CN210501870U - Printing mechanism of bottle cap - Google Patents

Abstract

The utility model relates to a printing mechanism of bottle lid in ice lid processing field, it includes the organism, sets up operation platform on the organism, the last rotary platform that is provided with of operation platform, the last a plurality of fixing bases that are provided with of rotary platform, just be provided with printing element on the operation platform, just the printing element next-door neighbour rotary platform, operation platform is provided with the just right arm that snatchs with printing element, operation platform is last to be provided with the negative pressure adsorption apparatus who can communicate with the fixing base and constructs, negative pressure adsorption apparatus sets up in the printing mechanism below, just cooperate on the fixing base negative pressure adsorption apparatus is provided with the gas passage. The utility model discloses a set up the gas passage that negative pressure adsorption apparatus constructs the cooperation and sets up on the fixing base, realized fixed the absorption of the bottle lid of processing on the fixing base to avoided the bottle lid to adhere to on the printing component because of the viscidity of printing coating when the printing.

Description

Printing mechanism of bottle cap

Technical Field

The utility model belongs to the technical field of the bottle lid processing and specifically relates to a printing mechanism of bottle lid is related to.

Background

The bottle caps are applied to various industries, and after a plurality of bottle caps are produced, the surfaces of the bottle caps need to be printed to obtain corresponding patterns, characters, colors and the like so as to form the marks of products sold by the bottle caps. However, there is no automatic printing device on the market today which can print individual patterns on bottle caps, the traditional technology generally adopts manual work to print bottle caps, and the production process flow is as follows: manually printing patterns on the bottle caps → uniformly collecting the bottle caps with the printed patterns → manually conveying the bottle caps to the next process → drying the bottle caps with the printed patterns → performing defective product detection on the pattern printing of the bottle caps, wherein the whole production process basically depends on manual operation, the automation degree is low, the effect of pattern printing on the bottle caps is poor, and the production quality is reduced; in addition, the long production flow leads to a decrease in production efficiency and an increase in production cost.

In order to solve the above problems, chinese patent No. CN204037045U discloses a printing assembly for bottle caps, which is technically characterized by comprising a case, a bottle cap conveying device is arranged in the case, and a flame surface treatment device, a push-pull printing tower and an ink drying device are sequentially arranged above the bottle cap conveying device. During working, the bottle caps are conveyed into the flame surface treatment device through the bottle cap conveying device for flame treatment, then conveyed to the lower part of the push-pull type printing tower for pattern printing, then conveyed into the ink drying device for drying treatment, finally the bottle cap conveying device outputs the dried bottle caps, and the bottle cap printing work is finished. The utility model discloses a bottle lid printing machine can reduce manual operation with the integrated automation of each process of bottle lid pattern printing when using and produce, improves mechanical automation degree to can shorten the production procedure of bottle lid pattern printing effectively, and improve the production efficiency of bottle lid pattern printing, and then can reduce the manufacturing cost of bottle lid pattern printing.

The above-mentioned solution still has the following disadvantages that since the coating material to be printed has a certain viscosity, the bottle cap may be attached to the printing tower due to the viscosity of the printing coating material during printing in the printing tower, so that the printed bottle cap conveyed into the drying device may be stained with color, and the yield of printed products is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a printing mechanism of bottle lid through setting up negative pressure adsorption apparatus and construct, will print the bottle lid on the station and adsorb and fix on the station, makes the bottle lid can not attach to on the printing tower because of coating viscidity.

The utility model aims at realizing through the following technical scheme:

the utility model provides a printing mechanism of bottle lid, includes the organism, sets up operation platform on the organism, be provided with rotary platform on the operation platform, the last a plurality of fixing bases that are provided with of rotary platform, just be provided with the printing module on the operation platform, just the printing module next-door neighbour rotary platform, operation platform is provided with a set of and the printing module just right arm of snatching, operation platform is last to be provided with the negative pressure adsorption apparatus who can communicate with the fixing base and constructs, negative pressure adsorption apparatus sets up in the printing module below, just cooperation on the fixing base negative pressure adsorption apparatus constructs and is provided with the gas passage.

By adopting the technical scheme, the rotary platform can drive the bottle cap to rotate, and the bottle cap is conveyed to the lower part of the printing assembly; the fixing seat is used for placing and fixing the bottle cap to be printed. The grabbing of the grabbing arm is carried out at the same time as the action of placing the printed bottle cap and the action of extracting and conveying the printed bottle cap, the printed bottle cap can be placed on the fixing seat by the grabbing arm, and the printed bottle cap can be extracted by the grabbing arm and conveyed to the next station. The negative pressure adsorption mechanism can adsorb the bottle cap on the printing station on the fixing seat through the gas loop, and the bottle cap cannot be attached to the printing assembly due to coating viscosity when the printing assembly performs printing.

The final printed product has good quality and has little halation.

Utility model further sets up to: the rotary platform is characterized in that an angle sensor is arranged at the center of the rotary platform, the angle sensor is connected with a controller, a servo motor for controlling the rotary platform to rotate is arranged below the rotary platform, and the servo motor and the angle sensor are electrically connected with the controller.

Through adopting above-mentioned technical scheme, angle sensor can drive the rotatory angle of rotary platform to servo motor and detect to with rotation angle feedback to controller, the controller can control servo motor and rotate, thereby makes rotary platform all can make the accurate rotation of fixing base to under the printing component at every turn angle of rotation under servo motor's drive.

The utility model discloses further set up to: the negative pressure adsorption mechanism comprises a vacuum pump arranged on one side of the machine body, a pipeline of the vacuum pump is connected with an electromagnetic valve, the electromagnetic valve is electrically connected with the controller, a workbench is arranged on the operating platform, a driving cylinder is arranged on the workbench, a telescopic shaft of the driving cylinder is connected with an air suction pipe, the air suction pipe is communicated with the pipeline of the electromagnetic valve, and one end, opposite to the operating platform, of the air suction pipe can be communicated with an air passage of an opposite fixed seat.

Through adopting above-mentioned technical scheme, the vacuum pump provides the negative pressure and adsorbs, and when there was the fixing base at the printing station, the solenoid valve can be opened under controller control, and the breathing pipe can communicate with the fixing base to realize the negative pressure and adsorb, when accomplishing the printing, the solenoid valve was closed, can remove the negative pressure and adsorb.

The utility model discloses further set up to: and a manual valve is arranged between the vacuum pump and the electromagnetic valve.

Through adopting above-mentioned technical scheme, the setting of manual valve has played the effect of insurance, and when damage or vacuum pump problem appear in the solenoid valve, can directly close manual valve, protection equipment.

The utility model discloses further set up to: the port of the air suction pipe is provided with a flaring section, and the end part of the flaring section is provided with a sealing sleeve.

By adopting the technical scheme, the flaring section can solve the problem that the caliber of the air suction pipe cannot be aligned with the air passage; the seal cover can solve the gas tightness problem of breathing pipe when carrying out the negative pressure and adsorbing, makes and can realize sealed when carrying out the negative pressure and adsorb between breathing pipe and the fixing base, reinforcing negative pressure adsorption effect.

The utility model discloses further set up to: the sealing sleeve and the contact end face of the fixing seat are matched with the radian of the fixing seat.

Through adopting above-mentioned technical scheme, the seal cover can hug closely more with the fixing base to make the negative pressure adsorption effect better.

The utility model discloses further set up to: the air suction pipe and the driving air cylinder are connected through a guide rod, the diameter of the guide rod is smaller than that of the air suction pipe, a spring is sleeved outside the guide rod, a connecting cover is buckled outside the spring, a guide hole for the guide rod to extend out is formed in the connecting cover, the connecting cover is connected with the telescopic shaft of the driving air cylinder, and the guide rod is located at one end outside the connecting cover and is connected with a limiting nut through threads.

Through adopting above-mentioned technical scheme, the combination of breathing pipe, connecting cover and spring is used and has been realized compressing tightly to the breathing pipe for the breathing pipe can be sticis on the fixing base when the gas passage on the intercommunication fixing base, has improved the absorbent effect of negative pressure.

The utility model discloses further set up to: the gas passage comprises a through hole which is arranged on the upper surface of the fixing seat and communicated with the side wall of the fixing seat.

Through adopting above-mentioned technical scheme, set up the gas passage into the through-hole of intercommunication fixing base upper surface and lateral wall, cooperation negative pressure adsorption device that can be better carries out the negative pressure to the bottle lid and adsorbs.

To sum up, the utility model discloses a beneficial technological effect does:

1. the vacuum adsorption device is matched with the gas passage arranged on the fixed seat, so that the bottle cap can be adsorbed in the printing process, and the bottle cap cannot be attached to the printing assembly due to the viscosity of printing coating;

2. the air suction pipe, the connecting cover arranged on the air suction pipe, the spring and the driving cylinder connected with the connecting cover can enable the air suction pipe to be tightly pressed and attached to the fixed seat, and butt joint with the air passage is completed, so that negative pressure adsorption is completed.

Drawings

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

Fig. 2 is another schematic structural view of the present invention.

Fig. 3 is a schematic view of the explosion structure of the air suction pipe of the present invention.

In the figure, 1, a machine body; 2. an operating platform; 3. rotating the platform; 31. an angle sensor; 4. a fixed seat; 5. a printing assembly; 6. a gripper arm; 7. a negative pressure adsorption mechanism; 71. a vacuum pump; 72. an electromagnetic valve; 73. a work table; 74. a driving cylinder; 75. an air intake duct; 751. a flared section; 752. sealing sleeves; 76. a guide bar; 77. a spring; 78. a connecting cover; 781. a guide hole; 79. a limit nut; 8. a gas passage; 9. and (4) a manual valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a printing mechanism of bottle lid, including organism 1, be provided with operation platform 2 on the organism 1, be provided with circular shape rotary platform 3 on the operation platform 2, 3 upper surfaces of rotary platform are provided with a plurality of fixing bases 4 along the border, and this embodiment sets up to 6 fixing bases 4, and every fixing base 4 is circular, and 3 centers of rotary platform are provided with angle sensor 31 simultaneously, and angle sensor 31 is connected with the controller, and the controller is located organism 1 one side. Each of the holders 4 is provided with a through hole as a gas passage 8 communicating from the upper surface to the side wall. A pair of grabbing arms 6 for clamping and conveying a bottle cap to be processed and finishing processing the bottle cap are arranged on one side of the machine body 1, the two grabbing arms are connected to two ends of the same moving plate, the moving plate is kept flush with the surface of the operating platform 2, the operating platform below the moving plate is provided with a moving groove for the moving plate to move, and a sliding rail is freely moved in the moving groove; each grabbing arm 6 comprises a supporting arm which is axially vertical to the moving plate and can rotate, a cross arm which can move along the supporting arm is arranged on the supporting arm, a sliding block which can move along the cross arm is arranged on the cross arm, and a suspension arm which is used for clamping a bottle cap is arranged on the sliding block. One grabbing arm 6 is used for grabbing the bottle cap to be printed and conveying the bottle cap to be printed and placing the bottle cap on the fixing seat 4, and the other grabbing arm 6 is used for grabbing the printed bottle cap from the fixing seat 4 and lifting and conveying the bottle cap to a subsequent station. Just being provided with printing element 5 on the operation platform 2 of grabbing arm 6 one side, and fixing base 4 all can be rotatory to printing element 5 below under rotary platform 3's the drive, and correspond and be provided with negative pressure adsorption apparatus 7 under the printing element.

Referring to fig. 2 and 3, the negative pressure adsorption mechanism 7 includes a vacuum pump 71 disposed at one side of the machine body 1, the vacuum pump 71 is connected to a manual valve 9 through a pipeline, the manual valve 9 is connected to a solenoid valve 72 through a pipeline, a worktable 73 is disposed on the operation platform 2, a driving cylinder 74 is disposed on the worktable 73, the driving cylinder 74 is connected to a suction pipe 75, and the suction pipe 75 is in pipeline communication with the solenoid valve 72. Referring to fig. 1, in consideration of the need to ensure the effect of negative pressure adsorption, an opening expanding section 751 is arranged at the port of the air suction pipe 75, a sealing sleeve 752 is arranged at the end part of the opening expanding section 751, and the contact end surface of the sealing sleeve 752 and the fixed seat 4 is arranged in a way of combining with the radian of the fixed seat 4; meanwhile, in order to improve the negative pressure adsorption effect, the air suction pipe 75 needs to be tightly pressed on the fixed seat 4, so that a guide rod 76 with the diameter smaller than that of the air suction pipe 75 is arranged at the connecting end of the air suction pipe 75 and the driving air cylinder 74, a spring 77 is sleeved outside the guide rod 76, a connecting cover 78 is buckled outside the spring 77, a through hole for the guide rod 76 to extend out is arranged on the connecting cover 78, the connecting cover 78 is in threaded connection with the driving air cylinder 74, and a limiting nut 79 is in threaded connection with one end of the guide rod 76, which is positioned outside the connecting cover.

The implementation principle of the embodiment is as follows: when the utility model is used for printing bottle caps, an operator opens the manual valve 9, then the bottle caps to be printed are grabbed and placed on the fixed seat 4 by the grabbing arm 6, the fixed seat 4 is driven by the rotary platform 3 to rotate, when the fixed seat 4 rotates to a position below the printing component 5, the angle sensor 31 on the rotary platform 3 feeds back the rotation angle to the controller, the controller controls the rotary platform 3 to stop moving, at the moment, the through hole on the side wall of the fixed seat 4 is just opposite to the air suction pipe 75, the controller controls the driving cylinder 74 to drive the air suction pipe 75 to move towards the fixed seat 4, after the air suction pipe 75 is abutted against the fixed seat 4, the connecting cover 78 continues to move forwards for a certain distance along the guide rod 76 under the action of the driving cylinder 74 until the driving cylinder 74 makes a large stroke, thereby compressing the spring 77, and further compressing the air suction pipe 75, and enabling the flaring section 751 to be completely, the sealing sleeve 752 realizes the sealing of the connecting end of the fixed seat 4 and the flared section 751 under the extrusion of the fixed seat 4 and the flared section 751, so that the air suction pipe 75 and a through hole on the side wall of the fixed seat 4 form a passage, the electromagnetic valve 72 is opened under the action of the controller at the moment, the hollow pump can perform negative pressure adsorption on a bottle cap in a printing state on the fixed seat 4, after the printing is completed, the electromagnetic valve 72 is closed, the driving cylinder 74 drives the air suction pipe 75 to leave the fixed seat 4, the driving cylinder 74 is guided to stop moving when reaching the shortest stroke, the controller controls the rotary platform 3 to move at the moment, the next fixed seat 4 is rotated to the position below the printing assembly 5, the printing assembly 5 prints the bottle cap to be printed on the fixed seat 4, and meanwhile, the grabbing arm 6 which is responsible for transporting the printed bottle cap. The utility model discloses according to above-mentioned function mode, the circulation function.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a printing mechanism of bottle lid, includes organism (1), sets up operation platform (2) on organism (1), be provided with rotary platform (3) on operation platform (2), be provided with a plurality of fixing bases (4) on rotary platform (3), just be provided with printing element (5) on operation platform (2), just printing element (5) next-door neighbour rotary platform (3), operation platform (2) are provided with a set of and printing element (5) just right arm (6) that snatchs, its characterized in that: the operating platform (2) is provided with a negative pressure adsorption mechanism (7) which can be communicated with the fixing seat (4), the negative pressure adsorption mechanism (7) is arranged below the printing assembly (5), and the fixing seat (4) is matched with the negative pressure adsorption mechanism (7) and is provided with a gas passage (8).

2. A printing mechanism for closures as claimed in claim 1, wherein: rotating platform (3) center is provided with angle sensor (31), and angle sensor (31) are connected with the controller, and be provided with the rotatory servo motor of control rotating platform (3) under rotating platform (3), and servo motor and angle sensor (31) all are connected with the controller electricity.

3. A printing mechanism for closures as claimed in claim 2, wherein: negative pressure adsorption apparatus constructs (7) including setting up in vacuum pump (71) of organism (1) one side, vacuum pump (71) pipe connection has solenoid valve (72), solenoid valve (72) with the controller electricity is connected, is provided with workstation (73) on operation platform (2), be provided with on workstation (73) and drive actuating cylinder (74), it is connected with breathing pipe (75) on the telescopic shaft of actuating cylinder (74) to drive, breathing pipe (75) with solenoid valve (72) pipe intercommunication, breathing pipe (75) just can communicate with gas channel (8) of just right fixing base (4) to the one end of operation platform (2).

4. A printing mechanism for a closure as claimed in claim 3, wherein: a manual valve (9) is arranged between the vacuum pump (71) and the electromagnetic valve (72).

5. A printing mechanism for a closure as claimed in claim 3, wherein: the port of the air suction pipe (75) is provided with a flaring section (751), and the end part of the flaring section (751) is provided with a sealing sleeve (752).

6. A printing mechanism for closures as claimed in claim 5, wherein: the contact end face of the seal sleeve (752) and the fixed seat (4) is matched with the radian of the fixed seat (4).

7. The printing mechanism for a bottle cap as claimed in claim 6, wherein: the suction pipe (75) and the connecting end of the driving cylinder (74) are provided with a guide rod (76) with the diameter smaller than that of the suction pipe (75), a spring (77) is sleeved outside the guide rod (76), a connecting cover (78) is buckled outside the spring (77), a guide hole (781) for the guide rod (76) to extend out is formed in the connecting cover (78), the connecting cover (78) is connected with the telescopic shaft of the driving cylinder (74), and the guide rod (76) is located at one end outside the connecting cover (78) and is provided with a limit nut (79) in threaded connection.

8. A printing mechanism for closures as claimed in claim 1, wherein: the gas passage (8) comprises a through hole which is formed in the upper surface of the fixing seat (4) and communicated with the side wall of the fixing seat (4).

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