CN110339768B

CN110339768B - High-efficient coating mixing machine

Info

Publication number: CN110339768B
Application number: CN201910707935.6A
Authority: CN
Inventors: 毛利英
Original assignee: Zhejiang Youyiya Coating Co ltd
Current assignee: ZHEJIANG YOUYIYA COATING Co.,Ltd.
Priority date: 2019-08-01
Filing date: 2019-08-01
Publication date: 2020-12-08
Anticipated expiration: 2039-08-01
Also published as: SG10201910958PA; JP2021023923A; CN110339768A

Abstract

The invention discloses a high-efficiency coating material mixing machine, which comprises a base, wherein a stirring cavity is arranged in the left end surface of the base, the front end, the back end and the left end of the stirring cavity are communicated with the outside, a rotating disk is arranged on the wall of the lower end of the stirring cavity, a coating material barrel is placed on the rotating disk, a rotating disk shaft is fixedly arranged at the center of the rotating disk, the lower end of the rotating disk shaft is in power connection with a transmission device, a top cover is arranged at the upper end of the base, and a stirring device is arranged in the left end surface of the top cover. The safety of personnel and equipment is ensured while the coating is prevented from splashing.

Description

High-efficient coating mixing machine

Technical Field

The invention relates to the technical field of coating blending, in particular to an efficient coating blending machine.

Background

Coating mixing device wide application in the stirring mixing in-process of chemical products such as coating, printing ink, pigment, adhesive for avoid deposiing with the material mixing before the material uses, current mixing device mainly is handheld unipolar agitating unit, in the use, needs handheld device to use, and stirring range is little, needs manual round trip movement equipment, and agitated vessel contacts the barrel wall easily, causes stirring spiral to damage easily or scribbles the storage bucket and topples over, has the potential safety hazard.

Disclosure of Invention

The technical problem is as follows:

traditional mixing agitating unit needs handheld operation, and the stirring scope is little, and efficiency is not high, has certain potential safety hazard simultaneously.

The efficient coating mixing machine comprises a base, wherein a stirring cavity is arranged in the left end face of the base, the front end, the rear end and the left end of the stirring cavity are communicated with the outside, a rotating disc is arranged on the lower end wall of the stirring cavity, a coating bucket is placed on the rotating disc, a rotating disc shaft is fixedly arranged in the center of the rotating disc, a transmission device is connected to the lower end of the rotating disc shaft in a power mode, a top cover is arranged at the upper end of the base, a stirring device is arranged in the left end face of the top cover, the lower end of the stirring device extends into the coating bucket, the upper end of the stirring device is connected to the transmission device in a power mode, a top cover lifting device is arranged on the right side of the stirring cavity, a power switching device is connected to the lower end of the top cover lifting device in a power mode, the left end of the power switching device is connected to the transmission device, and the power, thereby it is right scribble the interior coating of storage bucket and stir, simultaneously through transmission drives the rotary disk rotates for scribble storage bucket normal running fit stirring, after the stirring is accomplished, through power auto-change over device with power by transmission switches over to top cap elevating gear, through top cap elevating gear drives the top cap upwards rises, makes agitating unit break away from scribble the storage bucket, make things convenient for scribble taking of storage bucket.

Wherein, the transmission device comprises a rotary table belt cavity positioned at the lower side of the stirring cavity, the lower end of the rotary table shaft is rotatably connected in the lower end wall of the rotary table belt cavity, a rotary table belt driven wheel is fixedly arranged at the part of the rotary table shaft positioned in the rotary table belt cavity, a rotary table belt main wheel is arranged at the right side of the rotary table belt driven wheel, a transmission vertical shaft is fixedly arranged at the center of the rotary table belt main wheel, the lower end of the transmission vertical shaft is rotatably connected in the lower end wall of the rotary table belt cavity, the rotary table belt main wheel is in power connection with the rotary table belt driven wheel through a rotary table belt, a transmission gear cavity is arranged at the upper side of the rotary table belt cavity, the transmission gear cavity is positioned at the right side of the stirring cavity, the upper end of the transmission vertical shaft penetrates through the transmission gear cavity, the transmission vertical shaft is positioned in the transmission, the center of the bevel gear of the transmission transverse shaft is fixedly provided with the transmission transverse shaft, the right end of the transmission transverse shaft is in power connection with the power switching device, a stirring belt cavity is arranged on the upper side of the transmission gear cavity and is positioned in the top cover, a stirring belt main wheel is arranged in the stirring belt cavity, a separation transmission shaft is fixedly arranged at the center of the stirring belt main wheel, the upper end of the separation transmission shaft is rotatably connected into the upper end wall of the stirring belt cavity, the lower end of the separation transmission shaft is meshed with the transmission vertical shaft through a spline, a stirring belt driven wheel is arranged on the left side of the stirring belt main wheel, the stirring belt main wheel is in power connection with the stirring belt driven wheel through a stirring belt, the stirring belt is fixedly provided with a stirring power shaft from the center of the wheel, the upper end of the stirring power shaft is rotatably connected in the upper end wall of the stirring belt cavity, and the lower end of the stirring power shaft is in power connection with the stirring device.

Wherein, agitating unit is including being located stirring belt chamber downside stirring gear chamber, stirring gear chamber lower extreme intercommunication extremely the stirring chamber, stirring power axle lower extreme stretches into stirring gear chamber has just set firmly the stirring carousel, the stirring carousel upside is equipped with the stirring sun gear, stirring sun gear upper end set firmly in the stirring gear chamber upper end wall, the equipartition is equipped with two (mixing) shafts of symmetry on the stirring carousel, two the (mixing) shaft all rotate connect in the stirring carousel, the (mixing) shaft upper end all sets firmly stirring planet wheel, two stirring planet wheel all engages in to the symmetry center side stirring sun gear, the (mixing) shaft lower extreme stretches into just all set firmly the stirring spiral board in the storage bucket.

Preferably, the stirring sun gear and the two stirring planetary gears form a planetary gear system, so that the two stirring shafts revolve around the symmetrical center as the axis under the driving of the stirring turntable and rotate under the driving of the stirring planetary gears, the stirring range of the stirring spiral plate in the paint bucket can be enlarged, and the stirring speed is increased by matching with the rotation of the paint bucket.

Wherein the top cover lifting device comprises two lifting cavities which are positioned at the rear side of the stirring cavity and are symmetrical in the front-rear direction, lifting screws are arranged in the two lifting cavities, the lower end of the top cover extends into the lifting cavities and is in threaded fit with the lifting screws, screw rod gear cavities are arranged at the lower sides of the two lifting cavities, the lower ends of the lifting screws extend into the screw rod gear cavities and are fixedly provided with screw rod bevel gears, first bevel gears are meshed with the lower sides of the screw rod bevel gears, a screw rod power shaft is fixedly arranged at the center of the first bevel gears, screw rod linkage gear cavities are arranged at the right sides of the two screw rod gear cavities, the right ends of the two screw rod power shafts extend into the screw rod linkage gear cavities and are fixedly provided with second bevel gears, transverse shaft bevel gears are meshed with the right ends of the second bevel gears, and the two transverse shaft bevel gears, the lead screw linkage cross shaft is in power connection with the power switching device.

Wherein the power switching device comprises switching gear cavities positioned at the symmetrical center sides of the two screw rod linkage gear cavities, the screw rod linkage cross shaft penetrates through the switching gear cavities, a third bevel gear is fixedly arranged on the screw rod linkage cross shaft positioned in the switching gear cavities, the right end of the transmission cross shaft extends into the switching gear cavities and is fixedly provided with a transmission switching bevel gear, the transmission switching bevel gear is positioned at the lower side of the third bevel gear, the switching bevel gear is meshed at the upper side of the transmission switching bevel gear, the third bevel gear can be meshed at the upper side of the switching bevel gear, a switching shaft is fixedly arranged at the center of the switching bevel gear, a switching lifting sliding cavity is arranged at the lower side of the switching gear cavities, a switching sliding block is arranged in the switching lifting sliding cavity in a sliding manner, a switching reset spring is fixedly arranged on the upper end surface of the switching sliding block, a power gear cavity is arranged at the lower side of the switching lifting sliding cavity, a power vertical shaft is arranged in the power gear cavity, the lower end of the switching shaft extends into the power gear cavity and is meshed with the power vertical shaft through a spline, a power bevel gear is fixedly arranged on the power vertical shaft, a power motor is fixedly arranged in the front end wall of the power gear cavity, the rear end of the power motor is connected with a motor shaft in a power mode, a motor bevel gear is fixedly arranged at the rear end of the motor shaft, the lower side of the motor bevel gear is meshed with the power bevel gear, the rear side of the power gear cavity is provided with a pedal rotating cavity, the lower end of the switching slide block extends into the pedal rotating cavity, a pedal rotating shaft is arranged in the pedal rotating cavity, the pedal rotating shaft is rotatably provided with a pedal, the upper end face of the pedal abuts against the lower end face of the switching slide block, and a pedal return spring is fixedly arranged on the lower end face of the pedal.

Preferably, the switching bevel gear is a double-sided bevel gear, the lower side of the switching bevel gear can be meshed with the transmission switching bevel gear in an initial state, and the upper side of the switching bevel gear can be meshed with the third bevel gear under the action of the switching slider, so that the purpose of power switching is achieved.

The invention has the beneficial effects that: according to the invention, the stirring device utilizes a planetary gear principle, double stirring screws are used for stirring, the stirring screws revolve around a symmetrical center while rotating, and the stirring device is matched with the rotation motion of the coating bucket, so that the stirring range is effectively enlarged, the stirring time is saved, the stirring efficiency is improved, meanwhile, the stirring device is not required to be held by hands, the collision between the stirring device and the coating bucket is avoided, the equipment damage is avoided, the stirring is stopped when the stirring device is lifted and moved, the coating is prevented from splashing, and the safety of personnel and equipment is ensured.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a high-efficiency paint mixer according to the present invention;

FIG. 2 is an enlarged schematic view of "A" of FIG. 1;

FIG. 3 is an enlarged schematic view of "B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 4;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a high-efficiency paint mixing machine which is mainly applied to the process of mixing paint uniformly, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a high-efficiency coating material mixing machine, which comprises a base 21, wherein a stirring cavity 22 is arranged in the left end surface of the base 21, the front end, the back end and the left end of the stirring cavity 22 are communicated with the outside, a rotating disc 23 is arranged on the lower end wall of the stirring cavity 22, a coating material bucket 24 is placed on the rotating disc 23, a rotating disc shaft 27 is fixedly arranged at the center of the rotating disc 23, the lower end of the rotating disc shaft 27 is in power connection with a transmission device 201, a top cover 25 is arranged at the upper end of the base 21, a stirring device 202 is arranged in the left end surface of the top cover 25, the lower end of the stirring device 202 extends into the coating material bucket 24, the upper end of the stirring device 202 is in power connection with the transmission device 201, a top cover lifting device 203 is arranged at the right side of the stirring cavity 22, the lower end of, when the device works, the power switching device 204 provides power for the stirring device 202 through the transmission device 201, so that the paint in the paint bucket 24 is stirred, meanwhile, the rotating disc 23 is driven to rotate through the transmission device 201, so that the paint bucket 24 is in running fit with the stirring device, after the stirring is completed, the power is switched to the top cover lifting device 203 through the transmission device 201 through the power switching device 204, the top cover 25 is driven to lift upwards through the top cover lifting device 203, so that the stirring device 202 is separated from the paint bucket 24, and the taking of the paint bucket 24 is facilitated.

According to the embodiment, the transmission device 201 is described in detail below, the transmission device 201 includes a turntable belt cavity 26 located at the lower side of the stirring cavity 22, the lower end of the turntable shaft 27 is rotatably connected to the lower end wall of the turntable belt cavity 26, the turntable shaft 27 is located inside the turntable belt cavity 26 and fixedly provided with a turntable belt driven wheel 28, the turntable belt driven wheel 28 is provided with a turntable belt main wheel 29 at the right side, the turntable belt main wheel 29 is fixedly provided with a transmission vertical shaft 31 at the center, the lower end of the transmission vertical shaft 31 is rotatably connected to the lower end wall of the turntable belt cavity 26, the turntable belt main wheel 29 and the turntable belt driven wheel 28 are in power connection through a turntable belt 32, the turntable belt cavity 26 is provided with a transmission gear cavity 33 at the upper side, the transmission gear cavity 33 is located at the right side of the stirring cavity 22, and the upper end of the transmission vertical shaft 31 penetrates through the transmission gear, a transmission vertical shaft bevel gear 34 is fixedly arranged on the transmission vertical shaft 31 and positioned inside the transmission gear cavity 33, a transmission transverse shaft bevel gear 35 is engaged on the right side of the transmission vertical shaft bevel gear 34, a transmission transverse shaft 36 is fixedly arranged at the center of the transmission transverse shaft bevel gear 35, the right end of the transmission transverse shaft 36 is in power connection with the power switching device 204, a stirring belt cavity 37 is arranged on the upper side of the transmission gear cavity 33, the stirring belt cavity 37 is positioned inside the top cover 25, a stirring belt main wheel 38 is arranged inside the stirring belt cavity 37, a separation transmission shaft 39 is fixedly arranged at the center of the stirring belt main wheel 38, the upper end of the separation transmission shaft 39 is rotatably connected inside the upper end wall of the stirring belt cavity 37, the lower end of the separation transmission shaft 39 is engaged with the transmission vertical shaft 31 through a spline, a stirring belt driven wheel 41 is arranged on the left side of the stirring belt main wheel 38, and the stirring belt driven wheel, and a stirring power shaft 42 is fixedly arranged at the center of the stirring belt wheel 41, the upper end of the stirring power shaft 42 is rotatably connected into the upper end wall of the stirring belt cavity 37, and the lower end of the stirring power shaft 42 is in power connection with the stirring device 202.

In the following, according to an embodiment, the stirring device 202 is described, said stirring device 202 comprising a stirring gear chamber 43 located at the lower side of said stirring belt chamber 37, the lower end of the stirring gear cavity 43 is communicated with the stirring cavity 22, the lower end of the stirring power shaft 42 extends into the stirring gear cavity 43 and is fixedly provided with a stirring turntable 44, a stirring sun gear 46 is arranged on the upper side of the stirring turntable 44, the upper end of the stirring sun gear 46 is fixedly arranged in the upper end wall of the stirring gear cavity 43, two symmetrical stirring shafts 45 are uniformly distributed on the stirring turntable 44, the two stirring shafts 45 are rotationally connected with the stirring turntable 44, the upper end of the stirring shaft 45 is fixedly provided with stirring planet wheels 47, the two stirring planet wheels 47 are meshed with the stirring sun wheel 46 towards the symmetrical center, the lower end of the stirring shaft 45 extends into the paint bucket 24 and is fixedly provided with stirring spiral plates 48.

Advantageously, the stirring sun gear 46 and the two stirring planetary gears 47 form a planetary gear system, so that the two stirring shafts 45 revolve around the symmetrical center as the axis under the driving of the stirring turntable 44, and simultaneously rotate under the driving of the stirring planetary gears 47, the stirring range of the stirring spiral plate 48 in the paint bucket 24 can be increased, and simultaneously, the stirring speed can be increased in cooperation with the rotation of the paint bucket 24.

According to the embodiment, the top cover lifting device 203 is described in detail below, the top cover lifting device 203 comprises two lifting cavities 49 which are located at the rear side of the stirring cavity 22 and are symmetrical in the front-rear direction, two lifting cavities 49 are provided with lifting screws 51, the lower end of the top cover 25 extends into the lifting cavities 49 and is in threaded fit with the lifting screws 51, the lower sides of the two lifting cavities 49 are provided with screw gear cavities 52, the lower end of the lifting screw 51 extends into the screw gear cavity 52 and is fixedly provided with a screw bevel gear 53, the lower side of the screw bevel gear 53 is engaged with a first bevel gear 54, the center of the first bevel gear 54 is fixedly provided with a screw power shaft 55, the right sides of the two screw gear cavities 52 are provided with screw linkage gear cavities 56, the right ends of the two screw power shafts 55 extend into the corresponding screw linkage gear cavities 56 and are fixedly provided with second bevel gears 57, the right ends of the second bevel gears 57 are engaged with transverse shaft bevel gears 58, the two transverse shaft bevel gears 58 are fixedly arranged on the same screw rod linkage transverse shaft 59, and the screw rod linkage transverse shaft 59 is in power connection with the power switching device 204.

According to the embodiment, the power switching device 204 is described in detail below, the power switching device 204 includes a switching gear cavity 61 located on the symmetrical center side of two screw rod linkage gear cavities 56, the screw rod linkage cross shaft 59 penetrates through the switching gear cavity 61, a third bevel gear 62 is fixedly arranged on the screw rod linkage cross shaft 59 located on the inner part of the switching gear cavity 61, the right end of the transmission cross shaft 36 extends into the switching gear cavity 61 and is fixedly provided with a transmission switching bevel gear 63, the transmission switching bevel gear 63 is located on the lower side of the third bevel gear 62, a switching bevel gear 64 is engaged on the upper side of the transmission switching bevel gear 63, the upper side of the switching bevel gear 64 can engage with the third bevel gear 62, a switching shaft 65 is fixedly arranged on the center of the switching bevel gear 64, a switching up-down sliding cavity 66 is arranged on the lower side of the switching gear cavity 61, and a switching slider 67 is slidably arranged in the switching up-, a switching reset spring 91 is fixedly arranged on the upper end surface of the switching slide block 67, the switching shaft 65 is rotatably connected to the switching slide block 67, a power gear cavity 68 is arranged on the lower side of the switching lifting slide cavity 66, a power vertical shaft 69 is arranged in the power gear cavity 68, the lower end of the switching shaft 65 extends into the power gear cavity 68 and is meshed with the power vertical shaft 69 through a spline, a power bevel gear 71 is fixedly arranged on the power vertical shaft 69, a power motor 72 is fixedly arranged in the front end wall of the power gear cavity 68, the rear end of the power motor 72 is in power connection with a motor shaft 73, a motor bevel gear 74 is fixedly arranged at the rear end of the motor shaft 73, the lower side of the motor bevel gear 74 is meshed with the power bevel gear 71, a pedal rotating cavity 75 is arranged on the rear side of the power gear cavity 68, the lower end of the switching slide block 67 extends into the pedal rotating cavity, the pedal rotating shaft 76 is rotatably provided with a pedal 77, the upper end surface of the pedal 77 abuts against the lower end surface of the switching slide block 67, and a pedal return spring 78 is fixedly arranged on the lower end surface of the pedal 77.

Beneficially, the switching bevel gear 64 is a double-sided bevel gear, the lower side of the switching bevel gear 64 can be meshed with the transmission switching bevel gear 63 in an initial state, and the upper side of the switching bevel gear 64 can be meshed with the third bevel gear 62 under the action of the switching slider 67, so that the purpose of power switching is achieved.

The following describes in detail the use steps of a high efficiency paint mixer in the present disclosure with reference to fig. 1 to 6:

in the initial state, the paint bucket 24 is not placed on the upper side of the rotating disk 23, the lower side of the switching bevel gear 64 is engaged with the transmission switching bevel gear 63, the lower end surface of the switching slider 67 abuts against the lower end wall of the switching elevating slide chamber 66, and the power motor 72 is not operated.

When stirring is required, the pedal 77 is stepped by feet, so that the upper end surface of the switching slide block 67 is abutted against the upper end wall of the switching lifting slide chamber 66, the switching bevel gear 64 is separated from the transmission switching bevel gear 63, the switching bevel gear 64 is meshed with the third bevel gear 62, at this time, the power motor 72 is started, the switching bevel gear 64 drives the lead screw linkage cross shaft 59 to rotate, the lead screw power shafts 55 on two sides are driven to rotate, the lifting lead screws 51 on two sides are driven to rotate through the meshing of the first bevel gear 54 and the lead screw bevel gear 53, the top cover 25 is further moved upwards in the lifting chamber 49, the stirring shaft 45 and the stirring spiral plate 48 are further driven to move upwards, the separation transmission shaft 39 is separated from the transmission vertical shaft 31, when the top cover 25 is separated from the lifting chamber 49 area, the power motor 72 stops acting, at this time, the pedal 77 is released, the switching bevel gear 64 is separated from the third bevel gear 62, and the, the pedal 77 is depressed again to engage the switching bevel gear 64 with the third bevel gear 62, at this time, the power motor 72 rotates reversely to rotate the lifting screw 51 reversely to move the top cover 25 downwards, the lower end of the stirring shaft 45 extends into the paint bucket 24, when the lower end face of the top cover 25 abuts against the upper end face of the base 21, the separation transmission shaft 39 engages with the transmission vertical shaft 31, the power motor 72 stops rotating, at this time, the pedal 77 is released, the switching bevel gear 64 separates from the third bevel gear 62 and engages with the transmission switching bevel gear 63, the power motor 72 rotates forward again, the transmission horizontal shaft 36 is driven to rotate by the engagement of the switching bevel gear 64 with the transmission switching bevel gear 63, the transmission vertical shaft 31 is driven to rotate, the transmission vertical shaft 31 drives the turntable belt main wheel 29 to rotate, the turntable belt 28 is driven to rotate by the belt 32, the turntable belt 28 drives the rotating disc 23 to rotate by the turntable shaft 27, the coating bucket 24 is further rotated, the upper end of the transmission vertical shaft 31 is meshed with the separation transmission shaft 39 through a spline, the separation transmission shaft 39 is further rotated to drive the stirring belt main wheel 38 to rotate, the stirring belt main wheel 38 drives the stirring belt driven wheel 41 to rotate through the stirring belt 92, the stirring belt driven wheel 41 drives the stirring turntable 44 to rotate through the stirring power shaft 42, the stirring planet wheel 47 is meshed with the stirring sun wheel 46, the stirring shafts 45 on two sides are driven by the stirring turntable 44 to rotate by taking the stirring power shaft 42 as a shaft, and meanwhile, the stirring shafts 45 rotate under the action of the stirring planet wheel 47 to drive the stirring spiral plate 48 to rotate to stir the coating in the coating bucket 24;

when the stirring is completed, the pedal 77 is stepped down to separate the switching bevel gear 64 from the transmission switching bevel gear 63 and further stop the rotation of the rotating disc 23, the stirring turntable 44 stops the rotation of the stirring shaft 45, the switching bevel gear 64 is engaged with the third bevel gear 62 and further drives the lifting screw 51 to rotate, so that the top cover 25 moves upwards, the separation transmission shaft 39 is separated from the transmission vertical shaft 31, when the lower end surface of the top cover 25 is flush with the upper end surface of the base 21, the power motor 72 stops operating, at this time, the pedal 77 can be released, the paint bucket 24 is removed, the pedal 77 is stepped down again, so that the switching bevel gear 64 is engaged with the third bevel gear 62, the power motor 72 rotates reversely and further drives the lifting screw 51 to rotate reversely, so that the top cover 25 moves downwards, when the lower end surface of the top cover 25 abuts against the upper end surface of the base 21, the separation transmission shaft 39 is engaged with the transmission vertical, at this point, the pedal 77 can be released and the device returns to its initial state to await the next actuation.

The invention has the beneficial effects that: according to the invention, the stirring device utilizes a planetary gear principle, uses double stirring screws for stirring, revolves around a symmetrical center while the stirring screws rotate, and is matched with the rotation motion of the coating bucket, so that the stirring range is effectively enlarged, the stirring time is saved, the stirring efficiency is improved, meanwhile, the stirring device is not required to be held by hands, the collision between the stirring device and the coating bucket is avoided, the equipment damage is avoided, the stirring is stopped when the stirring device is lifted and moved, the coating is prevented from splashing, and the safety and safety of personnel and equipment are ensured.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. An efficient coating mixing machine comprises a base;

a stirring cavity is arranged in the left end face of the base, the front end, the rear end and the left end of the stirring cavity are communicated to the outside, a rotating disc is arranged on the wall of the lower end of the stirring cavity, a coating bucket is placed on the rotating disc, a rotating disc shaft is fixedly arranged in the center of the rotating disc, a transmission device is connected to the lower end of the rotating disc shaft in a power mode, a top cover is arranged at the upper end of the base, a stirring device is arranged in the left end face of the top cover, the lower end of the stirring device extends into the coating bucket, the upper end of the stirring device is connected to the transmission device in a power mode, a top cover lifting device is arranged on the right side of the stirring cavity, the;

when the device works, the power switching device supplies power to the stirring device through the transmission device so as to stir the paint in the paint bucket, the transmission device drives the rotating disc to rotate so as to enable the paint bucket to be matched with the stirring device in a rotating mode, after the stirring device finishes stirring, the power switching device switches the power from the transmission device to the top cover lifting device, the top cover lifting device drives the top cover to lift upwards, the stirring device is separated from the paint bucket, and the taking of the paint bucket is facilitated;

the transmission device comprises a rotary table belt cavity positioned on the lower side of the stirring cavity;

the lower end of the turntable shaft is rotationally connected into the lower end wall of the turntable belt cavity, a turntable belt driven wheel is fixedly arranged on the part, located in the turntable belt cavity, of the turntable shaft, a turntable belt main wheel is arranged on the right side of the turntable belt driven wheel, a transmission vertical shaft is fixedly arranged at the center of the turntable belt main wheel, the lower end of the transmission vertical shaft is rotationally connected into the lower end wall of the turntable belt cavity, and the turntable belt main wheel is in power connection with the turntable belt driven wheel through a turntable belt;

a transmission gear cavity is formed in the upper side of the rotary disc belt cavity, the transmission gear cavity is located on the right side of the stirring cavity, the upper end of the transmission vertical shaft penetrates through the transmission gear cavity, a transmission vertical shaft bevel gear is fixedly arranged on the part, located inside the transmission gear cavity, of the transmission vertical shaft, a transmission transverse shaft bevel gear is meshed with the right side of the transmission vertical shaft bevel gear, a transmission transverse shaft is fixedly arranged in the center of the transmission transverse shaft bevel gear, and the right end of the transmission transverse shaft is in power connection with the power switching device;

a stirring belt cavity is arranged on the upper side of the transmission gear cavity and is positioned in the top cover, a stirring belt main wheel is arranged in the stirring belt cavity, a separation transmission shaft is fixedly arranged at the center of the stirring belt main wheel, the upper end of the separation transmission shaft is rotatably connected into the upper end wall of the stirring belt cavity, the lower end of the separation transmission shaft is meshed with the transmission vertical shaft through a spline, a stirring belt driven wheel is arranged on the left side of the stirring belt main wheel, the stirring belt main wheel is connected with the stirring belt driven wheel through stirring belt power, a stirring power shaft is fixedly arranged at the center of the stirring belt driven wheel, the upper end of the stirring power shaft is rotatably connected into the upper end wall of the stirring belt cavity, and the lower end of the stirring power shaft is in power connection with;

the stirring device comprises a stirring gear cavity positioned on the lower side of the stirring belt cavity;

the lower end of the stirring gear cavity is communicated with the stirring cavity, the lower end of the stirring power shaft extends into the stirring gear cavity and is fixedly provided with a stirring rotary table, the upper side of the stirring rotary table is provided with a stirring sun wheel, the upper end of the stirring sun wheel is fixedly arranged in the upper end wall of the stirring gear cavity, two symmetrical stirring shafts are uniformly distributed on the stirring rotary table, the two stirring shafts are rotationally connected to the stirring rotary table, the upper ends of the stirring shafts are respectively and fixedly provided with a stirring planetary wheel, the two stirring planetary wheels are respectively meshed with the stirring sun wheel towards the symmetrical center side, and the lower ends of the stirring shafts extend into the coating barrel and are respectively and fixedly provided with a stirring spiral plate;

the stirring sun gear and the two stirring planet gears form a planet gear system, so that the two stirring shafts revolve around the symmetrical center as an axis under the driving of the stirring turntable and rotate under the driving of the stirring planet gears, the stirring range of the stirring spiral plate in the coating bucket can be enlarged, and the stirring speed is increased by matching with the rotation of the coating bucket;

the top cover lifting device comprises two lifting cavities which are positioned at the rear side of the stirring cavity and are symmetrical in the front-back direction;

lifting screws are arranged in the two lifting cavities, the lower end of the top cover extends into the lifting cavities and is in threaded fit with the lifting screws, screw gear cavities are arranged on the lower sides of the two lifting cavities, the lower ends of the lifting screws extend into the screw gear cavities and are fixedly provided with screw bevel gears, first bevel gears are meshed with the lower sides of the screw bevel gears, screw power shafts are fixedly arranged at the centers of the first bevel gears, screw linkage gear cavities are arranged on the right sides of the two screw gear cavities, the right ends of the two screw power shafts extend into the corresponding screw linkage gear cavities and are fixedly provided with second bevel gears, transverse shaft bevel gears are meshed with the right ends of the second bevel gears, the two transverse shaft bevel gears are fixedly arranged on the same screw linkage transverse shaft, and the screw linkage transverse shaft is in power connection with the power switching device;

the power switching device comprises switching gear cavities which are positioned on the symmetrical center sides of the two screw rod linkage gear cavities;

the screw rod linkage cross shaft penetrates through the switching gear cavity, the screw rod linkage cross shaft is positioned in the switching gear cavity and is fixedly provided with a third bevel gear, the right end of the transmission cross shaft extends into the switching gear cavity and is fixedly provided with a transmission switching bevel gear, the transmission switching bevel gear is positioned at the lower side of the third bevel gear, the upper side of the transmission switching bevel gear is engaged with the switching bevel gear, the upper side of the switching bevel gear can be engaged with the third bevel gear, the center of the switching bevel gear is fixedly provided with a switching shaft, the lower side of the switching gear cavity is provided with a switching lifting sliding cavity, a switching sliding block is arranged in the switching lifting sliding cavity in a sliding manner, the upper end surface of the switching sliding block is fixedly provided with a switching reset spring, the switching shaft is rotatably connected with the switching sliding block, the lower side of the switching lifting sliding, the lower end of the switching shaft extends into the power gear cavity and is meshed with the power vertical shaft through a spline, a power bevel gear is fixedly arranged on the power vertical shaft, a power motor is fixedly arranged in the front end wall of the power gear cavity, the rear end of the power motor is in power connection with a motor shaft, a motor bevel gear is fixedly arranged at the rear end of the motor shaft, and the lower side of the motor bevel gear is meshed with the power bevel gear;

a pedal rotating cavity is formed in the rear side of the power gear cavity, the lower end of the switching slide block extends into the pedal rotating cavity, a pedal rotating shaft is arranged in the pedal rotating cavity, a pedal is rotatably arranged on the pedal rotating shaft, the upper end face of the pedal abuts against the lower end face of the switching slide block, and a pedal return spring is fixedly arranged on the lower end face of the pedal;

the switching bevel gear is a double-sided bevel gear, the lower side of the switching bevel gear can be meshed with the transmission switching bevel gear in an initial state, and the upper side of the switching bevel gear can be meshed with the third bevel gear under the action of the switching slider, so that the purpose of power switching is achieved.