CN219356638U - Super hydrophilic functional coating spraying device - Google Patents

Abstract

The utility model discloses a super-hydrophilic functional coating spraying device which comprises a bottom plate, wherein the bottom of the bottom plate is connected with a lower shell through a bolt, the inner wall of the bottom of the lower shell is connected with a transmission shaft through a bearing, the top end of the transmission shaft penetrates through the outer wall of the top of the bottom plate and is welded with a driven belt pulley, the outer wall of the top of the bottom plate is connected with a double-shaft motor through a bolt, the outer wall of the transmission shaft is welded with a post gear, a positioning shaft is connected between the bottom plate and the inner wall of the bottom of the lower shell through a bearing, the outer wall of the positioning shaft is welded with a disc gear, the disc gear is meshed with the post gear, and the outer wall of the positioning shaft is welded with a driving gear. According to the utility model, the workpiece to be sprayed is hung on the hanging ring through the double-shaft motor, the rotating shaft and the hanging ring, and the double-shaft motor drives the transmission shaft to rotate, so that the workpiece rotates at a constant speed, and paint can be conveniently sprayed on the workpiece, and therefore, the effect of quick and uniform spraying of the workpiece during spraying is realized.

Description

Super hydrophilic functional coating spraying device

Technical Field

The utility model relates to the technical field of workpiece spraying, in particular to a super-hydrophilic functional coating spraying device.

Background

After the machine frame is carried out on the workpiece, the spraying treatment is required, so that the surface of the workpiece has an antirust function, and the physicochemical property of the surface of the workpiece can be improved.

When the work piece of prior art carries out the spraying, carries and turn over through the manual work, such transport and turn over mode inefficiency, extravagant manpower leads to the spraying efficiency of work piece slower, and the inhomogeneous of junction spraying between two faces of work piece leads to the spraying quality of work piece to descend. Therefore, there is a need to design a super-hydrophilic functional coating spray device to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a super-hydrophilic functional coating spraying device.

In order to achieve the above purpose, the super-hydrophilic functional coating spraying device provided by the utility model adopts the following technical scheme:

the utility model relates to a super-hydrophilic functional coating spraying device which comprises a bottom plate, wherein the bottom of the bottom plate is connected with a lower shell through a bolt, the bottom inner wall of the lower shell is connected with a transmission shaft through a bearing, the top end of the transmission shaft penetrates through the outer wall of the top of the bottom plate and is welded with a driven pulley, the top outer wall of the bottom plate is connected with a double-shaft motor through a bolt, the outer wall of the transmission shaft is welded with a post gear, a positioning shaft is connected between the bottom plate and the bottom inner wall of the lower shell through a bearing, the outer wall of the positioning shaft is welded with a disk gear, the disk gear is meshed with the post gear, the outer wall of the positioning shaft is welded with a driving gear, the driving gear is positioned at the bottom of the disk gear, the bottom outer wall of the bottom plate is connected with a rotating shaft through a bearing, the bottom end of the rotating shaft penetrates through the bottom inner wall of the lower shell and is welded with a hanging ring, the outer wall of the rotating shaft is welded with a driven gear, and the driven gear is meshed with the driving gear.

In one embodiment, a driving belt pulley is welded at one end of the top output shaft of the double-shaft motor, and the driving belt pulley is connected with the driven belt pulley through belt transmission.

In one embodiment, four fixing plates are welded at the bottom of the bottom plate, and a rail wheel is rotatably connected to the outer wall of one side of each fixing plate through a shaft.

In one embodiment, four struts are arranged around the bottom plate, a guide rail is connected between two struts through bolts, and the bottom plate is in sliding connection with the guide rail through the rail wheels.

In one implementation mode, a connecting shaft is welded between two rail wheels, a driven bevel gear is welded on the outer wall of the connecting shaft, one end of a bottom output shaft of the double-shaft motor penetrates through the outer wall of the top of the bottom plate, and a driving bevel gear is welded on the outer wall of the top of the bottom plate and meshed with the driven bevel gear.

In one embodiment, the top outer wall of the bottom plate is connected with an upper shell through bolts, and the double-shaft motor and the transmission shaft are both located inside the upper shell.

In one embodiment, the outer wall of the rotating shaft is sleeved with a limiting sleeve, the outer wall of the rotating shaft is provided with a limiting groove, the limiting sleeve is internally inserted with a limiting pin, and one side of the limiting pin is positioned in the limiting groove.

The super-hydrophilic functional coating spraying device has the beneficial effects that:

according to the super-hydrophilic functional coating spraying device, the workpiece to be sprayed is hung on the hanging ring through the double-shaft motor, the rotating shaft and the hanging ring, and the double-shaft motor drives the transmission shaft to rotate, so that the workpiece rotates at a uniform speed, paint can be conveniently sprayed on the workpiece, and therefore the effect of quick and uniform spraying of the workpiece during spraying is achieved;

according to the super-hydrophilic functional coating spraying device, the double-shaft motor, the guide rail and the rail wheel are arranged, the rail wheel is driven by the double-shaft motor to rotate on the guide rail, so that the base plate drives a sprayed workpiece to move at a constant speed, the effect of convenient movement of the sprayed workpiece is realized, and labor is saved;

according to the super-hydrophilic functional coating spraying device, the limiting sleeve is arranged to limit the transmission shaft by utilizing the limiting sleeve, so that the transmission shaft cannot axially move during rotation, the stable effect of workpiece spraying rotation is realized, and the practicability is improved;

according to the super-hydrophilic functional coating spraying device, through the double-shaft motor, the double-shaft motor can drive the workpiece to move and can drive the workpiece to rotate so as to facilitate paint spraying, the design is ingenious, the use of the motor is reduced, and therefore the manufacturing cost of the spraying conveying device is saved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a super-hydrophilic functional coating spraying device according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a super-hydrophilic functional coating spraying device according to the present utility model;

FIG. 3 is a schematic view of the lower housing structure of the super-hydrophilic functional coating spraying device according to the present utility model;

fig. 4 is an enlarged view of a portion a of a super-hydrophilic functional coating spraying device according to the present utility model.

In the figure: the device comprises a base plate 1, a double-shaft motor 2, a fixed plate 3, a rail wheel 4, a driving bevel gear 5, a connecting shaft 6, a driven bevel gear 7, a driving pulley 8, a transmission shaft 9, a driven pulley 10, an upper shell 11, a lower shell 12, a column gear 13, a positioning shaft 14, a disk gear 15, a driving gear 16, a rotating shaft 17, a driven gear 18, a hanging ring 19, a guide rail 20, a support column 21, a limiting sleeve 22, a limiting groove 23 and a limiting pin 24.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-4, the coating spraying device with super-hydrophilic function comprises a bottom plate 1, a lower shell 12 is connected to the bottom of the bottom plate 1 through bolts, a cavity is formed in the lower shell 12, a transmission shaft 9 is connected to the inner wall of the bottom of the lower shell 12 through a bearing, a driven pulley 10 is welded to the outer wall of the top of the transmission shaft 9, a double-shaft motor 2 is connected to the outer wall of the top of the bottom plate 1 through bolts, the type 86HBP80AL4-DKA of the double-shaft motor 2 is 86HBP80AL4-DKA, a post gear 13 is welded to the outer wall of the transmission shaft 9, the post gear 13 is driven by the double-shaft motor 2, a positioning shaft 14 is connected between the bottom plate 1 and the inner wall of the bottom shell 12 through a bearing, a disk gear 15 is welded to the outer wall of the positioning shaft 14, the disk gear 15 is meshed with the post gear 13, the disk gear 15 is driven by the post gear 13, the outer wall of the positioning shaft 14 is welded to the driving gear 16, the driving gear 16 is positioned at the bottom of the disk gear 15, the driving gear 16 is driven by the driving gear 14 through the positioning shaft 14, the outer wall of the driving gear 16 is connected to the rotating shaft 17 through the bearing, a hanging ring 19 is welded to the inner wall of the bottom of the rotating shaft 17, the bottom of the driving gear 17 is meshed with the driven gear 18 by the driving gear 18, and the driven gear 18 is welded to the driven gear 18, and the driven gear is welded to the workpiece 18 by the rotating surface evenly, and the driven gear is welded to the driven gear 18, and the workpiece is in rotation quality is driven by the rotating.

Further, a driving belt pulley 8 is welded at one end of the top output shaft of the double-shaft motor 2, the driving belt pulley 8 is connected with a driven belt pulley 10 through belt transmission, and the double-shaft motor 2 drives a transmission shaft 9 through the driving belt pulley 8 and the driven belt pulley 10.

Further, the bottom of the bottom plate 1 is welded with four fixing plates 3, one side outer wall of each fixing plate 3 is connected with a rail wheel 4 through shaft rotation, and one side of each fixing plate 3 is provided with two rail wheels 4.

Further, four struts 21 are arranged around the bottom plate 1, two guide rails 20 are connected between the two struts 21 through bolts, the two guide rails 20 are arranged, the bottom plate 1 is in sliding connection with the guide rails 20 through the rail wheels 4, and the guide rails 20 are located between the two rail wheels 4 on one side of the fixed plate 3.

Further, a connecting shaft 6 is welded between the two rail wheels 4, a driven bevel gear 7 is welded on the outer wall of the connecting shaft 6, a driving bevel gear 5 is welded on one end of the bottom output shaft of the double-shaft motor 2, which penetrates through the outer wall of the top of the bottom plate 1, the driving bevel gear 5 is meshed with the driven bevel gear 7, the double-shaft motor 2 is utilized to drive the connecting shaft 6 to rotate, and then the rail wheels 4 are driven to rotate, so that the bottom plate 1 moves.

Further, the top outer wall of the bottom plate 1 is connected with an upper shell 11 through bolts, and the double-shaft motor 2 and the transmission shaft 9 are both positioned inside the upper shell 11, so that the upper shell 11 is utilized to play a role in protecting paint.

Further, the outer wall of the rotating shaft 17 is sleeved with a limiting sleeve 22, the rotating shaft 17 is prevented from being separated from the lower shell 12 by the limiting sleeve 22, the outer wall of the rotating shaft 17 is provided with a limiting groove 23, a limiting pin 24 is inserted into the limiting sleeve 22, one side of the limiting pin 24 is positioned in the limiting groove 23, and the positioning of the limiting sleeve 22 on the rotating shaft 17 is realized.

The utility model relates to a super-hydrophilic functional coating spraying device, which comprises the following working principles: when the spraying device is used, a workpiece to be sprayed is hung on the hanging ring 19, a power supply of the double-shaft motor 2 is connected, the top output shaft and the bottom output shaft of the double-shaft motor 2 rotate, when the top output shaft of the double-shaft motor 2 rotates, the driving pulley 5 is driven to rotate, the driving pulley 5 drives the driven pulley 10 to rotate through a belt, the driven pulley 10 drives the transmission shaft 9 to rotate, the rotation of the transmission shaft 9 drives the post gear 13 to rotate, the rotation of the post gear 13 drives the disc gear 15 to rotate, the disc gear 15 drives the driving gear 16 to rotate through the positioning shaft 14, the driving gear 16 drives the driven gear 18 to rotate, the rotation of the driven gear 18 drives the rotation shaft 17 to rotate, the rotation shaft 17 drives the workpiece through the hanging ring 19, when the bottom output shaft of the double-shaft motor 2 rotates, the driving bevel gear 5 drives the driven bevel gear 7 to rotate, the driven bevel gear 7 drives the connecting shaft 6 to rotate, the connecting shaft 6 drives the track wheel 4 to rotate, the track wheel 4 drives the bottom plate 1 through friction force with the guide rail 20, the bottom plate 1 drives the workpiece to move, and the workpiece moves, and the workpiece rotates through the positioning shaft 14, so that the workpiece can be sprayed quickly and conveniently.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a super hydrophilic function coating spraying device, includes the bottom plate, its characterized in that, the bottom of bottom plate has the lower casing through bolted connection, the bottom inner wall of lower casing has the transmission shaft through the bearing connection, the top of transmission shaft runs through bottom plate top outer wall welding and has driven pulley, the top outer wall of bottom plate has the biax motor through bolted connection, the outer wall welding of transmission shaft has the post gear, the bottom plate with there is the locating shaft through bearing connection between the bottom inner wall of lower casing bottom, the outer wall welding of locating shaft has a dish gear, the dish gear with post gear engagement, the outer wall welding of locating shaft has the driving gear, the driving gear is located dish gear bottom, the bottom outer wall of bottom plate has the axis of rotation through bearing connection, the bottom of axis of rotation runs through the bottom inner wall welding of lower casing has the link, the outer wall welding of axis of rotation has driven gear, just driven gear with driving gear engagement.

2. The super-hydrophilic functional coating spraying device according to claim 1, wherein one end of a top output shaft of the double-shaft motor is welded with a driving belt pulley, and the driving belt pulley is connected with the driven belt pulley through belt transmission.

3. The super-hydrophilic functional coating spraying device according to claim 1, wherein four fixing plates are welded at the bottom of the bottom plate, and one side outer wall of each fixing plate is connected with a rail wheel through shaft rotation.

4. The super-hydrophilic functional coating spraying device according to claim 3, wherein four struts are arranged around the bottom plate, a guide rail is connected between two struts through bolts, and the bottom plate is slidably connected with the guide rail through the rail wheel.

5. The super-hydrophilic functional coating spraying device according to claim 3, wherein a connecting shaft is welded between two rail wheels, a driven bevel gear is welded on the outer wall of the connecting shaft, a driving bevel gear is welded on one end of a bottom output shaft of the double-shaft motor, penetrating through the outer wall of the top of the bottom plate, and meshed with the driven bevel gear.

6. The super-hydrophilic functional coating spraying device according to claim 1, wherein an upper shell is connected to the top outer wall of the bottom plate through bolts, and the double-shaft motor and the transmission shaft are both located inside the upper shell.

7. The super-hydrophilic coating spraying device according to any one of claims 1 to 6, wherein a limit sleeve is sleeved on the outer wall of the rotating shaft, a limit groove is formed in the outer wall of the rotating shaft, a limit pin is inserted into the limit sleeve, and one side of the limit pin is located in the limit groove.