CN204544042U - For the production of the lift double rotational directions coating dispersion machine of UV water-thinned nanometer paint - Google Patents

Abstract

The utility model belongs to the coating dispersion machine in coating material production technical field, its object is to the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint providing a kind of stirring vane height adjustable, stirring efficiency high.It comprises base, top board and the connecting plate for connecting base and top board, and base is provided with rotating disk, and rotating disk is fixed with dispersion bucket, cover top surface is provided with controller, and top board lower surface is connected with hydraulic cylinder, and the driving shaft end of hydraulic cylinder is connected with lifting platform; Lifting platform is connected with drive motors, and drive motors output shaft end is connected with shaft, and shaft end is connected with stirring vane, and stirring vane and part shaft stretch in dispersion bucket, and the direction of rotation of rotating disk is contrary with the direction of rotation of shaft; Be provided with pressure sensor bottom stirring vane, pressure sensor and hydraulic cylinder are all electrically connected with controller.The utility model is applicable to the lift double rotational directions coating dispersion machine producing UV water-thinned nanometer paint.

Description

For the production of the lift double rotational directions coating dispersion machine of UV water-thinned nanometer paint

Technical field

The utility model belongs to coating material production technical field, relates to a kind of coating dispersion machine, particularly a kind of lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint.

Background technology

Coating dispersion machine is the important component part in coating production process, needs to use dispersion machine to carry out dispersion treatment to coating when coating material production, just can carry out next step operation after coating is disperseed completely.Existing dispersion machine is primarily of dynamical system, main transmission, stirring system, guiding mechanism, electric cabinet five part composition, and stirring system stretches in paint can, the shaft of stirring system is rotated and stirs coating to reach the object of dispersion.But because the mixing speed of agitating device is restricted, can not complete quickly and spread the work, the time making to disperse this link to spend in coating material production is more, and dispersion efficiency is low.

For solving this technical problem, application number be 201320584190.7 utility model patent disclose a kind of paint dispersion machine, it comprises base and support, described base is placed dispersion bucket, described support is provided with agitating device, and described agitating device stretches in dispersion bucket, described base is provided with rotating disk, described rotating disk drives it to rotate by drive unit, and described dispersion bucket is fixed on described rotating disk, and the direction of rotation of described rotating disk is contrary with the direction of rotation of described agitating device.Dispersion bucket is fixed on rotating disk by this dispersion machine, drive dispersion bucket to rotate when turntable rotation, agitating device rotates simultaneously and stirs, and rotating disk is contrary with the direction of rotation of agitating device, on the basis not promoting agitating device rotary speed, the relative rotational of agitating device and paint itself is promoted, reversely rotates in conjunction with agitating device and dispersion both buckets and make paint carry out dispersion treatment quickly, improve dispersion efficiency.This paint dispersant is applicable to dispersion paints, but, in dispersion bucket, the liquid level of paint is not remain on a certain height value, it makes to disperse the liquid level of paint in bucket different according to the amount difference adding paint in dispersion bucket, and the dispersion effect of agitating device to paint immerses the degree of depth of painting with stirring vane and has extremely important association, stirring vane immerses the degree of depth of painting can not be too high or too low, thus the height of the agitating device of above-mentioned paint dispersion machine can not adjust according to the liquid level painted in dispersion bucket, its scope of application is subject to a definite limitation, and stirring efficiency is poor.

Utility model content

The purpose of this utility model is: for above-mentioned paint dispersion machine Problems existing, provides the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint that a kind of stirring vane height adjustable, stirring efficiency are high.

To achieve these goals, the technical solution adopted in the utility model is:

A kind of lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint, comprise base, top board and the connecting plate for connecting base and top board, described base is provided with rotating disk, described rotating disk is fixed with dispersion bucket, it is characterized in that, described cover top surface is provided with controller, and described top board lower surface is connected with hydraulic cylinder, and the driving shaft end of described hydraulic cylinder is connected with lifting platform; Described lifting platform is connected with drive motors, described drive motors output shaft end is connected with shaft, described shaft end is connected with stirring vane, and described stirring vane and part shaft stretch in dispersion bucket, and the direction of rotation of rotating disk is contrary with the direction of rotation of shaft; Be provided with pressure sensor bottom described stirring vane, described pressure sensor and hydraulic cylinder are all electrically connected with controller.

During the work of this dispersion machine, drive motors drives shaft to rotate, the shaft rotated drives the stirring vane of shaft end to rotate around the axis of shaft, thus constantly stirs the coating in dispersion bucket, makes pigment and part paint vehicle be mixed into dispersible pigment color paste semi-finished product.Because the addition difference of dispersion bucket inside courtyard makes the liquid level of coating sometimes higher sometimes lower, thus need the position constantly regulating shaft end stirring vane, thus the coating in dispersion bucket is effectively stirred; After stirring vane immerses the coating liquid level of dispersion bucket with shaft, along with stirring vane immerses in coating more and more darker, the increasing pressure that pressure sensor on stirring vane detects is large, when stirring vane immerses certain depth, after the force value that pressure sensor detects reaches certain value, the pressure signal detected is transferred to controller by pressure sensor, and controller produces corresponding control signal and hydraulic control cylinder working or quit work.

As preferred version of the present utility model, described top board is provided with at least three hydraulic cylinders, and at least three hydraulic cylinders are circularly and evenly distributed on top board.

As preferred version of the present utility model, described stirring vane comprises the helical blades and serrated disks formula impeller that set gradually from top to bottom, described helical blades spiral surrounding is on the outer surface of shaft, and described serrated disks formula impeller is fixedly connected on bottom shaft.

As preferred version of the present utility model, described serrated disks formula wheel bottom is evenly equipped with some blades along the circumferencial direction of serrated disks formula impeller.

As preferred version of the present utility model, described blade is 30 degree to 60 degree relative to serrated disks formula circumference of impeller tangent line deflection angle α, and the deflection angle of adjacent two blades is contrary.

As preferred version of the present utility model, the outer surface of described helical blades and serrated disks formula impeller is equipped with the wear-resistant coating that a layer thickness is 1mm to 3mm.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

1, in the utility model, by being fixedly installed hydraulic cylinder on top board, bottom stirring vane, pressure sensor is set, detect the pressure (position namely below liquid level) residing for stirring vane accurately, and the height of lifting platform is regulated by controller hydraulic control cylinder, thus indirectly control the height and position of stirring vane, thus can according to the position of the liquid level adjustment stirring vane of dispersion bucket inside courtyard, stirring vane is made to immerse the degree of depth of coating near a certain fixed value, thus the dispersion effect improved the coating of different liquid level, improve the scope of application of dispersion machine, and the direction of rotation of rotating disk is contrary with the direction of rotation of shaft, on the basis not promoting shaft rotary speed, the relative rotational of shaft and coating itself is promoted, reversely rotating in conjunction with shaft and dispersion both buckets makes coating carry out dispersion treatment quickly, improves dispersion efficiency.

2, in the utility model, top board is arranged at least three hydraulic cylinders, and multiple hydraulic cylinder is circularly and evenly distributed on top board, improve the stability be connected between lifting platform with top board, effectively avoid the vibrations caused because of drive motors work to cause the destruction be connected between lifting platform with top board.

3, in the utility model, stirring vane adopts helical blades and serrated disks formula impeller to combine, the High Rotation Speed of impeller makes mill base present the circulation of rolling, and produce a very large vortex, in vane edge 2.5-5cm place's formation turbulent area, in this region, pigment particles is subject to stronger shearing and percussion, make it be distributed to very soon in mill base, make to stir more even, mixing effect is better.

4, in the utility model, blade is relative to serrated disks formula circumference of impeller tangent line deflection certain angle, and the deflection angle of adjacent two blades is contrary, any one blade is all contrary with adjacent blade deflection angle, so just make the liquid phase turbulent flow rotating coating change, flowing to of coating is indefinite, and the flow velocity on the same surfaces of revolution is not identical yet, thus the stirring effect improved coating, the stirring of coating is more full and uniform.

5, the utility model is in conjunction with supersonic spray coating technology, coating texture and surface micro-moulding technology, the outer surface of helical blades and serrated disks formula impeller obtains face coat institutional framework fine and close, evenly and give full play to coating top layer lubrication mutually and the low friction, wear resistant coatings of the low friction usefulness of the texture coupling of coating surface, finally reach the effect that helical blades and serrated disks formula impeller have high abrasion, extend its service life.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of serrated disks formula impeller in the utility model;

Fig. 3 is the A direction view of Fig. 1;

Mark in figure: 1-base, 2-connecting plate, 3-top board, 4-hydraulic cylinder, 5-driving shaft, 6-lifting platform, 7-drive motors, 8-bearing, 9-shaft, 10-helical blades, 11-serrated disks formula impeller, 12-blade, 13-rotating disk, 14-dispersion bucket, 15-pressure sensor, 16-controller.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

embodiment 1

For the production of a lift double rotational directions coating dispersion machine for UV water-thinned nanometer paint, comprise base 1, top board 3 and connecting plate 2, these connecting plate 2 two ends connect base 1 and top board 3 respectively.Base 1 is provided with rotating disk 13, and this rotating disk 13 is connected with rotating disk drive motors by belt, and this rotating disk drive motors drives rotating disk 13 to rotate.Rotating disk 13 is provided with dispersion bucket 14, this dispersion bucket 14 is fixedly connected with rotating disk 13, and rotates with rotating disk 13.The upper surface of top board 3 is provided with controller 16, the lower surface of top board 3 is connected with hydraulic cylinder 4, and this hydraulic cylinder 4 can arrange multiple, and in the present embodiment, hydraulic cylinder 4 arranges three, and three hydraulic cylinders 4 are circumferentially uniform on top board 3.Driving shaft 5 end of three hydraulic cylinders 4 is all connected with lifting platform 6, when hydraulic cylinder 4 drives driving shaft 5 to downward-extension (or upwards shrinking), drives lifting platform 6 to decline (or rising) accordingly.Lifting platform 6 is connected with drive motors 7, this drive motors 7 can be arranged on end face or the bottom surface of lifting platform 6, but in the present embodiment, drive motors 7 is arranged on the end face of lifting platform 6.The output shaft of drive motors 7 is connected with shaft 9, and shaft 9 is passed lifting platform 6 by bearing 8 and driven the axis along shaft 9 to rotate by drive motors 7.Shaft 9 end is connected with stirring vane, and when drive motors 7 drives shaft 9 to rotate, the stirring vane on shaft 9 rotates with shaft 9.In the present embodiment, the direction of rotation of rotating disk 13 is set to contrary with the direction of rotation of shaft 9, thus on the basis not promoting shaft 9 rotary speed, the relative rotational of shaft 9 with coating itself is promoted, reversely rotating in conjunction with shaft 9 and dispersion both buckets 14 makes coating carry out dispersion treatment quickly, improves dispersion efficiency.Stirring vane and part shaft 9 together stretch into and disperse in bucket 14, and the stirring vane in dispersion bucket 14 stirs and evenly mixs the coating in dispersion bucket 14.In the present embodiment, stirring vane adopts serrated disks formula impeller 11, the diameter of serrated disks formula impeller 11 has direct relation with the diameter of dispersion bucket, and dispersion bucket diameter D1 be 2.8 to 4 times of serrated disks formula impeller 11 diameter D2 (namely, D1=2.8-4D2), in the present embodiment, the diameter D1 of dispersion bucket is 2.8 times (that is, D1=2.8D2) of serrated disks formula impeller 11 diameter D2.The High Rotation Speed of serrated disks formula impeller 11 makes mill base present the circulation of rolling, and produce a very large vortex, in serrated disks formula impeller 11 edge 2.5-5cm place formation turbulent area, in this region, pigment particles is subject to stronger shearing and percussion, make it be distributed to very soon in mill base, make to stir more even, mixing effect is better.In addition, pressure sensor 15 is provided with bottom stirring vane or serrated disks formula impeller 11, this pressure sensor 15, hydraulic cylinder 4 are all electrically connected with controller 16, the pressure signal that pressure sensor 15 is detected is delivered to controller, controller produces control signal hydraulic control cylinder working or quit work, and realizes shaft 9, the rising of stirring vane or decline.

During the work of this dispersion machine, drive motors 7 drives shaft 9 to rotate, the shaft 9 rotated drives the stirring vane of shaft 9 end to rotate around the axis of shaft 9, thus constantly stirs the coating in dispersion bucket, makes pigment and part paint vehicle be mixed into dispersible pigment color paste semi-finished product.Because the addition difference of dispersion bucket 14 inside courtyard makes the liquid level of coating sometimes higher sometimes lower, thus need the position constantly regulating shaft 9 end stirring vane, thus the coating in dispersion bucket 14 is effectively stirred; After stirring vane immerses the coating liquid level of dispersion bucket 14 with shaft 9, along with stirring vane immerses in coating more and more darker, the increasing pressure that pressure sensor 15 on stirring vane detects is large, when stirring vane immerses certain depth, after the force value that pressure sensor 15 detects reaches certain value, the pressure signal detected is transferred to controller 16 by pressure sensor 15, controller 16 produces corresponding control signal and hydraulic control cylinder 4 works or quits work, thus the position realizing shaft 9 and stirring vane rises, declines or remain unchanged.

embodiment 2

On the basis of embodiment one, stirring vane adopts the combined type stirring vane of helical blades 10 and serrated disks formula impeller 11 composition.Helical blades 10 and serrated disks formula impeller 11 set gradually from top to bottom, and the direct spiral surrounding of the helical blades 10 being positioned at top is on the outer surface of shaft 9, and the serrated disks formula impeller 11 being positioned at below is fixedly connected on bottom shaft 9.Wherein the rotation direction of helical blades 10 is identical with the rotation direction of serrated disks formula impeller 11, also can be contrary.In the present embodiment, the rotation direction of helical blades 10 is contrary with the rotation direction of serrated disks formula impeller 11.

Because the rotation direction of helical blades 10 is contrary with the rotation direction of serrated disks formula impeller 11, the liquid phase turbulent flow rotating coating is changed, and flowing to of coating is indefinite, and the flow velocity on different rotary face is not identical yet, thus the stirring effect improved coating, the stirring of coating is more full and uniform.

embodiment 3

On the basis of embodiment two, be connected with some blades 12 bottom serrated disks formula impeller 11, some blades 12 are uniform along the circumference of serrated disks formula impeller 11.Every block blade 12 is identical relative to serrated disks formula impeller 11 tangent to periphery deflection angle α, and deflection angle α is 30 degree to 60 degree, and the deflection angle of adjacent two pieces of blades 12 is identical.In the present embodiment, deflection angle α gets 30 degree.

embodiment 4

On the basis of embodiment two, be connected with some blades 12 bottom serrated disks formula impeller 11, some blades 12 are uniform along the circumference of serrated disks formula impeller 11.Every block blade 12 is identical relative to serrated disks formula impeller 11 tangent to periphery deflection angle α, and deflection angle α is 30 degree to 60 degree, and the deflection angle of adjacent two pieces of blades 12 contrary (as shown in Figure 2 or Figure 3).In the present embodiment, deflection angle α gets 45 degree.

Blade 12 is relative to serrated disks formula impeller 11 tangent to periphery deflection certain angle, and the deflection angle of adjacent two blades 12 is contrary, any one blade 12 is all contrary with adjacent blade 12 deflection angle, the liquid phase turbulent flow rotating coating is so just made to change, flowing to of coating is indefinite, flow velocity on the same surfaces of revolution is not identical yet, thus improves the stirring effect to coating, and the stirring of coating is more full and uniform.

embodiment 5

On the basis of above-described embodiment, the outer surface of helical blades 10, serrated disks formula impeller 11 and blade 12 is equipped with the wear-resistant coating that a layer thickness is 1mm to 3mm, this wear-resistant coating is using nichrome-chromium-aluminium-yttrium composite powder, La2O3 and WS2 lubricant as composite coating and adopt Supersonic Plasma Spraying equipment to spray the coating top layer forming network skeleton structure, gradient-structure is had along depth direction, anisotropy stepped construction is had along surface direction, coating surface has laser micro molding, and this laser micro molding can alternation rule arrangement regular hexagon.

Matrix material is GCr15, dusty spray is nichrome-chromium-aluminium-yttrium composite powder, La2O3 and WS2 lubricant, adopt powder mixing machine mode by selected alloy powder and lubricant Homogeneous phase mixing, the thermal spraying that the High Efficiency Supersonic Plasma Spraying System (HEPJet) adopting equipment remanufacturing science and techniques of defence major test room to develop voluntarily carries out anti-friction wear-resistant coating is shaped.Before spraying, specimen surface first uses gasoline and alcohol washes, then uses Brown Alundum sandblasting.After spraying, first grinding and polishing are carried out to sprayed coating, then use ultrasonic wave alcohol washes.

Then carry out laser micro molding on precoated shet surface, carry out regular hexagon (nearly Palta type) moulding on precoated shet surface.The Rapid laser instrument that laser micro molding adopts German LUMERA company to produce, has picosecond pulsewidth, the medium pulse energy of uJ level and very high repetition rate.Rapid is a kind of high efficiency diode pumping Nd: YVO4 picosecond laser.Machined parameters is: RAPID, 10Ps, 1064nm; Mean power 0.8w; Polarization: circular; Repetition rate: 500KHz; Process time: the process time of machining area is 285s.

Prepare on wear-resistant coating surface the tribological property that micro asperities improves coating, the texture density of coating surface, trend and the feature such as pattern form, Size Distribution will affect contact stress and pressure distribution form; Gradient-structure along depth direction will improve bond strength and the bearing capacity of coating, anisotropy stepped construction along surface direction will change surperficial distribution of contact, realize lubrication and wear-resistant synergy, these surface structures all can produce special lubrication anti-wear effect, therefore, use the synergy of lubricant coating surface structure and coating surface micro forming, wear-resistant coating coefficient of friction can be reduced and there is excellent abrasive resistance simultaneously.

embodiment 6

On the basis of embodiment three or embodiment four, connecting plate 2 or top board 3 are provided with controller, are provided with pressure sensor bottom blade 12, this pressure sensor is connected with controller with hydraulic cylinder 4.When hydraulic cylinder 4 drives shaft 9 to decline, the blade 12 below shaft 9 immerses in coating gradually, and the pressure sensor on blade 12 detects the force value of the degree of depth residing for blade 12.After blade 12 drops to certain depth, the force value that pressure sensor detects produces pressure signal after reaching certain value, and this pressure signal is transferred to controller, controller produces control signal hydraulic control cylinder 4 after receiving pressure signal and works or quit work, and lifting platform 6 is declined or stops declining.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint, comprise base (1), top board (3) and the connecting plate (2) for connecting base (1) and top board (3), described base (1) is provided with rotating disk (13), described rotating disk (13) is fixed with dispersion bucket (14), it is characterized in that, described top board (3) upper surface is provided with controller (16), described top board (3) lower surface is connected with hydraulic cylinder (4), and driving shaft (5) end of described hydraulic cylinder (4) is connected with lifting platform (6); Described lifting platform (6) is connected with drive motors (7), described drive motors (7) output shaft end is connected with shaft (9), described shaft (9) end is connected with stirring vane, described stirring vane and part shaft (9) stretch in dispersion bucket (14), and the direction of rotation of rotating disk (13) is contrary with the direction of rotation of shaft (9); Be provided with pressure sensor (15) bottom described stirring vane, described pressure sensor (15) and hydraulic cylinder (4) are all electrically connected with controller (16).

2. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint according to claim 1, it is characterized in that, described top board (3) is provided with at least three hydraulic cylinders (4), and at least three hydraulic cylinders (4) are circularly and evenly distributed on top board (3).

3. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint according to claim 1, it is characterized in that, described stirring vane comprises the helical blades (10) and serrated disks formula impeller (11) that set gradually from top to bottom, described helical blades (10) spiral surrounding is on the outer surface of shaft (9), and described serrated disks formula impeller (11) is fixedly connected on shaft (9) bottom.

4. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint according to claim 3, it is characterized in that, described serrated disks formula impeller (11) bottom is evenly equipped with some blades (12) along the circumferencial direction of serrated disks formula impeller (11).

5. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint according to claim 4, it is characterized in that, described blade (12) is 30 degree to 60 degree relative to serrated disks formula impeller (11) tangent to periphery deflection angle α, and the deflection angle of adjacent two blades (12) is contrary.

6. the lift double rotational directions coating dispersion machine for the production of UV water-thinned nanometer paint according to claim 3,4 or 5, it is characterized in that, the outer surface of described helical blades (10) and serrated disks formula impeller (11) is equipped with the wear-resistant coating that a layer thickness is 1mm to 3mm.