing system 4, lower two ends are respectively equipped with current collector 46(as Fig. 5) and waterflow distributor 45(as Fig. 4), current collector 45 rallies together by the cooling water with heat, and waterflow distributor 45 is uniformly distributed by cooling water, reach the effect of uniform decrease in temperature, compound outlet 47 is also provided with in each described static mixing system 4 bottom, described waterflow distributor 45 is made up of the circular pipeline being located at upper end and the bosh 452 that is located at lower end, be provided with in described circular pipeline and each described cooling water flow pipe 44 distributor pipe 451 one to one, compound feed opening 453 is had bottom described bosh 452, by cooling compo from compound feed opening 453 blanking, 47 dischargings are exported again by compound, packaging.

In the utility model, described cooling recirculation system 6 one end carries cooling water by cold water efferent duct 61 to each described waterflow distributor 45, the other end passes through hot water return pipe 62 by the hot water recycled back in each current collector 46 to cooling recirculation system 6, and circulating pump is provided with on described hot water return pipe 62 pipeline, cooling water is evenly flowed to each static mixing system 4 by cold water efferent duct 61, and again by hot water return pipe 62 by flow in each static mixing system 4 and cooling water with heat be again circulated to by circulating pump in cooling recirculation system 6, environmental protection, do not waste water source.

The utility model principle and beneficial effect are:

1, mesh screen 71 is set in the feeding cylinder 1 of dispersion mixing equipment, bulky grain in mesh screen 71 is pulverized in circulation crushing system 2 again by coarse fodder tremie pipe 12, the relatively fine particle pulverized directly falls into feeding system 1, again enter in dispersion hybrid system 3 by feeding tube 11, which ensure that the quality of charging, guarantee uniform particles;

2, rotating shaft 31 in dispersion hybrid system 3 arranges dual dispersing mixer structure, be respectively helical blade 32 and be fixed on rotating shaft 31 and to the shaft 33 of dispersion hybrid system ambient radiation, shaft 33 is provided with blade 1 and blade 2 35, blade 1 is located at shaft 33 end, blade 1 both ends also arrange shear-blade 10, coating can not disperseed within the shortest time mix by means of only dual dispersing mixer structure in the process stirred, and the coating be bonded on dispersion hybrid system 3 inwall can be wiped off by shear-blade 10, avoid waste,

3, static mixing system 4 is directly arranged in the bottom of dispersion hybrid system 3, guarantee that falling into static mixing system 4 through the coating energy very first time tentatively mixed in dispersion hybrid system 3 mixes again, and the unit sheet 43 adopting 2 waves linear in static mixing system 4, the linear unit sheet 43 of wave is formed larger, less cavity separately, its static mixing effect reaches best, and avoid the bonding of coating, and cooling water flow pipe 44 is also set in static mixing system 4, the partial heat produced in dispersion hybrid system 3 is taken away by cooling water flow pipe 44, it is good that thermal effect falls,

?4, disperse hybrid system 3 and some static mixing systems 4 to be wholely set, save and take up an area space.

The foregoing is only preferred embodiment of the present utility model, not conduct is to further restriction of the present utility model, and every various equivalent transformations utilizing the utility model description and accompanying drawing content to do are all within protection domain of the present utility model.

Claims (9)

1. for the production of integral type dispersion and the Homogeneous phase mixing equipment of coating, comprise feeding system (1) and be fixed on the dispersion hybrid system (3) on fixed support (9), described dispersion hybrid system (3) top is provided with drive motors (5), it is characterized in that: on described dispersion hybrid system (3) top cover being positioned at described drive motors (5) both sides, be respectively equipped with feeding cylinder one (7), feeding cylinder two (8), described feeding cylinder one (7) inside is provided with mesh screen (71), described feeding system (1) is located at described dispersion hybrid system (3) side, and described feeding system (1) is connected with described feeding cylinder one (7) is through by feeding tube (11), described feeding system (1) is provided with circulation crushing system (2), described circulation crushing system (2) upper end is connected with described feeding cylinder one (7) side is through by coarse fodder tremie pipe (12), be provided with in described dispersion hybrid system (3) inner upper end the rotating shaft (31) be fixedly connected with described drive motors (5) output shaft end straight down, described rotating shaft (31) is also provided with dual dispersing mixer structure, in described dispersion hybrid system (3) lower end, some static mixing systems (4) are set, each described static mixing system (4) inside is provided with some wave alignment unit sheets (43), is also provided with cooling recirculation system (6) in some described static mixing system (4) sides.

2. the integral type for the production of coating according to claim 1 dispersion and Homogeneous phase mixing equipment, is characterized in that: described dual dispersing mixer structure comprises the helical blade (32) be located on described rotating shaft (31) and the some layers be fixed on from the top down on described rotating shaft (31) agitating device arranged side by side.

3. the dispersion of the integral type for the production of coating according to claim 2 and Homogeneous phase mixing equipment, it is characterized in that: every layer of described agitating device comprises and be equidistantly fixed on that described rotating shaft (31) is upper and to some shafts (33) of described dispersion hybrid system (3) interior periphery radiation, each described shaft (33) end and middle part are respectively equipped with blade one (34) and the blade two (35) of arc.

4. the dispersion of the integral type for the production of coating according to claim 3 and Homogeneous phase mixing equipment, is characterized in that: each described blade one (34) both ends and each described blade two (35) both ends are equipped with shear-blade (10).

5. the dispersion of the integral type for the production of coating according to claim 1 and Homogeneous phase mixing equipment, it is characterized in that: each described static mixing system (4) is drum, and be made up of inner core (41) and urceolus (42), some cooling water flow pipes (44) are provided with between described inner core (41) and urceolus (42), each described static mixing system (4) upper/lower terminal is respectively equipped with current collector (46) and waterflow distributor (45), is also provided with compound outlet (47) in each described static mixing system (4) bottom.

6. the dispersion of the integral type for the production of coating according to claim 5 and Homogeneous phase mixing equipment, it is characterized in that: described waterflow distributor (45) is made up of the circular pipeline being located at upper end and the bosh (452) that is located at lower end, be provided with in described circular pipeline and each described cooling water flow pipe (44) distributor pipe (451) one to one, described bosh (452) bottom has compound feed opening (453).

7. the dispersion of the integral type for the production of coating according to claim 1 and Homogeneous phase mixing equipment, is characterized in that: each described wave alignment unit sheet (43) is combined by recess and protuberance interval.

8. the dispersion of the integral type for the production of coating according to claim 5 or 6 and Homogeneous phase mixing equipment, it is characterized in that: described cooling recirculation system (6) one end carries cooling water by cold water efferent duct (61) to each described waterflow distributor (45), the other end passes through hot water return pipe (62) by the hot water recycled back in each current collector (46) to cooling recirculation system (6), and is provided with circulating pump on described hot water return pipe (62) pipeline.

9. the dispersion of the integral type for the production of coating according to claim 1 and Homogeneous phase mixing equipment, is characterized in that: described feeding system is provided with the pump housing in (1).