CN216915204U - Magnesium alloy notebook computer shell surface printing equipment - Google Patents

Abstract

The utility model discloses a magnesium alloy notebook computer shell surface printing device which comprises a base, a printing table and an adjusting device, wherein a plurality of vacuum adsorption through holes are uniformly distributed on the printing table corresponding to a printing station, the adjusting device is arranged on the periphery of the printing station, the adjusting device is a square structure consisting of a first movable magnetic block, a first telescopic pipe, a second movable magnetic block, a second telescopic pipe, a third movable magnetic block, a third telescopic pipe, a fourth movable magnetic block and a fourth telescopic pipe, one side of a left and right gear rack transmission mechanism is respectively magnetically attracted with the first movable magnetic block and the fourth movable magnetic block through a front and back magnetic driving mechanism of a first gear rack, and the other side of the left and right gear rack transmission mechanism is respectively magnetically attracted with the second movable magnetic block and the third movable magnetic block through a front and back magnetic driving mechanism of a second gear rack. The utility model is suitable for printing the notebook computer shells with different specifications and sizes, has wide application, flexible and convenient use and high printing stability.

Description

Magnesium alloy notebook computer shell surface printing equipment

Technical Field

The utility model relates to the technical field of printing equipment, in particular to magnesium alloy notebook computer shell surface printing equipment.

Background

A screen printing machine is a machine for applying prints using a screen printing plate, and belongs to one type of printing machines. The screen printing machine belongs to the more representative printing equipment in the porous printing machine, and the material for manufacturing the screen can be nylon wire, copper wire, steel wire or stainless steel wire besides silk, and can be divided into a plane screen printing machine, a curved surface screen printing machine, a rotary screen printing machine and the like.

In the prior art, the specifications of the notebook computer shells correspondingly processed by one printing device are fixed and cannot be adjusted, and only the notebook computer shells with the same specification can be processed and produced, but the specifications of the notebook computer shells with different models are different, so that the application range of the printing device in the prior art is limited, and the printing device is not flexible enough when being used.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, provides the magnesium alloy notebook computer shell surface printing equipment, and solves the problems that the existing printing equipment cannot be adjusted, the notebook computer shell is not flexible enough to be processed, and the application range is not wide.

The technical scheme of the utility model is as follows:

the utility model provides a magnesium alloy notebook computer shell surface lithography apparatus, includes base, printing table and adjusting device, the printing table sets up on the base, be equipped with the printing station on the printing table, the printing table corresponds the printing station equipartition and has a plurality of vacuum adsorption through-hole, the week of printing station encloses and is equipped with adjusting device, adjusting device is the square structure of compriseing first movable magnetic path, first flexible pipe, second movable magnetic path, second flexible pipe, third movable magnetic path, third flexible pipe, fourth movable magnetic path, fourth flexible pipe, the both ends of first flexible pipe are connected with first movable magnetic path, second movable magnetic path respectively, the both ends of second flexible pipe are connected with second movable magnetic path, third movable magnetic path respectively, the both ends of third flexible pipe are connected with third movable magnetic path, fourth movable magnetic path respectively, the both ends of fourth flexible pipe respectively with fourth movable magnetic path, The printing machine is characterized in that the first movable magnetic block is connected, a vacuum device, a left and right gear rack transmission mechanism, a front and back magnetic driving mechanism of the first gear rack and a front and back magnetic driving mechanism of the second gear rack are arranged in the base, the vacuum device is arranged at the bottom of the printing table and communicated with the plurality of vacuum adsorption through holes, the left and right sides of the left and right gear rack transmission mechanism are respectively provided with the front and back magnetic driving mechanisms of the first gear rack and the front and back magnetic driving mechanisms of the second gear rack, the front and back magnetic driving mechanisms of the first gear rack are respectively magnetically attracted with the first movable magnetic block and the fourth movable magnetic block, and the front and back magnetic driving mechanisms of the second gear rack are respectively magnetically attracted with the second movable magnetic block and the third movable magnetic block.

Furthermore, the left-right transmission mechanism of the gear rack comprises a first servo motor, a first gear, a first rack and a second rack, a first left-right moving slide rail is arranged at the bottom of the base, a second left-right moving slide rail is arranged on the inner side wall of the base, the second left-right moving slide rail and the first left-right moving slide rail are distributed up and down, the first rack is movably arranged on the first left-right moving slide rail, the second rack is movably arranged on the second left-right moving slide rail, a motor shaft of the first servo motor is connected with the first gear, the first gear is respectively meshed with the first rack and the second rack, a front-back magnetic driving mechanism of the first gear rack is arranged on the second rack, and a front-back magnetic driving mechanism of the second gear rack is arranged on the first rack.

Further, the first gear rack front-back magnetic driving mechanism comprises a second servo motor, a second gear, a third rack, a fourth rack, a first driving magnetic block and a fourth driving magnetic block, a first front-back moving slide rail is arranged on the second rack, a second front-back moving slide rail is arranged on the inner side wall of the base, the second front-back moving slide rail and the first front-back moving slide rail are distributed up and down, the third rack is movably arranged on the first front-back moving slide rail, the first driving magnetic block is arranged on the third rack, the first driving magnetic block is magnetically attracted with the first movable magnetic block, the fourth rack is movably arranged on the second front-back moving slide rail, the fourth driving magnetic block is arranged on the fourth rack, the fourth driving magnetic block is magnetically attracted with the fourth movable magnetic block, and a motor shaft of the second servo motor is connected with the second gear, the second gear is respectively meshed with the third rack and the fourth rack.

Further, the front and rear magnetic driving mechanism of the second gear rack comprises a third servo motor, a third gear, a fifth rack, a sixth rack, a second driving magnetic block and a third driving magnetic block, the first rack is provided with a third front and rear moving slide rail, the inner side wall of the base is provided with a fourth front and rear moving slide rail, the fourth front and rear moving slide rail and the third front and rear moving slide rail are distributed up and down, the fifth rack is movably arranged on the third front and rear moving slide rail, the second driving magnetic block is arranged on the fifth rack, the second driving magnetic block is magnetically attracted with the second movable magnetic block, the sixth rack is movably arranged on the fourth front and rear moving slide rail, the third driving magnetic block is arranged on the sixth rack, the third driving magnetic block is magnetically attracted with the third movable magnetic block, and a motor shaft of the third servo motor is connected with a third gear, and the third gear is meshed with the fifth rack and the sixth rack respectively.

Furthermore, the first telescopic pipe, the second telescopic pipe, the third telescopic pipe and the fourth telescopic pipe are all composed of an outer pipe and an inner pipe.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can be suitable for printing the notebook computer shells with different specifications and sizes, has wide application range and flexible and convenient use, and when in use, the notebook computer shells are placed at a printing station, the bottom surfaces of the notebook computer shells are fixed by vacuum adsorption, and the peripheral sides of the notebook computer shells are adjusted and fixed by the adjusting device, thereby ensuring the stability of the notebook computer shells in printing.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a top view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a rear view of the present invention;

FIG. 4 is a left side view of the present invention;

fig. 5 is a right side view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In order to explain the technical means of the present invention, the following description will be given by way of specific examples.

Examples

Referring to fig. 1 to 5, the embodiment provides a magnesium alloy notebook computer case surface printing apparatus, including a base 1, a printing table 2 and an adjusting device, wherein the printing table 2 is disposed on the base 1, a printing station is disposed on the printing table 2, a plurality of vacuum adsorption through holes 21 are uniformly distributed on the printing table 2 corresponding to the printing station, and the adjusting device is disposed around the printing station; the adjusting device is a square structure consisting of a first movable magnet 31, a first extension tube 32, a second movable magnet 33, a second extension tube 34, a third movable magnet 35, a third extension tube 36, a fourth movable magnet 37 and a fourth extension tube 38, two ends of the first extension tube 32 are respectively connected with the first movable magnet 31 and the second movable magnet 33, two ends of the second extension tube 34 are respectively connected with the second movable magnet 33 and the third movable magnet 35, two ends of the third extension tube 36 are respectively connected with the third movable magnet 35 and the fourth movable magnet 37, two ends of the fourth extension tube 38 are respectively connected with the fourth movable magnet 37 and the first movable magnet 31, wherein the first extension tube 32, the second extension tube 34, the third extension tube 36 and the fourth extension tube 38 are respectively composed of an outer tube and an inner tube; a vacuum device 4, a left and right gear rack transmission mechanism, a front and back magnetic driving mechanism of a first gear rack and a front and back magnetic driving mechanism of a second gear rack are arranged in the base 1, the vacuum device 4 is arranged at the bottom of the printing table 2 and communicated with the plurality of vacuum adsorption through holes 21, the left and right sides of the left and right gear rack transmission mechanism are respectively provided with the front and back magnetic driving mechanism of the first gear rack and the front and back magnetic driving mechanism of the second gear rack, the front and back magnetic driving mechanisms of the first gear rack are respectively magnetically attracted with the first movable magnetic block 31 and the fourth movable magnetic block 37, and the front and back magnetic driving mechanisms of the second gear rack are respectively magnetically attracted with the second movable magnetic block 33 and the third movable magnetic block 35. The structure principle is as follows: the notebook shell is placed on a printing station, the bottom surface of the notebook shell is adsorbed and fixed through a vacuum device 4, the peripheral side of the notebook shell is adjusted and fixed through an adjusting device, the adjusting device is designed into a retractable or expandable square surrounding ring structure, a first movable magnetic block 31 and a fourth movable magnetic block 37 can be driven by a first gear rack front-back magnetic driving mechanism to move in a face-to-face or back-to-back mode, a second movable magnetic block 33 and a third movable magnetic block 35 can be driven by a second gear rack front-back magnetic driving mechanism to move in a face-to-face or back-to-back mode, the first movable magnetic block 31 and the second movable magnetic block 33 can be driven by a gear rack left-right transmission mechanism to move in a face-to-back mode, the fourth movable magnetic block 37 and the third movable magnetic block 35 can be driven by a gear rack left-right transmission mechanism to move in a face-to-back mode, and therefore adjustment can be carried out according to notebook shells of different specifications and sizes.

Specifically, the left and right transmission mechanism of the gear rack comprises a first servo motor 51, a first gear 52, a first rack 53 and a second rack 54, a first left and right moving slide rail 11 is arranged at the bottom of the base 1, a second left and right moving slide rail 12 is arranged on the inner side wall of the base 1, the second left and right moving slide rail 12 and the first left and right moving slide rail 11 are distributed up and down, the first rack 53 is movably arranged on the first left and right moving slide rail 11, the second rack 54 is movably arranged on the second left and right moving slide rail 12, a motor shaft of the first servo motor 51 is connected with the first gear 52, the first gear 52 is respectively meshed with the first rack 53 and the second rack 54, a front and rear magnetic driving mechanism of the first gear rack is arranged on the second rack 54, and a front and rear magnetic driving mechanism of the second gear rack is arranged on the first rack 53. The first servo motor 51 drives the first rack 53 and the second rack 54 to move towards or away from each other through the first gear 52, so as to drive the first gear-rack front-rear magnetic driving mechanism and the second gear-rack front-rear magnetic driving mechanism to move.

Specifically, the first gear-rack front-back magnetic driving mechanism comprises a second servo motor 61, a second gear 62, a third rack 63, a fourth rack 64, a first driving magnetic block 65 and a fourth driving magnetic block 66, the second rack 54 is provided with a first front-back moving slide rail 13, the inner side wall of the base 1 is provided with a second front-back moving slide rail 14, the second front-back moving slide rail 14 and the first front-back moving slide rail 13 are distributed up and down, the third rack 63 is movably arranged on the first front-back moving slide rail 14, the first driving magnetic block 65 is arranged on the third rack 63, the first driving magnetic block 65 is magnetically attracted to the first movable magnetic block 31, the fourth rack 64 is movably arranged on the second front-back moving slide rail 14, the fourth driving magnetic block 66 is arranged on the fourth rack 64, the fourth driving magnetic block 66 is magnetically attracted to the fourth movable magnetic block 37, a motor shaft of the second servo motor 61 is connected with the second gear 62, the second gear 62 is engaged with the third rack 63 and the fourth rack 64, respectively. The second servo motor 61 drives the third rack 63 and the fourth rack 64 to move in an opposite direction or a back direction through the second gear 62, so that the first movable magnetic block 31 and the fourth movable magnetic block 37 are driven to move through the first driving magnetic block 65 and the fourth driving magnetic block 66.

Specifically, the second gear rack front-back magnetic driving mechanism comprises a third servo motor 71, a third gear 72, a fifth rack 73, a sixth rack 74, a second driving magnetic block 75 and a third driving magnetic block 76, the first rack 53 is provided with a third front-back moving slide rail 15, the inner side wall of the base 1 is provided with a fourth front-back moving slide rail 16, the fourth front-back moving slide rail 16 and the third front-back moving slide rail 15 are distributed up and down, the fifth rack 73 is movably arranged on the third front-back moving slide rail 15, the second driving magnetic block 75 is arranged on the fifth rack 73, the second driving magnetic block 75 is magnetically attracted to the second movable magnetic block 33, the sixth rack 74 is movably arranged on the fourth front-back moving slide rail 16, the third driving magnetic block 76 is arranged on the sixth rack 74, the third driving magnetic block 76 is magnetically attracted to the third movable magnetic block 35, a motor shaft of the third servo motor 71 is connected with the third gear 72, the third gear 72 is engaged with a fifth rack 73 and a sixth rack 74, respectively. The third servo motor 71 drives the fifth rack 73 and the sixth rack 74 to move in a direction opposite to or away from each other through the third gear 72, so that the second movable magnetic block 33 and the third movable magnetic block 35 are driven to move through the second driving magnetic block 75 and the third driving magnetic block 76.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a magnesium alloy notebook computer shell surface lithography apparatus which characterized in that: the vacuum adsorption printing device comprises a base, a printing table and an adjusting device, wherein the printing table is arranged on the base, a printing station is arranged on the printing table, a plurality of vacuum adsorption through holes are uniformly distributed in the printing table corresponding to the printing station, the adjusting device is arranged on the periphery of the printing station, the adjusting device is a square structure formed by a first movable magnetic block, a first telescopic pipe, a second movable magnetic block, a second telescopic pipe, a third movable magnetic block, a third telescopic pipe, a fourth movable magnetic block and a fourth telescopic pipe, two ends of the first telescopic pipe are respectively connected with the first movable magnetic block and the second movable magnetic block, two ends of the second telescopic pipe are respectively connected with the second movable magnetic block and the third movable magnetic block, two ends of the third telescopic pipe are respectively connected with the third movable magnetic block and the fourth movable magnetic block, two ends of the fourth telescopic pipe are respectively connected with the fourth movable magnetic block and the first movable magnetic block, the vacuum device, the left and right transmission mechanisms of the gear rack, the front and back magnetic driving mechanisms of the first gear rack and the front and back magnetic driving mechanisms of the second gear rack are arranged in the base, the vacuum device is arranged at the bottom of the printing table and communicated with the plurality of vacuum adsorption through holes, the left and right sides of the left and right transmission mechanisms of the gear rack are respectively provided with the front and back magnetic driving mechanisms of the first gear rack and the front and back magnetic driving mechanisms of the second gear rack, the front and back magnetic driving mechanisms of the first gear rack are respectively magnetically attracted with the first movable magnetic block and the fourth movable magnetic block, and the front and back magnetic driving mechanisms of the second gear rack are respectively magnetically attracted with the second movable magnetic block and the third movable magnetic block.

2. The magnesium alloy notebook computer case surface printing device according to claim 1, wherein: the left and right transmission mechanism of the gear rack comprises a first servo motor, a first gear, a first rack and a second rack, a first left and right moving slide rail is arranged at the bottom of the base, a second left and right moving slide rail is arranged on the inner side wall of the base, the second left and right moving slide rail and the first left and right moving slide rail are distributed up and down, the first rack is movably arranged on the first left and right moving slide rail, the second rack is movably arranged on the second left and right moving slide rail, a motor shaft of the first servo motor is connected with the first gear, the first gear is respectively meshed with the first rack and the second rack, a front magnetic driving mechanism and a rear magnetic driving mechanism of the first gear rack are arranged on the second rack, and a front magnetic driving mechanism and a rear magnetic driving mechanism of the second gear rack are arranged on the first rack.

3. The magnesium alloy notebook computer case surface printing device according to claim 2, characterized in that: the first gear and rack front-and-back magnetic driving mechanism comprises a second servo motor, a second gear, a third rack, a fourth rack, a first driving magnetic block and a fourth driving magnetic block, a first front-back moving slide rail is arranged on the second rack, a second front-back moving slide rail is arranged on the inner side wall of the base, the second front-and-back moving slide rail and the first front-and-back moving slide rail are distributed up and down, the third rack is movably arranged on the first front-and-back moving slide rail, the first driving magnetic block is arranged on the third rack and is magnetically attracted with the first movable magnetic block, the fourth rack is movably arranged on the second front-back moving slide rail, the fourth driving magnetic block is arranged on the fourth rack, the fourth driving magnetic block and the fourth movable magnetic block are attracted magnetically, a motor shaft of the second servo motor is connected with a second gear, and the second gear is meshed with the third rack and the fourth rack respectively.

4. The magnesium alloy notebook computer case surface printing device according to claim 2, characterized in that: the front and rear magnetic driving mechanism of the second gear rack comprises a third servo motor, a third gear, a fifth rack, a sixth rack, a second driving magnetic block and a third driving magnetic block, a third front-and-back moving slide rail is arranged on the first rack, a fourth front-and-back moving slide rail is arranged on the inner side wall of the base, the fourth front-and-back moving slide rail and the third front-and-back moving slide rail are distributed up and down, the fifth rack is movably arranged on the third front-and-back moving slide rail, the second driving magnetic block is arranged on the fifth rack and is magnetically attracted with the second movable magnetic block, the sixth rack is movably arranged on the fourth front-back moving slide rail, the third driving magnetic block is arranged on the sixth rack, the third driving magnetic block and the third movable magnetic block are attracted magnetically, a motor shaft of the third servo motor is connected with a third gear, and the third gear is meshed with the fifth rack and the sixth rack respectively.

5. The magnesium alloy notebook computer case surface printing device according to claim 1, wherein: the first telescopic pipe, the second telescopic pipe, the third telescopic pipe and the fourth telescopic pipe are all composed of an outer pipe and an inner pipe.

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