CN212383537U - Coating mixing production equipment - Google Patents

Abstract

The utility model belongs to the technical field of coating processing equipment, a coating mixing production device, which comprises a mixing tank and a stirrer, wherein the top of the mixing tank is provided with a top cover with a feed inlet, the bottom of the mixing tank is provided with a discharge outlet, the stirrer comprises a rotational flow generating mechanism and a crushing mechanism, the rotational flow generating mechanism comprises a rotational flow plate and a rotational flow motor, the rotational flow plate is arranged on the inner side wall of the mixing tank, the inner side wall of the rotational flow plate is provided with a plurality of guide plates, the rotational flow plate is in transmission connection with the rotational flow motor, the crushing mechanism comprises a fixed shaft and crushing blades, the fixed shaft is fixed at the center of the mixing tank, the crushing blades are fixedly arranged on the whole body of the fixed shaft, make the interior coating of agitator produce the whirl through whirl emergence mechanism, the rethread is smashed the blade and is smashed the mixture to set up viscosity sensor and carry out viscosity monitoring to coating.

Description

Coating mixing production equipment

Technical Field

The utility model relates to a belong to coating processing equipment technical field, especially relate to a coating mixes production facility.

Background

The paint is a chemical mixture paint which can be firmly covered on the surface of an object and has the functions of protection, decoration, marking and other special purposes. The paint is viscous oily pigment, is inflammable under the condition of no dry condition, is insoluble in water, slightly soluble in fat, soluble in alcohol, aldehyde, ether, benzene and alkane, and easily soluble in gasoline, kerosene and diesel oil. At present, the material life and the mental life of human beings are continuously promoted, the requirement on the environment-friendly coating is higher and higher, when the environment-friendly coating is produced, different raw materials are conveyed into an environment-friendly coating reaction kettle through respective fixed conveying pipelines, and then are stirred and mixed in the reaction kettle, but the stirring device applied to the reaction kettle at present is simple in structure and insufficient in mixing, and the product quality of the coating is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model discloses a peripheral transmission mode takes place mechanism through the whirl and makes the interior coating of agitator produce the whirl, and the blade is smashed to the rethread and mixes to it carries out viscosity monitoring to set up viscosity sensor to coating.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a top cover with a feeding hole is arranged at the top of a stirring barrel, and a discharging hole is formed in the bottom of the stirring barrel; the stirrer is characterized by comprising a rotational flow generating mechanism and a crushing mechanism, wherein the rotational flow generating mechanism comprises a rotational flow plate and a rotational flow motor, the rotational flow plate is arranged in the stirring barrel, a plurality of guide plates are arranged on the inner side wall of the rotational flow plate, and the rotational flow plate is in transmission connection with the rotational flow motor; the crushing mechanism comprises a fixed shaft fixed at the center of the stirring barrel and crushing blades arranged on the whole body of the fixed shaft.

Furthermore, the rotational flow plate is integrally of a cylindrical structure, and the cylindrical structure is a hollow structure.

Furthermore, the top of the rotational flow plate is fixedly connected with a transmission gear with the size matched with that of the rotational flow plate, so that the transmission gear drives the rotational flow plate to rotate.

Furthermore, crushing blade from top to bottom stagger the arrangement, stagger the arrangement from top to bottom, increase crushing blade and coating contact probability as far as stirring in-process.

Further, the whirl plate be provided with stabilizer pulley and lower stabilizer pulley, both fixed mounting are in the agitator, go up the stabilizer pulley and be located the drive gear outside, lower stabilizer pulley is located whirl plate outside bottom, install respectively in drive gear's last stabilizer pulley and install in the lower stabilizer pulley of whirl plate outside bottom, ensure that whirl plate rotation in-process remains stable.

Furthermore, the guide plate is of a block structure with an arc surface on the inner side, the coating contacts the arc surface in the flowing process, and the coating on the outer ring is guided to the center.

Furthermore, the bottom of the stirring barrel is of a funnel structure, so that the coating can be conveniently and quickly discharged.

Further, the fixed axle on be provided with viscosity sensor, viscosity sensor provides coating stirring processing progress to the coating real-time supervision in the agitator.

Furthermore, the inner wall of the funnel structure is provided with protrusions, so that the stirring efficiency of the bottom coating is improved.

Furthermore, the cross section of the crushing blade is in a shuttle shape, the crushing blade converges from the middle of the cross section to two ends, and the upper surface and the lower surface form two cambered surfaces, so that the coating is divided up and down.

The utility model has the advantages that

The utility model provides a pair of paint mixing production facility is provided with motor drive's whirl board in the agitator, and the agitator center is provided with the fixed axle of taking viscosity sensor to be provided with crushing blade at the fixed axle whole body, whirl board rotates and drives inside coating and produces the whirl, and outer lane coating contacts to flow inside and contact crushing blade behind the guide plate, and the circulation stirring, viscosity sensor carries out real-time supervision to the interior coating of agitator and provides data.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic view of the funnel structure of the present invention;

FIG. 3 is a schematic view of the structure of the upper stable pulley of the present invention;

fig. 4 is a schematic diagram of the structure of the flow guide plate of the present invention.

Description of reference numerals: the device comprises a stirring barrel 1, a top cover 11, a feeding hole 12, a feeding hole electric control valve 121, a discharging hole 13, a discharging hole electric control valve 131, a cyclone plate 2, a guide plate 21, a guide plate cambered surface 211, a transmission gear 22, a cyclone motor 3, a torque sensor 31, an upper stabilizing pulley 23, a lower stabilizing pulley 24, a fixed shaft 4, a crushing blade 41, a funnel structure 5 and a hemispheroid protrusion 51.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout, which are exemplary and are intended to be illustrative only and not to be construed as limiting the invention, and, accordingly, the description is for the purpose of illustration only and the practice of the inventive concepts herein is not intended to be limited solely to the exemplary embodiments described herein and the illustrations in the drawings, which are not intended to be limiting.

As shown in fig. 1-4:

example 1

A coating mixing production device is characterized in that a top cover 11 with a feeding hole 12 is arranged at the top of a stirring barrel 1, and a discharging hole 13 is arranged at the bottom of the stirring barrel 1; the mixer is characterized in that the mixer comprises a rotational flow generating mechanism and a crushing mechanism, the rotational flow generating mechanism comprises a rotational flow plate 2 and a rotational flow motor 3, the rotational flow plate 2 is arranged in the mixing barrel 1, a plurality of guide plates 21 are arranged on the inner side wall of the rotational flow plate 2, and the rotational flow plate 2 is in transmission connection with the rotational flow motor 3; the crushing mechanism comprises a fixed shaft 4 fixed at the center of the stirring barrel 1 and crushing blades 41 arranged on the whole body of the fixed shaft 4, one end of the fixed shaft 4 is fixedly arranged on the top cover 11, and the length of the fixed shaft extends to the bottom of the stirring barrel 1.

The whole rotational flow plate 2 is of a cylindrical structure, and the cylindrical structure is hollow.

The top of the rotational flow plate 2 is fixedly connected with a transmission gear 22 with matched size, so that the transmission gear 22 drives the rotational flow plate 2 to rotate; the toothed surface of the transmission gear 22 is positioned on the inner side, the cyclone motor 3 is fixedly arranged on the top cover 11, and the output end of the cyclone motor 3 is provided with a torque sensor 31 to prevent the motor from overloading.

The crushing blades 41 are staggered from top to bottom, so that the contact probability of the crushing blades 41 and the coating is increased as much as possible in the stirring process of the crushing blades 41.

The rotational flow plate 2 is provided with four upper stabilizing pulleys 23 and four lower stabilizing pulleys 24, both fixed mounting is in the agitator 1, the upper stabilizing pulley 23 is located the drive gear 22 outside, the lower stabilizing pulley 24 is located the 2 outside bottoms of rotational flow plate, install respectively in the upper stabilizing pulley 23 of drive gear 22 and install in the lower stabilizing pulley 24 of the 2 outside bottoms of rotational flow plate, ensure that 2 rotatory in-process of rotational flow plate remain stable.

Four upper stabilizing pulleys 23 are arranged on the outer side of the transmission gear 22 in a diagonal manner, lower stabilizing pulleys 24 are arranged on the bottom of the outer side of the rotational flow plate 2 in a diagonal manner, and the upper stabilizing pulleys 24 correspond to the lower stabilizing pulleys 24 one by one.

The guide plate 21 is a block structure with an arc surface on the inner side, the coating contacts the arc surface in the flowing process, and the coating on the outer ring is guided to the center.

The bottom of the stirring barrel 1 is of a funnel structure 5 and is folded towards the center by taking the bottom end of the rotational flow plate 2 as a starting point, so that the coating can be conveniently and quickly discharged.

Be provided with three viscosity sensor on the fixed axle 4, be located three positions about the fixed axle 4 respectively, with external control ware electric connection, viscosity sensor provides coating stirring processing progress to the coating real-time supervision in the agitator 1.

The inner wall of the funnel structure 5 is provided with a protrusion which is shaped like a hemisphere and is irregularly arranged on the inner wall of the funnel structure 5, so that the stirring efficiency of the bottom coating is increased.

The cross section of the crushing blade 41 is shuttle-shaped, the crushing blade converges from the middle of the cross section to two ends, the upper surface and the lower surface are two cambered surfaces, so that the coating is divided up and down, and the length of the crushing blade 41 positioned on the part of the funnel structure 5 is reduced from top to bottom.

The working principle is as follows:

first, the raw material is fed into the mixer 1 through the feed port 12.

Starting the device, the rotational flow motor 3 is inducted by the torque sensor 31, and is started at a low speed with proper torque.

The rotational flow motor 3 drives the rotational flow plate 2 to rotate, the coating in the stirring barrel 1 gradually forms rotational flow, the coating on the outer ring is influenced by the guide plate 21 to flow to the inner ring, meanwhile, the crushing blades 41 disperse the coating, and the viscosity sensor on the fixed shaft 4 transmits the viscosity of the coating at the upper, middle and lower three positions to the outside for the reference of workers.

If the viscosity of the coating is not in accordance with the standard under the influence of a certain raw material, the electric control valve 121 of the feeding port is controlled to be opened, and the required raw material is fed.

The paint in the funnel structure 5 will also rotate and hit the protrusions of the surface under the influence of the overall swirling flow to achieve a dispersing effect.

After the mixing and dispersing are finished, the electric control valve 131 of the discharge port is controlled to be opened, and the coating is discharged through the discharge port 13.

Example 2

A coating mixing production device is characterized in that a top cover 11 with a feeding hole 12 is arranged at the top of a stirring barrel 1, and a discharging hole 13 is arranged at the bottom of the stirring barrel 1; the mixer is characterized in that the mixer comprises a rotational flow generating mechanism and a crushing mechanism, the rotational flow generating mechanism comprises a rotational flow plate 2 and a rotational flow motor 3, the rotational flow plate 2 is arranged in the mixing barrel 1, a plurality of guide plates 21 are arranged on the inner side wall of the rotational flow plate 2, and the rotational flow plate 2 is in transmission connection with the rotational flow motor 3; the crushing mechanism comprises a fixed shaft 4 fixed at the center of the stirring barrel 1 and crushing blades 41 arranged on the whole body of the fixed shaft 4, one end of the fixed shaft 4 is fixedly arranged on the top cover 11, and the length of the fixed shaft extends to the bottom of the stirring barrel 1.

The whole rotational flow plate 2 is of a cylindrical structure, and the cylindrical structure is hollow.

The top of the rotational flow plate 2 is fixedly connected with a transmission gear 22 with matched size, so that the transmission gear 22 drives the rotational flow plate 2 to rotate; the toothed surface of the transmission gear 22 is positioned on the inner side, the cyclone motor 3 is fixedly arranged on the top cover 11, and the output end of the cyclone motor 3 is provided with a torque sensor 31 to prevent the motor from overloading.

The crushing blades 41 are staggered from top to bottom, so that the contact probability of the crushing blades 41 and the coating is increased as much as possible in the stirring process of the crushing blades 41.

The rotational flow plate 2 is provided with four upper stabilizing pulleys 23 and four lower stabilizing pulleys 24, both fixed mounting is in the agitator 1, the upper stabilizing pulley 23 is located the drive gear 22 outside, the lower stabilizing pulley 24 is located the 2 outside bottoms of rotational flow plate, install respectively in the upper stabilizing pulley 23 of drive gear 22 and install in the lower stabilizing pulley 24 of the 2 outside bottoms of rotational flow plate, ensure that 2 rotatory in-process of rotational flow plate remain stable.

Four upper stabilizing pulleys 23 are arranged on the outer side of the transmission gear 22 in a diagonal manner, lower stabilizing pulleys 24 are arranged on the bottom of the outer side of the rotational flow plate 2 in a diagonal manner, and the upper stabilizing pulleys 24 correspond to the lower stabilizing pulleys 24 one by one.

In this embodiment, guide plate 21 is the inboard bar structure that is the cambered surface, and length roughly equals with 2 height of whirl board, and the coating flows the in-process and contacts the cambered surface, and the coating water conservancy diversion of outer lane is to the center.

The bottom of the stirring barrel 1 is of a funnel structure 5 and is folded towards the center by taking the bottom end of the rotational flow plate 2 as a starting point, so that the coating can be conveniently and quickly discharged.

Be provided with three viscosity sensor on the fixed axle 4, be located three positions about the fixed axle 4 respectively, with external control ware electric connection, viscosity sensor provides coating stirring processing progress to the coating real-time supervision in the agitator 1.

The inner wall of the funnel structure 5 is provided with a protrusion which is shaped like a hemisphere and is irregularly arranged on the inner wall of the funnel structure 5, so that the stirring efficiency of the bottom coating is increased.

The cross section of the crushing blade 41 is shuttle-shaped, the crushing blade converges from the middle of the cross section to two ends, the upper surface and the lower surface are two cambered surfaces, so that the coating is divided up and down, and the length of the crushing blade 41 positioned on the part of the funnel structure 5 is reduced from top to bottom.

Example 3

A coating mixing production device is characterized in that a top cover 11 with a feeding hole 12 is arranged at the top of a stirring barrel 1, and a discharging hole 13 is arranged at the bottom of the stirring barrel 1; the mixer is characterized in that the mixer comprises a rotational flow generating mechanism and a crushing mechanism, the rotational flow generating mechanism comprises a rotational flow plate 2 and a rotational flow motor 3, the rotational flow plate 2 is arranged in the mixing barrel 1, a plurality of guide plates 21 are arranged on the inner side wall of the rotational flow plate 2, and the rotational flow plate 2 is in transmission connection with the rotational flow motor 3; the crushing mechanism comprises a fixed shaft 4 fixed at the center of the stirring barrel 1 and crushing blades 41 arranged on the whole body of the fixed shaft 4, one end of the fixed shaft 4 is fixedly arranged on the top cover 11, and the length of the fixed shaft extends to the bottom of the stirring barrel 1.

The whole rotational flow plate 2 is of a cylindrical structure, and the cylindrical structure is hollow.

The top of the rotational flow plate 2 is fixedly connected with a transmission gear 22 with matched size, so that the transmission gear 22 drives the rotational flow plate 2 to rotate; the toothed surface of the transmission gear 22 is positioned on the inner side, the cyclone motor 3 is fixedly arranged on the top cover 11, and the output end of the cyclone motor 3 is provided with a torque sensor 31 to prevent the motor from overloading.

The crushing blades 41 are staggered from top to bottom, so that the contact probability of the crushing blades 41 and the coating is increased as much as possible in the stirring process of the crushing blades 41.

The rotational flow plate 2 is provided with four upper stabilizing pulleys 23 and four lower stabilizing pulleys 24, both fixed mounting is in the agitator 1, the upper stabilizing pulley 23 is located the drive gear 22 outside, the lower stabilizing pulley 24 is located the 2 outside bottoms of rotational flow plate, install respectively in the upper stabilizing pulley 23 of drive gear 22 and install in the lower stabilizing pulley 24 of the 2 outside bottoms of rotational flow plate, ensure that 2 rotatory in-process of rotational flow plate remain stable.

Four upper stabilizing pulleys 23 are arranged on the outer side of the transmission gear 22 in a diagonal manner, lower stabilizing pulleys 24 are arranged on the bottom of the outer side of the rotational flow plate 2 in a diagonal manner, and the upper stabilizing pulleys 24 correspond to the lower stabilizing pulleys 24 one by one.

The guide plate 21 is a block structure with an arc surface on the inner side, the coating contacts the arc surface in the flowing process, and the coating on the outer ring is guided to the center.

The bottom of the stirring barrel 1 is of a funnel structure 5 and is folded towards the center by taking the bottom end of the rotational flow plate 2 as a starting point, so that the coating can be conveniently and quickly discharged.

Be provided with three viscosity sensor on the fixed axle 4, be located three positions about the fixed axle 4 respectively, with external control ware electric connection, viscosity sensor provides coating stirring processing progress to the coating real-time supervision in the agitator 1.

The inner wall of the funnel structure 5 is provided with a protrusion which is shaped like a hemisphere and is irregularly arranged on the inner wall of the funnel structure 5, so that the stirring efficiency of the bottom coating is increased.

The cross section of the crushing blade 41 is shuttle-shaped, the crushing blade converges from the middle of the cross section to two ends, the upper surface and the lower surface are two cambered surfaces, so that the coating is divided up and down, and the length of the crushing blade 41 positioned on the part of the funnel structure 5 is reduced from top to bottom.

In this embodiment, the upper and lower surfaces of the pulverizing blade are each provided with a plate-like protrusion.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art. It should be noted that the technical features not described in detail in the present invention can be implemented by any prior art.

Claims (10)

1. A top cover with a feeding hole is arranged at the top of a stirring barrel, and a discharging hole is formed in the bottom of the stirring barrel; the stirrer is characterized by comprising a rotational flow generating mechanism and a crushing mechanism, wherein the rotational flow generating mechanism comprises a rotational flow plate and a rotational flow motor, the rotational flow plate is arranged in the stirring barrel, a plurality of guide plates are arranged on the inner side wall of the rotational flow plate, and the rotational flow plate is in transmission connection with the rotational flow motor; the crushing mechanism comprises a fixed shaft fixed at the center of the stirring barrel and crushing blades arranged on the whole body of the fixed shaft.

2. A paint mixing apparatus as claimed in claim 1, wherein the swirl plate is generally cylindrical in configuration.

3. The paint mixing production device as claimed in claim 1, wherein the top of the swirl plate is fixedly connected with a transmission gear with a matched size.

4. The paint mixing production apparatus as claimed in claim 1, wherein the crushing blades are staggered from top to bottom.

5. The paint mixing production device as claimed in claim 1, wherein the rotational flow plate is provided with an upper stabilizing pulley and a lower stabilizing pulley, both of which are fixedly arranged in the stirring barrel, the upper stabilizing pulley is positioned outside the transmission gear, and the lower stabilizing pulley is positioned at the bottom of the outer side of the rotational flow plate.

6. The paint mixing production device as claimed in claim 1, wherein the deflector is a block structure with an inner side in a cambered surface.

7. The paint mixing production apparatus as claimed in claim 1, wherein the bottom of the mixing tank is of a funnel structure.

8. The paint mixing production apparatus of claim 1, wherein the stationary shaft is provided with a viscosity sensor.

9. A paint mixing production apparatus as claimed in claim 7, in which the inner wall of the funnel structure is provided with projections.

10. A paint mixing production apparatus as claimed in claim 1, in which the said crushing blades are shuttle-shaped in cross section.

Images