CN216856480U

CN216856480U - Novel coating mixes device

Info

Publication number: CN216856480U
Application number: CN202123377970.8U
Authority: CN
Inventors: 范伟海
Original assignee: Shanghai Enkun Industrial Technology Co ltd
Current assignee: Shanghai Enkun Industrial Technology Co ltd
Priority date: 2021-12-30
Filing date: 2021-12-30
Publication date: 2022-07-01
Anticipated expiration: 2031-12-30

Abstract

The utility model relates to a novel coating mixing device, which comprises: the temperature control device comprises an operation box unit, a first rotating unit, a second rotating unit, a temperature adjusting unit and a control unit; the unopened coating can is placed on the first rotating unit and the second rotating unit, and under the synergistic action of the first rotating unit and the second rotating unit, the coating can rotates to complete the stirring and mixing process. The rotary coating tank has the advantages that the first rotary unit and the second rotary unit are utilized to integrally rotate the unopened coating tank, so that the uniform mixing of the coatings is ensured, the entry of external impurities is avoided, the stable quality of the coatings is ensured, the loss of the coatings is avoided, and the cost is reduced; the temperature adjusting unit is used for carrying out thermal radiation type heating on the coating tank, so that the viscosity of the coating is reduced, and the mixing efficiency and the mixing effect are improved; the operation is simple and convenient, and the labor cost is reduced.

Description

Novel coating mixes device

Technical Field

The utility model relates to the technical field of coating mixing, in particular to a novel coating mixing device.

Background

The main components of the printing coating for the piston comprise an adhesive, a solvent and a solid lubricant, and the solid lubricant can be settled in the storage process, so that the product needs to be fully stirred before use, and the normal printing of the coating is ensured.

In order to stir the paint, the field stirring is usually manual stirring or electric stirring, and has the following disadvantages:

(1) the manual stirring is easy to be uneven;

(2) impurities are easy to be mixed in when the tank is opened for stirring, so that the quality of the coating is unstable;

(3) the electric stirrer can bring away part of the coating after stirring to cause waste, and the stirrer needs to be cleaned by a solvent after stirring every time;

(4) the manual operation quality is unstable;

(5) the coating has high viscosity, low stirring speed and long stirring time.

At present, no effective solution is provided aiming at the problems of uneven stirring, impurity mixing, coating loss, unstable quality, low stirring speed and the like in the related technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a novel coating mixing device to solve the problems of uneven stirring, impurity mixing, coating loss, unstable quality, low stirring speed and the like in the related art.

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

a novel coating mixing device, comprising:

an operation box unit;

a first rotating unit provided inside the operation box unit;

the second rotating unit is arranged inside the operation box unit and is symmetrically arranged with the first rotating unit, and the rotating direction of the second rotating unit is the same as that of the first rotating unit;

the temperature adjusting unit is arranged in the operation box unit and is used for adjusting the internal temperature of the operation box unit;

the control unit is arranged outside the operation box unit and is respectively connected with the first rotating unit, the second rotating unit and the temperature adjusting unit;

the unopened paint tank is placed on the first rotating unit and the second rotating unit, and the paint tank rotates under the synergistic action of the first rotating unit and the second rotating unit so as to finish the stirring and mixing process.

In some of these embodiments, the console box unit includes:

a case element disposed at a horizontal plane;

and the sealing door element is arranged on one side of the box body element and is used for sealing or exposing the inside of the box body element.

In some of these embodiments, the first rotating unit comprises:

the first driving element is arranged in the operation box unit and is connected with the control unit;

a first bracket element provided inside the operation box unit;

the first rotating element is connected with the first driving element and is in rotating connection with the first support element and used for rotating under the action of the first driving element.

In some of these embodiments, the second rotating unit includes:

the second driving element is arranged in the operation box unit and is connected with the control unit;

a second bracket element provided inside the operation box unit;

and the second rotating element is connected with the second driving element, is rotatably connected with the second bracket element and is used for rotating under the action of the second driving element.

In some of these embodiments, the temperature adjustment unit comprises:

the first temperature adjusting element is arranged on one side wall of the operation box unit, is connected with the control unit and is used for controlling the temperature of the side part of the coating material tank;

the second temperature adjusting element is arranged on the other side wall of the operation box unit, is connected with the control unit and is used for controlling the temperature of the side part of the coating material tank;

and the temperature monitoring element is arranged in the operation box unit and is connected with the control unit.

In some of these embodiments, the temperature adjustment unit further comprises:

and the third temperature adjusting element is arranged on the bottom side wall of the operation box unit, is positioned between the first rotating unit and the second rotating unit, is connected with the control unit and is used for controlling the temperature of the bottom of the coating tank.

and the fourth temperature adjusting element is arranged on the side wall of the top of the unit of the operation box, is connected with the control unit and is used for controlling the temperature of the upper part of the coating material tank.

In some of these embodiments, the control unit comprises:

a control box element disposed outside the operation box unit and connected to the first rotation unit, the second rotation unit, and the temperature adjustment unit, respectively;

the display element is arranged on the surface of the control box element and is used for displaying working parameters;

a button element disposed on a surface of the control box element for controlling the first rotating unit, the second rotating unit and the temperature adjusting unit, respectively.

In some of these embodiments, further comprising:

and the third rotating unit is arranged in the operation box unit, is positioned between the first rotating unit and the second rotating unit, and is used for assisting the bottom of the paint tank to rotate under the condition that the paint tank rotates.

In some of these embodiments, the third rotating unit includes:

a third rack element provided inside the operation box unit;

a third rotating member rotatably coupled to the third bracket member for rotation upon rotation of the paint canister.

In some of these embodiments, further comprising:

and the fourth rotating unit is arranged in the operation box unit, is positioned between the first rotating unit and the second rotating unit, and is used for assisting the top of the paint tank to rotate under the condition that the paint tank rotates.

In some of these embodiments, the fourth rotating unit includes:

a fourth rack element provided inside the operation box unit;

a fourth rotating element rotatably connected to the fourth carrier element for rotation in the event of a rotation of the paint canister.

In some of these embodiments, further comprising:

and the limiting unit is arranged in the operation box unit and positioned between the first rotating unit and the second rotating unit and used for limiting the paint tank and preventing the paint tank from falling.

In some of these embodiments, the limiting unit comprises:

the lifting limiting element is arranged inside the operation box unit and is positioned at one end of the first rotating unit and one end of the second rotating unit;

the fixed limiting element is arranged inside the operation box unit and is positioned at the other ends of the first rotating unit and the second rotating unit;

and the fifth rotating elements are respectively arranged on the inner side of the lifting limit element and the inner side of the fixed limit element and are used for being rotatably connected with the paint tank under the condition that the paint tank is placed.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

according to the novel coating mixing device, the unopened coating tank is integrally rotated by the first rotating unit and the second rotating unit, so that the uniform mixing of the coatings is ensured, external impurities are prevented from entering, the stable quality of the coatings is ensured, the coating loss is avoided, and the cost is reduced; the temperature adjusting unit is used for carrying out thermal radiation type heating on the coating tank, so that the viscosity of the coating is reduced, and the mixing efficiency and the mixing effect are improved; the operation is simple and convenient, and the labor cost is reduced.

Drawings

FIGS. 1 a-1 b are schematic illustrations of a novel coating material mixing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of an operation box unit according to an embodiment of the present invention;

fig. 3 is a schematic view of a first rotating unit according to an embodiment of the present invention;

fig. 4 is a schematic view of a second rotating unit according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a temperature adjustment unit according to an embodiment of the utility model;

FIG. 6 is a schematic diagram of a control unit according to an embodiment of the utility model;

FIGS. 7a to 7b are schematic views of a third rotating unit according to an embodiment of the present invention;

FIGS. 8 a-8 b are schematic views of a fourth rotating unit according to an embodiment of the present invention;

fig. 9a to 9b are schematic views of a stopper unit according to an embodiment of the present invention.

Wherein the reference numbers are: 10. an operation box unit; 11. a case element; 12. a sealing door element;

20. a first rotating unit; 21. a first drive element; 22. a first bracket element; 23. a first rotating element;

30. a second rotating unit; 31. a second drive element; 32. a second bracket element; 33. a second rotating member;

40. a temperature adjusting unit; 41. a first temperature adjustment element; 42. a second temperature adjustment element; 43. a temperature monitoring element; 44. a third temperature adjustment element; 45. a fourth temperature adjustment element;

50. a control unit; 51. a control box element; 52. a display element; 53. a button element;

60. a third rotating unit; 61. a third stent element; 62. a third rotating element;

70. a fourth rotating unit; 71. a fourth carrier element; 72. a fourth rotating element;

80. a limiting unit; 81. a lifting limit element; 82. fixing a limiting element; 83. a fifth rotating element;

90. and (4) a paint tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive efforts based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The utility model is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

An exemplary embodiment of the present invention, as shown in fig. 1a to 1b, a novel dope mixing apparatus includes an operation box unit 10, a first rotating unit 20, a second rotating unit 30, a temperature adjusting unit 40, and a control unit 50. Wherein, the operation box unit 10 is arranged on a horizontal plane; the first rotating unit 20 is provided inside the operation box unit 10; the second rotating unit 30 is arranged inside the operation box unit 10 and is symmetrically arranged with the first rotating unit 20, and the rotating direction of the second rotating unit 30 is the same as that of the first rotating unit 20; the temperature adjusting unit 40 is provided inside the operation box unit 10, and is used for adjusting the internal temperature of the operation box unit 10; the control unit 50 is disposed outside the operation box unit 10, and is respectively connected (electrically connected) to the first rotating unit 20, the second rotating unit 30, and the temperature adjusting unit 40; the unopened paint can 90 is placed on the first and second

rotating units

20 and 30, and the paint can 90 is rotated by the cooperation of the first and second

rotating units

20 and 30 to complete the stirring and mixing process.

The electrical connection refers to connection through a cable.

As shown in fig. 2, the console box unit 10 includes a box member 11 and a sealing door member 12. Wherein the box element 11 is arranged in a horizontal plane; a sealing door member 12 is provided at one side of the case member 11 for sealing or exposing the inside of the case member 11.

Further, box element 11 is three layer construction, including shell, cavity and inner shell, and the cavity sets up between shell and inner shell for improve the thermal insulation performance.

In some embodiments, the sealing door element 12 is pivotally connected to the box element 11, including but not limited to a pivot connection, a hinge connection.

Further, the operation box unit 10 further includes a buffer member disposed in the hollow layer of the box member 11, so as to reduce the impact of external vibration on the operation box unit 10 under the condition of further improving the heat insulation performance.

As shown in fig. 3, the first rotating unit 20 includes a first driving member 21, a first bracket member 22, and a first rotating member 23. The first driving element 21 is disposed inside the operation box unit 10, connected (electrically connected) to the control unit 50, and configured to be opened or closed under the action of the control unit 50; a first support element 22 is arranged inside the console box unit 10 for providing a supporting function; the first rotation element 23 is connected to the first drive element 21 and to the first carrier element 22 for rotation under the influence of the first drive element 21.

Specifically, the first driving member 21, the first carriage member 22 are provided inside the case member 11.

In some of these embodiments, the first driving member 21 is a first driving motor, and an output shaft thereof is connected to one end of the first rotating member 23.

In some of these embodiments, the height of the first support element 22 is greater than the outer diameter of the first rotating element 23, so that the first rotating element 23 can be suspended.

In some of these embodiments, the first rotating member 23 is a rotating roller.

Further, the first rotating unit 20 further includes first bearing elements disposed at both ends of the first bracket element 22, and both ends of the first rotating element 23 are respectively rotatably connected with the corresponding first bearing elements for reducing the rotational resistance.

As shown in fig. 4, the second rotating unit 30 includes a second driving member 31, a second bracket member 32, and a second rotating member 33. The second driving element 31 is disposed inside the operation box unit 10, connected (electrically connected) to the control unit 50, and used for being opened or closed under the action of the control unit 50; the second bracket member 32 is provided inside the console box unit 10 for providing a supporting function; the second rotating member 33 is connected to the second driving member 31 and is rotatably connected to the second frame member 32 for rotation by the second driving member 31.

Specifically, the second driving member 31, the second holder member 32 are provided inside the case member 11; the second drive element 31 is arranged symmetrically to the first drive element 21; the second bracket element 32 is arranged symmetrically to the first bracket element 22; the second rotating member 33 is disposed symmetrically with the first rotating member 23, and the rotating direction of the second rotating member 33 is the same as that of the first rotating member 23.

In some of these embodiments, the second driving member 31 is a second driving motor, and an output shaft thereof is connected to one end of the second rotating member 33.

In some embodiments, the height of the second frame element 32 is greater than the outer diameter of the second rotating element 33, so that the second rotating element 33 can be suspended.

In some of these embodiments, the second rotating member 33 is a rotating roller.

Further, the second rotating unit 30 further includes second bearing elements disposed at both ends of the second bracket element 32, and both ends of the second rotating element 33 are rotatably connected with the corresponding second bearing elements, respectively, for reducing the rotational resistance.

As shown in fig. 5, the temperature adjusting unit 40 includes a first temperature adjusting element 41, a second temperature adjusting element 42, and a temperature monitoring element 43. Wherein, the first temperature adjustment element 41 is disposed on one side wall of the operation box unit 10, and is connected (electrically connected) with the control unit 50 for performing temperature control on the side portion of the paint tank 90; the second temperature adjustment member 42 is provided on the other side wall of the operation box unit 10, and is connected (electrically connected) to the control unit 50 for temperature-controlling the side portion of the paint tank 90; the temperature monitoring element 43 is disposed inside the operation box unit 10, and is connected (electrically connected) to the control unit 50, for monitoring the internal temperature of the operation box unit 10 and transmitting the temperature to the control unit 50.

Specifically, the first temperature adjustment element 41 is provided to a side wall of the case element 11 and is located at one side of the first rotation unit 20; the second temperature adjusting member 42 is provided at the other side wall of the case member 11 and at one side of the second rotating unit 30; the temperature monitoring element 43 is provided inside the case element 11.

In some of these embodiments, the first temperature adjustment element 41 and the second temperature adjustment element 42 are symmetrically arranged, i.e. have the same height, and are all located on the same horizontal plane.

In some embodiments, the first temperature adjustment element 41 and the second temperature adjustment element 42 are heating plates or tubes, which heat the paint can 90 by heat radiation, thereby reducing the viscosity of the paint inside the paint can 90 and improving the fluidity of the paint.

In some of these embodiments, the temperature monitoring element 43 is a temperature sensor.

Further, the temperature adjusting unit 40 further includes a third temperature adjusting element 44, and the third temperature adjusting element 44 is disposed inside the operation box unit 10, between the first rotating unit 20 and the second rotating unit 30, and is connected (electrically connected) with the control unit 50 for performing temperature control on the bottom of the paint tank 90.

In particular, the third temperature adjustment element 44 is arranged on the bottom side wall of the interior of the box element 11, between the first bracket element 22 and the second bracket element 32.

In some of these embodiments, the third temperature regulating element 44 is a heating plate or tube.

By heating the side and bottom of the paint can 90, the paint can 90 is heated uniformly, improving paint flow.

Further, the temperature adjusting unit 40 further includes a fourth temperature adjusting element 45, and the fourth temperature adjusting element 45 is disposed inside the operation box unit 10, between the first rotating unit 20 and the second rotating unit 30, and connected (electrically connected) with the control unit 50 for performing temperature control on the top of the paint tank 90.

In particular, the fourth temperature adjustment element 45 is arranged on the top side wall of the interior of the box element 11 and between the first bracket element 22 and the second bracket element 32.

In some of these embodiments, the fourth temperature adjustment element 45 is a heating plate or tube.

By heating the periphery of the coating tank 90, the coating tank 90 is heated more uniformly, the coating fluidity is improved, and the stirring and mixing process time is reduced.

As shown in fig. 6, the control unit 50 includes a control box member 51, a display member 52, and a button member 53. Wherein, the control box element 51 is disposed outside the operation box unit 10 and is respectively connected (electrically connected) with the first rotating unit 20, the second rotating unit 30 and the temperature adjusting unit 40; the display element 52 is arranged on the surface of the control box element 51 and is used for displaying working parameters; the button member 53 is provided on the surface of the control box member 51 at one side of the display member 52 for controlling the first rotating unit 20, the second rotating unit 30 and the temperature adjusting unit 40, respectively.

Specifically, the control box member 51 is disposed outside the box member 11 and is connected (electrically connected) to the first driving member 21, the second driving member 31, the first temperature adjusting member 41, the second temperature adjusting member 42, the temperature monitoring member 43, the third temperature adjusting member 44, and the fourth temperature adjusting member 45, respectively; the button elements 53 control the first drive element 21, the second drive element 31, the first temperature regulating element 41, the second temperature regulating element 42, the third temperature regulating element 44, the fourth temperature regulating element 45, respectively.

In some of these embodiments, the display element 52 is a display screen.

In some of these embodiments, the button elements 53 include motor control buttons, motor speed adjustment buttons, temperature control buttons, and temperature adjustment buttons.

Further, as shown in fig. 7a, the novel paint mixing apparatus further includes a third rotating unit 60, the third rotating unit 60 being disposed inside the console unit 10 between the first rotating unit 20 and the second rotating unit 30, for assisting the bottom of the paint tank 90 to rotate in the case where the paint tank 90 rotates.

As shown in fig. 7b, the third rotating unit 60 includes a third bracket element 61 and a third rotating element 62. Wherein the third support element 61 is disposed inside the operation box unit 10 and between the first rotating unit 20 and the second rotating unit 30; the third rotating member 62 is rotatably connected to the third holder member 61 for rotation in the case where the paint can 90 is rotated.

In particular, the third carrier element 61 is arranged inside the box element 11 and between the first carrier element 22 and the second carrier element 32.

More specifically, the third temperature adjustment member 44 is provided on both sides of the third bracket member 61.

Wherein the height of the third support element 61 is lower than the height of the first support element 22 and the height of the second support element 32, i.e. the first support element 22, the second support element 32 and the third support element 61 form an inverted triangular shape.

In some of these embodiments, the height of the third frame element 61 is greater than the outer diameter of the third rotating element 62, so that the third rotating element 62 can be suspended.

In some of these embodiments, the third rotating member 62 is a rotating roller.

Further, the third rotating unit 60 further includes third bearing elements disposed at two ends of the third frame element 61, and two ends of the third rotating element 62 are respectively rotatably connected with the corresponding third bearing elements for reducing the rotation resistance.

Further, as shown in fig. 8a, the novel paint mixing apparatus further includes a fourth rotating unit 70, the fourth rotating unit 70 being disposed inside the console unit 10 between the first rotating unit 20 and the second rotating unit 30, for assisting the top rotation of the paint tank 90 in the case where the paint tank 90 is rotated.

As shown in fig. 8b, the fourth rotating unit 70 includes a fourth carrier member 71 and a fourth rotating member 72. Wherein the fourth bracket member 71 is disposed inside the operation box unit 10 and between the first rotating unit 20 and the second rotating unit 30; the fourth turning member 72 is rotatably connected to the fourth holder member 71 for turning in the case where the paint can 90 is turned.

In particular, the fourth carrier element 71 is arranged inside the box element 11 and between the first carrier element 22 and the second carrier element 32.

More specifically, the fourth temperature adjustment member 45 is disposed on both sides of the fourth bracket member 71.

In some of these embodiments, the height of the fourth frame element 71 is greater than the outer diameter of the fourth rotating element 72, so that the fourth rotating element 72 can be suspended.

In some of these embodiments, the fourth rotating member 72 is a rotating roller.

Further, the fourth rotating unit 70 further includes fourth bearing elements disposed at both ends of the fourth bracket element 71, and both ends of the fourth rotating element 72 are rotatably connected with the corresponding fourth bearing elements, respectively, for reducing the rotation resistance.

Further, as shown in fig. 9a, the novel paint mixing apparatus further includes a limiting unit 80, and the limiting unit 80 is disposed inside the operation box unit 10 and between the first rotating unit 20 and the second rotating unit 30, and is used for limiting the paint tank 90 and preventing the paint tank 90 from falling.

As shown in fig. 9b, the stopper unit 80 includes an elevation stopper element 81, a fixed stopper element 82, and a fifth rotating element 83. Wherein, the elevation limiting member 81 is provided inside the operation box unit 10 and at one end of the first and second

rotating units

20 and 30 for limiting one end of the paint can 90; a fixed position limiting member 82 provided inside the operation box unit 10 and located at the other ends of the first and second

rotating units

20 and 30 for limiting the other end of the paint tank 90; the fifth rotating member 83 is provided inside the elevation restricting member 81 and inside the fixed restricting member 82, respectively, for rotatably coupling with the paint can 90 in a state where the paint can 90 is placed.

Specifically, the elevation limit member 81 is provided inside the box member 11 at one end of the first and

second bracket members

22 and 32; a fixed stop element 82 is provided inside the box element 11 at the other end of the first bracket element 22 and the second bracket element 32.

The lifting limiting element 81 includes a first limiting member and a second limiting member, the first limiting member is fixedly connected to the box member 11, and the second limiting member is slidably or rotatably connected to the first limiting member. In the case where the paint can 90 is not placed, the second stopper and the first stopper are in a contracted state; under the condition of placing the paint can 90, the second limiting member and the first limiting member are in an extended state, and the second limiting member abuts against one end of the paint can 90.

In some embodiments, the lifting limiting element 81 further comprises a driving member, which is connected to the control unit 50 (the control box element 51) for driving the second limiting member to be slidably connected to the first limiting member.

In some of these embodiments, the drive is a hydraulic drive.

In some embodiments, the first limiting member and the second limiting member are slidably connected in a pressing manner.

The fixed limiting element 82 includes a third limiting member, and the third limiting member is fixedly connected to the box member 11. In the case of placing the paint can 90, the third stopper abuts against the other end of the paint can 90.

In some of these embodiments, the fixed limit element 82 is a limit stop.

In some of these embodiments, the fifth rotating element 83 is a rotating disk.

The using method of the utility model is as follows:

opening the sealing door member 12 to expose the inside of the case member 11;

the paint tank 90 is placed between the first rotating member 23 and the second rotating member 33; (i.e., the paint tank 90 is abutted by the first rotating member 23, the second rotating member 33, the third rotating member 62, and the fourth rotating member 72, and one end of the paint tank 90 is abutted by the fixed stopper member 82);

controlling the elevation limiting member 81 to abut the elevation limiting member 81 against the other end of the paint can 90, at which time both ends of the paint can 90 are rotatably connected to the fifth rotating member 83, respectively;

closing the sealing door element 12 to close the inside of the case element 11;

controlling the first and second driving elements 21 and 31 to simultaneously move the first and second

rotating elements

23 and 33 in a clockwise direction (or a counterclockwise direction);

the first temperature adjusting element 41 and the second temperature adjusting element 42 are controlled to heat the box element 11 (the third temperature adjusting element 44 and the fourth temperature adjusting element 45 can also be controlled to heat the box element 11);

after a certain time, stopping the first temperature adjusting element 41, the second temperature adjusting element 42, the first driving element 21 and the second driving element 31;

the sealing door member 12 is opened and the paint can 90 is taken out.

The utility model has the advantages that the first rotating unit and the second rotating unit are utilized to integrally rotate the unopened coating tank, so that the uniform mixing of the coating is ensured, the entering of external impurities is avoided, the stable quality of the coating is ensured, the loss of the coating is avoided, and the cost is reduced; the temperature adjusting unit is used for carrying out thermal radiation type heating on the coating tank, so that the viscosity of the coating is reduced, and the mixing efficiency and the mixing effect are improved; the operation is simple and convenient, and the labor cost is reduced.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims

1. A novel coating material mixing device, comprising:

an operation box unit;

a first rotating unit provided inside the operation box unit;

2. The novel paint mixing apparatus of claim 1, wherein the console unit comprises:

a case element disposed at a horizontal plane;

3. The novel paint mixing apparatus of claim 1, wherein the first rotating unit comprises:

a first bracket element provided inside the operation box unit;

4. The novel paint mixing apparatus of claim 1, wherein the second rotating unit comprises:

a second bracket element provided inside the operation box unit;

5. The novel paint mixing apparatus of claim 1, wherein the temperature adjustment unit comprises:

6. The novel paint mixing apparatus of claim 5, wherein the temperature adjustment unit further comprises:

the third temperature adjusting element is arranged on the bottom side wall of the operation box unit, is positioned between the first rotating unit and the second rotating unit, is connected with the control unit, and is used for controlling the temperature of the bottom of the coating tank; and/or

7. The novel paint mixing apparatus of claim 1, further comprising:

a third rotating unit which is arranged inside the operation box unit, is positioned between the first rotating unit and the second rotating unit, and is used for assisting the bottom of the paint tank to rotate under the condition that the paint tank rotates; and/or

8. The novel paint mixing apparatus of claim 7, wherein the third rotating unit comprises:

a third rack element provided inside the operation box unit;

a third rotating member rotatably coupled to the third bracket member for rotation in the event of a rotation of the paint canister; and/or

The fourth rotating unit includes:

a fourth rack element provided inside the operation box unit;

9. The novel paint mixing apparatus of claim 1, further comprising:

10. The novel paint mixing apparatus of claim 9, wherein the limiting unit comprises: