CN219210431U - Length-adaptive surface coating mechanism - Google Patents

Abstract

The utility model discloses a length-adaptive surface coating mechanism, which aims to solve the technical problem that the lower surface coating mechanism in the prior art cannot automatically adapt to guiding and coating according to different lengths of workpieces when coating; the surface coating mechanism comprises a coating mechanism body, a bottom supporting module arranged on the surface coating mechanism body, and a side supporting module connected with the bottom supporting module and used for supporting and connecting the side surfaces; the coating mechanism comprises a coating mechanism body, wherein the coating mechanism body comprises a control driving module for driving control, the coating mechanism body comprises a feeding placement module for workpiece feeding, and a driving guide module for adjusting and guiding the round tube is arranged outside the feeding placement module; the surface coating mechanism can be used for placing workpieces without long materials through the feeding placement module, and guiding and gluing can be automatically adapted according to different lengths of the workpieces through the driving guide module.

Description

Length-adaptive surface coating mechanism

Technical Field

The utility model belongs to the technical field of surface coating mechanisms, and particularly relates to a length-adaptive surface coating mechanism.

Background

At present, the surface coating mechanism used in the market is single in structure, and can not automatically adapt to guiding and gluing according to different lengths of workpieces when the workpieces with different lengths are coated, so that the coating mechanism has certain limitation in coating use, the requirements of users can not be met, and the using functionality of the coating mechanism is greatly reduced.

At present, the utility model patent with the patent number of CN201320460955.6 discloses an antifogging agent coating mechanism which comprises an upper roller, a lower roller and an antifogging agent discharging device; the antifogging agent discharging device comprises a bracket, a hose, a discharging pipe and a tap; the bracket is arranged on a rack of the antifogging agent coating mechanism; the discharging pipe is arranged on the bracket; the hose is connected to one end of the discharging pipe; the tap is connected to the other end of the discharging pipe; the discharging nozzle of the tap is positioned above the sheet before being extruded by the upper roller and the lower roller; the discharging nozzle of the tap is provided with a filter; the support is a telescopic support capable of driving the discharging pipe to move. The antifogging agent coating mechanism can filter antifogging agent, but the coating mechanism can not automatically adapt to guiding and gluing according to different lengths of workpieces when gluing, so that the antifogging agent coating mechanism has certain limitation in use.

Therefore, in order to solve the problem that the surface coating mechanism cannot automatically adapt to the guiding and gluing according to the different lengths of the workpieces when gluing, the solution is needed to improve the use scenario of the surface coating mechanism.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a length-adaptive surface coating mechanism, which aims to solve the technical problem that the surface coating mechanism in the prior art cannot automatically adapt to guiding and gluing according to different lengths of workpieces when gluing.

(2) Technical proposal

In order to solve the technical problems, the utility model provides a length-adaptive surface coating mechanism, which comprises a coating mechanism body, a bottom support module arranged on the coating mechanism body, and a side support module connected with the bottom support module for supporting and connecting the side surfaces; the coating mechanism comprises a coating mechanism body, and is characterized in that the coating mechanism body comprises a control driving module for driving control, the coating mechanism body comprises a feeding placement module for workpiece feeding, a driving guide module for adjusting and guiding the round tube is arranged on the outer side of the feeding placement module, and a gluing assembly for rotary coating is arranged on the outer side of the feeding placement module.

When the surface coating mechanism of the technical scheme is used, the workpiece with no material length can be placed through the arrangement of the feeding placement module for workpiece feeding, which is arranged in the coating mechanism body, and the driving guide module for adjusting and guiding the round pipe, which is arranged outside the feeding placement module, can automatically adapt to guiding and gluing according to the difference of the length of the workpiece, so that the use efficiency of the coating mechanism body is greatly improved.

Preferably, the control driving module comprises a linear feeding driving motor for driving, and a connecting fixing plate for mounting and fixing is arranged outside the linear feeding driving motor. Through the setting of straight line feeding driving motor, can play control driven effect, and through the setting of connecting the fixed plate, can play fixed mounting's effect.

Further, the gluing assembly comprises a rotating motor arranged on the connecting and fixing plate, and a rotating shaft rod is arranged at the output end of the rotating motor. Through the arrangement of the rotating motor, the rotating shaft rod can be driven to rotate, so that the function of spin coating is achieved.

Still further, the rubber coating subassembly is inside to be used for being connected with the rubber coating brush bracing piece of rotation axis pole including, rubber coating brush bracing piece downside is provided with the rubber coating brush body. Through the setting of rubber coating brush bracing piece, can play the connection support effect, and through the setting of rubber coating brush body, can carry out the rubber coating operation.

Still further, the control drive module is inside to be included the straight line that is used for adjusting and feeds the cylinder, drive direction module is inside to include with the direction driving motor. Through the setting of straight line feeding cylinder, can play the effect that drives the regulation, and through the setting of direction driving motor, can play the drive effect.

Still further, the output of direction driving motor is provided with drive pulley assembly, the drive pulley assembly outside is provided with the direction head. Through the setting of drive belt pulley subassembly, can move under the effect of direction driving motor to drive the direction head and play the effect that the drive was led.

Still further, the material loading is placed the inside pipe work piece that can place including the material loading, the material loading is placed the inside rubber coating station that is used for carrying out the coating that is used for of module, the inside detection sensor that is used for carrying out the response that is provided with of coating mechanism body, the material loading is placed the inside guide inner rod that is used for cooperateing the use with the direction head that is used for including the module. Through the setting of detecting sensor, can play the induction effect to ensured the accuracy of rubber coating, and through the setting of direction interior pole, can cooperate the use with the direction head, play the effect of stable direction.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: according to the surface coating mechanism, the feeding placing module arranged in the coating mechanism body is utilized to place workpieces without long materials, and the driving guide module arranged on the outer side of the feeding placing module can automatically adapt to guiding and gluing according to different lengths of the workpieces, so that the use efficiency of the coating mechanism body is further greatly improved.

Drawings

FIG. 1 is a schematic view of a construction of one embodiment of a surface coating mechanism of the present utility model;

FIG. 2 is a front cross-sectional view of one embodiment of the surface coating mechanism of the present utility model;

FIG. 3 is a side cross-sectional view of one embodiment of a surface coating mechanism of the present utility model;

fig. 4 is a top cross-sectional view of one embodiment of a surface coating mechanism of the present utility model.

The marks in the drawings are: 1. a coating mechanism body; 2. a bottom support module; 3. a side support module; 4. controlling a driving module; 5. a feeding and placing module; 6. a drive guide module; 7. a gluing component; 8. a linear feed drive motor; 9. connecting a fixing plate; 10. a rotating electric machine; 11. a rotating shaft; 12. a glue spreading brush supporting rod; 13. a gumming brush body; 14. a linear feed cylinder; 15. a guide driving motor; 16. a drive pulley assembly; 17. a guide head; 18. a round pipe workpiece; 19. a gluing station; 20. a detection sensor; 21. guiding the inner rod.

Detailed Description

Example 1

The specific embodiment is a length-adaptive surface coating mechanism, the structure of which is shown in fig. 1, the front cross-section view of which is shown in fig. 2, the surface coating mechanism comprises a coating mechanism body 1, a bottom support module 2 arranged on the coating mechanism body 1, and a side support module 3 connected with the bottom support module 2 for supporting and connecting the side; the coating mechanism body 1 comprises a control driving module 4 for driving control, the coating mechanism body 1 comprises a feeding placement module 5 for workpiece feeding, a driving guide module 6 for adjusting and guiding the round tube is arranged outside the feeding placement module 5, and a gluing component 7 for rotary coating is arranged outside the feeding placement module 5.

Wherein, control drive module 4 is inside including being used for carrying out driven straight line and feed driving motor 8, and the straight line is fed driving motor 8 outside and is provided with and is used for installing fixed connection fixed plate 9, and the inside rotating electrical machines 10 of installing on connecting fixed plate 9 of rubber coating subassembly 7, and the output of rotating electrical machines 10 is provided with rotatory axostylus axostyle 11, and the inside rubber coating brush bracing piece 12 that is used for being connected with rotatory axostylus axostyle 11 that is including of rubber coating subassembly 7, rubber coating brush bracing piece 12 downside is provided with rubber coating brush body 13. The number of units of the glue spreading brush body 13 may be set as desired.

In addition, the control driving module 4 is inside including being used for adjusting the straight line feed cylinder 14, drive the direction module 6 inside include with direction driving motor 15, the output of direction driving motor 15 is provided with drive pulley assembly 16, the drive pulley assembly 16 outside is provided with the direction head 17, the material loading is placed the inside pipe work piece 18 that can place including being used for placing of module 5, the material loading is placed the inside rubber coating station 19 that is used for carrying out the coating that is used for, the inside detection sensor 20 that is used for carrying out the response that is provided with of coating mechanism body 1, the material loading is placed the inside guide interior pole 21 that is used for cooperateing with the direction head 17 that is used including being used for of module 5.

A side cross-sectional view of the surface coating mechanism is shown in fig. 3, with a top cross-sectional view shown in fig. 4.

It should be noted here that the number of guide inner rods 21 can also be adjusted accordingly according to the design requirements.

When the surface coating mechanism of the technical scheme is used, the effect of controlling and driving can be achieved through the linear feeding driving motor 8, the effect of fixed installation can be achieved through the connecting fixing plate 9, then the rotating shaft rod 11 can be driven to rotate through the rotating motor 10, the effect of rotating coating is achieved, meanwhile, the gluing brush supporting rod 12 can achieve the connecting supporting effect, the gluing operation can be achieved through the gluing brush body 13, the effect of driving and adjusting can be achieved through the linear feeding cylinder 14, the driving effect can be achieved through the guiding driving motor 15, the driving belt pulley assembly 16 can move under the effect of the guiding driving motor 15, the guiding head 17 is driven to achieve the effect of driving and guiding, finally the sensing effect can be achieved through the detecting sensor 20, the gluing accuracy is guaranteed, the guiding effect can be achieved through the fact that the guiding inner rod 21 is matched with the guiding head 17, and the surface coating treatment can be achieved, and the coating mechanism body 1 can be automatically adapted to workpieces with different materials in length.

Claims (7)

1. The surface coating mechanism comprises a coating mechanism body, a bottom support module arranged on the coating mechanism body, and a side support module connected with the bottom support module and used for supporting and connecting the side surfaces; the coating mechanism is characterized in that the coating mechanism body comprises a control driving module for driving control, the coating mechanism body comprises a feeding placement module for workpiece feeding, a driving guide module for adjusting and guiding the round tube is arranged on the outer side of the feeding placement module, and a gluing assembly for rotary coating is arranged on the outer side of the feeding placement module.

2. The adaptive-length surface coating mechanism according to claim 1, wherein the control driving module comprises a linear feeding driving motor for driving, and a connecting fixing plate for mounting and fixing is arranged outside the linear feeding driving motor.

3. A length-adaptive surface coating mechanism according to claim 2, wherein the glue applicator assembly comprises a rotary motor mounted on a connecting plate, and the output end of the rotary motor is provided with a rotary shaft.

4. A length-adaptive surface coating mechanism according to claim 3, wherein the glue applicator assembly comprises a glue applicator brush support bar for connection to a rotatable shaft, the glue applicator brush support bar being provided with a glue applicator brush body on an underside thereof.

5. A length-adaptive surface coating mechanism according to claim 1, wherein the control drive module includes a linear feed cylinder for adjustment, and the drive guide module includes a guide drive motor.

6. The adaptive length surface coating mechanism of claim 5, wherein the output end of the guiding drive motor is provided with a drive pulley assembly, and a guiding head is provided outside the drive pulley assembly.

7. The surface coating mechanism with self-adaptive length as claimed in claim 2, wherein the loading placement module comprises a circular tube workpiece capable of being placed, the loading placement module comprises a gluing station for coating, the coating mechanism body is internally provided with a detection sensor for sensing, and the loading placement module comprises a guide inner rod for being matched with the guide head for use.

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