CN218249825U - Insulating varnish production adds mixing stirring device with inorganic nanometer powder - Google Patents

Abstract

The utility model discloses an insulating varnish production adds mixed agitating unit with inorganic nanometer powder, relate to insulating varnish mixed agitating unit field, including placing the board, mix jar and support lid, be equipped with the discharge opening on the mix jar, it evenly spills into the material structure of spilling in the mix jar to cover to support to be equipped with inorganic nanometer powder, the material structure of spilling includes can be at the main (mixing) shaft that supports lid central line free rotation, fixedly connected with discharge box on the main (mixing) shaft, the material structure can make its can be even when adding inorganic nanometer powder fall in insulating varnish, avoid inorganic nanometer powder to appear piling up of large tracts of land appearing on insulating varnish, thereby further avoid inorganic nanometer powder to appear agglomerating phenomenon after contact insulating varnish, and the shearing force is exerted to insulating varnish from the (mixing) shaft and from the puddler with main (mixing) shaft carries out pivoted as the centre of a circle simultaneously when utilizing can the rotation, thereby further improve the mix effect to inorganic nanometer powder, make its mix more even.

Description

Insulating varnish production adds mixing stirring device with inorganic nanometer powder

Technical Field

The utility model relates to an insulating varnish mixing stirring device field specifically is an insulating varnish production adds mixing stirring device with inorganic nanometer powder.

Background

The insulating paint is a general name of a colloidal solution of a film forming substance in a solvent, and the insulating paint is a special paint in paints. The insulating paint is based on high molecular polymer and can be cured into insulating film or important insulating material of insulating whole body under a certain condition.

According to the retrieval discovery, chinese patent that patent number is CN202022446222.X discloses a mixed agitating unit is used in insulating varnish production, place the base through being provided with on the base, it is connected with the base through rotatable support column to place the base bottom, the support column is connected with the driving motor transmission, driving motor drives lifting screw and drives the support column and rotate when carrying out the pivoted, drive lifter plate and rabbling mechanism promptly and when reciprocating in the agitator at lifting screw, simultaneously through the support column with prevent that the base from driving the agitator and carrying out the level rotation, carry out all-round stirring in horizontal direction and vertical direction, combine (mixing) shaft and puddler to stir inside the agitator simultaneously, make stirring effect better.

In view of the above technology, the inventor thinks that the insulating paint in the stirring barrel is mixed by using two motors, so that the insulating paint can generate rotating force in opposite directions in the process of mixing the insulating paint, the power consumption structure is not enough saved, the insulating paint usually has certain viscosity, and when the insulating paint is mixed, more irregular mixing force is not applied to the insulating paint, the mixing efficiency is not further improved, and when inorganic nano powder is mixed, the inorganic nano powder may agglomerate after contacting the insulating paint, so that the mixing of the inorganic nano powder and the insulating paint is not uniform.

To the problem, the utility model provides an insulating varnish production adds mixing stirring device with inorganic nanometer powder.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an add mixing stirring device with inorganic nanometer powder in insulating varnish production, spill the material structure and can make its can be even when adding inorganic nanometer powder fall on insulating varnish, avoid inorganic nanometer powder to appear and appear piling up by a large scale on insulating varnish, thereby further avoid inorganic nanometer powder to appear reuniting the phenomenon behind the contact insulating varnish, and utilize and carry out the pivoted simultaneously with main (mixing) shaft as the centre of a circle and exert the shearing force to insulating varnish from the (mixing) shaft when can the rotation, thereby further improve the mix effect to inorganic nanometer powder, make its mix more even, thereby the problem in the background art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: a mixing and stirring device for adding inorganic nano powder in insulating paint production comprises a placing plate, a stirring tank and a supporting cover, wherein the stirring tank is provided with a discharge hole, and the supporting cover is provided with a material scattering structure for uniformly scattering the inorganic nano powder into the stirring tank;

the material scattering structure comprises a main stirring shaft which can freely rotate on the central line of a supporting cover, a material discharging box is fixedly connected to the main stirring shaft, a ring-shaped groove used for placing inorganic nano powder is formed in the material discharging box, a plurality of discharging ports are formed in the side wall of the material discharging box, the discharging ports are communicated with the ring-shaped groove, the outlet direction of the discharging ports inclines downwards, the discharging ports are uniformly distributed by taking the main stirring shaft as the center, two feeding holes are formed in the position, corresponding to the ring-shaped groove, of the supporting cover, the two feeding holes are vertically arranged in the horizontal direction, and the material scattering structure further comprises a mixing structure used for stirring insulating paint in the mixing tank.

Further, the mix structure includes can the free rotation and uses main (mixing) shaft as a plurality of follow (mixing) shafts of center pivoted, and a plurality of follow (mixing) shafts use main (mixing) shaft evenly to arrange as the axis, fixedly connected with owner puddler on the main (mixing) shaft, fixedly connected with from the puddler on the follow (mixing) shaft.

Further, the master stirring rod and the slave stirring rod are staggered with each other in the vertical direction.

Furthermore, the main stirring shaft penetrates through the output end of the support cover fixedly connected with the motor, the motor is fixedly connected to the support cover, and a driving assembly for driving the rotation of the auxiliary stirring shaft is further arranged on the main stirring shaft.

Further, the driving assembly comprises a main gear fixedly connected to the main stirring shaft, the main gear is meshed with a driven gear, the driven gear is meshed with a gear ring, the gear ring is fixedly connected to the supporting cover, one side face of the driven gear is fixedly connected to the driven stirring shaft, the other side face of the driven gear is fixedly connected with a ball body through a connecting column, and the ball body is connected with the supporting cover in a sliding mode through an annular ball groove formed in the supporting cover.

Furthermore, the supporting cover is fixedly connected with a scissors rod which is fixedly connected with the telescopic end of the multistage electric push rod, and the fixed end of the multistage electric push rod is fixedly connected to the placing plate.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a pair of insulating varnish production adds mixed agitating unit with inorganic nanometer powder, spill the material structure and can make its can be even when adding inorganic nanometer powder fall on insulating varnish, avoid inorganic nanometer powder to appear and appear piling up by a large scale on insulating varnish, thereby further avoid inorganic nanometer powder to appear reunion phenomenon behind the contact insulating varnish, and utilize and carry out the pivoted from the (mixing) shaft and apply the shearing force to insulating varnish from the puddler with main (mixing) shaft as the centre of a circle simultaneously when can the rotation, thereby further improve the mix effect to inorganic nanometer powder, make its mix more even.

2. The utility model provides a pair of insulating varnish production adds mixing stirring device with inorganic nanometer powder, starter motor, the rotation of motor drives the rotation of main (mixing) shaft to drive the rotation of blowing box, make the inorganic nanometer powder in the blowing box discharge from the discharge gate under centrifugal action, thereby further guarantee that inorganic nanometer powder can evenly fall on insulating varnish.

3. The utility model provides a pair of insulating varnish production adds mixed agitating unit with inorganic nanometer powder, the rotation of main (mixing) shaft drives the rotation of master gear, and the rotation of master gear drives from the rotation of gear to the drive is from the rotation of (mixing) shaft and follow the puddler of fixed connection on the gear, makes from the (mixing) shaft can use main (mixing) shaft to rotate as the centre of a circle in the rotation, thereby further improves the mix effect.

Drawings

Fig. 1 is a bottom view of the overall structure of the present invention;

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

FIG. 3 is a schematic view of the structure of the material dispensing box of the present invention;

fig. 4 is a schematic view of the connection relationship between the slave gear and the support cover according to the present invention.

In the figure: 1. placing the plate; 2. a mixing tank; 3. a support cover; 31. an annular ball groove; 4. a multi-stage electric push rod; 5. shearing a cutter rod; 6. a material spreading structure; 61. placing a material box; 62. a discharge port; 63. a motor; 7. a mixing structure; 71. a main stirring shaft; 72. from the stirring shaft; 73. a main stirring rod; 74. a slave stirring rod; 75. a main gear; 76. a slave gear; 77. a ring gear; 78. a sphere; 8. and a feed hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In order to achieve the technical problem of more uniform blending of inorganic nanopowder and insulating paint, as shown in fig. 1-4, the following preferred technical solutions are provided:

a mixing and stirring device for adding inorganic nano powder in insulating paint production comprises a placing plate 1, a mixing tank 2 and a supporting cover 3, wherein a discharge hole is formed in the mixing tank 2, and a material scattering structure 6 for scattering the inorganic nano powder into the mixing tank 2 uniformly is arranged on the supporting cover 3;

spill material structure 6 includes can be at support lid 3 central line free rotation's main (mixing) shaft 71, fixedly connected with blowing box 61 on the main (mixing) shaft 71, offer the ring channel that is used for placing inorganic nanometer powder on the blowing box 61, a plurality of discharge gates 62 have been seted up to the lateral wall of blowing box 61, discharge gate 62 link up with the ring channel, discharge gate 62's export direction slope is down, a plurality of discharge gates 62 use main (mixing) shaft 71 as central evenly distributed, support lid 3 corresponds the ring channel position and has seted up two feed ports 8, two feed ports 8 are arranged perpendicularly on the horizontal direction, spill material structure 6 is still including the mix structure 7 that is used for stirring mix 2 internal insulation paint of jar.

Specifically, the insulation paint is placed in the mixing tank 2, the multistage electric push rod 4 is started to enable the main mixing shaft 71 and the auxiliary mixing shaft 72 to be located in the mixing tank 2, inorganic nano powder is added into the discharging box 61 through the feeding hole 8, the motor 63 is started, the rotation of the motor 63 drives the rotation of the main mixing shaft 71, so that the discharging box 61 is driven to rotate, the inorganic nano powder in the discharging box 61 is discharged from the discharging hole 62 under the centrifugal action, so that the inorganic nano powder falls onto the insulation paint, the rotation of the main mixing shaft 71 drives the rotation of the main gear 75, the rotation of the main gear 75 drives the rotation of the auxiliary gear 76, so that the auxiliary mixing shaft 72 and the auxiliary mixing rod 74 which are fixedly connected to the auxiliary gear 76 are driven to rotate, the auxiliary mixing shaft 72 can rotate around the main mixing shaft 71, the main mixing shaft 73 and the auxiliary mixing rod 74 are staggered in the vertical direction, so that a shearing force is applied to the insulation paint, after the mixing is completed, the multistage electric push rod 4 is lifted to support the main mixing tank 71 to completely separate from the mixing tank 2, the mixing tank can be further, the insulation paint can be moved out from the mixing tank 2, and the mixing tank can be further uniformly stirred by utilizing the phenomenon that the nano powder can be added to avoid the phenomenon that the nano powder and the nano powder can be uniformly accumulated on the mixing shaft 74.

Further, as shown in fig. 1 and fig. 2, the following preferred technical solutions are provided:

the mixing structure 7 comprises a plurality of slave mixing shafts 72 which can rotate freely and rotate by taking the main mixing shaft 71 as a center, the slave mixing shafts 72 are uniformly distributed by taking the main mixing shaft 71 as a central axis, a main mixing rod 73 is fixedly connected to the main mixing shaft 71, and a slave mixing rod 74 is fixedly connected to the slave mixing shaft 72.

Specifically, the motor 63 is started, and the rotation of the motor 63 drives the rotation of the main stirring shaft 71, so as to drive the discharge box 61 to rotate, so that the inorganic nano powder in the discharge box 61 is discharged from the discharge hole 62 under the centrifugal action, and the inorganic nano powder can be further ensured to uniformly fall on the insulating paint.

Further, as shown in fig. 1 and fig. 2, the following preferred technical solutions are provided:

the master stirring rod 73 and the slave stirring rod 74 are vertically staggered with each other.

Specifically, the main stirring rods 73 and the sub-stirring rods 74 are staggered with each other in the vertical direction, so that a shearing force is applied to the enamel, thereby further improving the stirring effect.

Further, as shown in fig. 1 and fig. 4, the following preferred technical solutions are provided:

the main stirring shaft 71 penetrates through the output end of the motor 63 fixedly connected with the support cover 3, the motor 63 is fixedly connected with the support cover 3, and a driving assembly for driving the driven stirring shaft 72 to rotate is further arranged on the main stirring shaft 71.

Specifically, the motor 63 is used for driving the rotation of the main stirring shaft 71, and the driving assembly is used for driving the rotation of the slave stirring shaft 72, so that the mixing effect is further improved through the mutual matching of the main stirring shaft 71 and the slave stirring shaft 72.

Further, as shown in fig. 1, fig. 2 and fig. 4, the following preferred technical solutions are provided:

the driving assembly comprises a main gear 75 fixedly connected to the main stirring shaft 71, the main gear 75 is meshed with a driven gear 76, the driven gear 76 is meshed with a gear ring 77, the gear ring 77 is fixedly connected to the supporting cover 3, one side surface of the driven gear 76 is fixedly connected with the driven stirring shaft 72, the other side surface of the driven gear 76 is fixedly connected with a ball 78 through a connecting column, and the ball 78 is in sliding connection with the supporting cover 3 through an annular ball groove 31 formed in the supporting cover 3.

Specifically, the rotation of the main stirring shaft 71 drives the rotation of the main gear 75, and the rotation of the main gear 75 drives the rotation of the slave gear 76, so as to drive the rotation of the slave stirring shaft 72 and the slave stirring rod 74 fixedly connected to the slave gear 76, so that the slave stirring shaft 72 can rotate around the main stirring shaft 71 while rotating, thereby further improving the mixing effect.

Further, as shown in fig. 1 and fig. 4, the following preferred technical solutions are provided:

support 3 fixedly connected with of lid and cut cutter arbor 5, cut the flexible end of 5 fixed connection multistage electric push rods 4 of cutter arbor, multistage electric push rods 4's stiff end fixed connection is on placing board 1.

Specifically, the height of the support cover 3 is increased or decreased by the multistage electric push rod 4, so that the heights of the main stirring shaft 71 and the auxiliary stirring shaft 72 are changed, thereby ensuring the stirring action on the insulating paint in the stirring tank 2.

To sum up: insulating paint is placed in a mixing tank 2, a multistage electric push rod 4 is started to enable a main stirring shaft 71 and a secondary stirring shaft 72 to be positioned in the mixing tank 2, inorganic nano powder is added into a discharging box 61 through a feeding hole 8, a motor 63 is started, the rotation of the motor 63 drives the rotation of the main stirring shaft 71 so as to drive the discharging box 61 to rotate, the inorganic nano powder in the discharging box 61 is discharged from a discharging hole 62 under the centrifugal action, so that the inorganic nano powder falls onto the insulating paint, the rotation of the main stirring shaft 71 drives a main gear 75 to rotate, the rotation of the main gear 75 drives a secondary gear 76 to rotate, so that the secondary stirring shaft 72 and a secondary stirring rod 74 fixedly connected to the secondary gear 76 are driven to rotate, and the secondary stirring shaft 72 can rotate around the main stirring shaft 71 while rotating, and main puddler 73 and from puddler 74 are crisscross each other in the vertical direction to exert a shearing force to insulating paint, after the mix is accomplished, start multistage electric push rod 4, raise and support lid 3, after main (mixing) shaft 71 breaks away from mix jar 2 completely, it can to move out mix jar 2, material scattering structure 6 can make its can be even when adding inorganic nanometer powder fall in insulating paint, avoid inorganic nanometer powder to appear and large tracts of land pile up appears on insulating paint, thereby further avoid inorganic nanometer powder to appear phenomenon after contact insulating paint, and utilize and can reunite the while and carry out pivoted from (mixing) shaft 72 and follow puddler 74 and exert the shearing force to insulating paint with main (mixing) shaft 71 as the centre of a circle, thereby further improve the mixing effect to inorganic nanometer powder, make its mix more even.

The utility model provides a power supply interface of power consumption component passes through switch (not drawn in the figure) and wire (not drawn in the figure) and connects power supply system to the realization is to its control, and the circuit and the control that wherein relate to are prior art, and for current field technical known, do not have here too much repeated description.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A mixing and stirring device for adding inorganic nano powder in insulating paint production comprises a placing plate (1), a mixing tank (2) and a supporting cover (3), wherein the mixing tank (2) is provided with a discharge hole, and is characterized in that the supporting cover (3) is provided with a material scattering structure (6) for scattering the inorganic nano powder into the mixing tank (2) uniformly;

spill material structure (6) including can be at main (mixing) shaft (71) of support lid (3) central line free rotation, fixedly connected with blowing box (61) are gone up in main (mixing) shaft (71), offer the ring channel that is used for placing inorganic nanometer powder on blowing box (61), a plurality of discharge gates (62) have been seted up to the lateral wall of blowing box (61), discharge gate (62) link up with the ring channel, the export direction slope of discharge gate (62) is down, a plurality of discharge gates (62) use main (mixing) shaft (71) as central evenly distributed, two feed ports (8) have been seted up to support lid (3) corresponding ring channel position, two feed ports (8) are arranged perpendicularly on the horizontal direction, spill material structure (6) still including mix structure (7) that are used for stirring jar (2) internal insulation lacquer.

2. The mixing and stirring device for the inorganic nano powder for the insulating paint production and addition according to claim 1 is characterized in that: mix structure (7) including can the free rotation and use main (mixing) shaft (71) as a plurality of follow (mixing) shaft (72) of center pivoted, a plurality of follow (mixing) shaft (72) use main (mixing) shaft (71) evenly to arrange as the axis, fixedly connected with owner puddler (73) on main (mixing) shaft (71), fixedly connected with from puddler (74) on follow (mixing) shaft (72).

3. The mixing and stirring device for inorganic nanopowder for insulating paint production and addition according to claim 2, wherein the main stirring rod (73) and the auxiliary stirring rod (74) are vertically staggered.

4. The mixing and stirring device for the inorganic nano powder for the insulating paint production and addition according to claim 1 is characterized in that: the main stirring shaft (71) penetrates through the output end of the motor (63) fixedly connected with the support cover (3), the motor (63) is fixedly connected onto the support cover (3), and a driving assembly for driving the rotation of the auxiliary stirring shaft (72) is further arranged on the main stirring shaft (71).

5. The mixing and stirring device for the inorganic nano powder for the insulating paint production and addition according to claim 4 is characterized in that: the driving assembly comprises a main gear (75) fixedly connected to a main stirring shaft (71), the main gear (75) is meshed with a slave gear (76), a gear ring (77) is meshed with the slave gear (76), the gear ring (77) is fixedly connected to a supporting cover (3), a side face of the slave gear (76) is fixedly connected to a slave stirring shaft (72), a connecting column is fixedly connected to a sphere (78) from the other side face of the gear (76), and the sphere (78) is connected to the supporting cover (3) in a sliding mode through an annular ball groove (31) formed in the supporting cover (3).

6. The mixing and stirring device for the inorganic nano powder for the insulating paint production and addition according to claim 1 is characterized in that: the supporting cover (3) is fixedly connected with a scissor rod (5), the scissor rod (5) is fixedly connected with the telescopic end of the multistage electric push rod (4), and the fixed end of the multistage electric push rod (4) is fixedly connected to the placing plate (1).

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