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CN-121973555-A - Multi-surface synchronous positioning printing process for notebook structure

CN121973555ACN 121973555 ACN121973555 ACN 121973555ACN-121973555-A

Abstract

The invention provides a multi-surface synchronous positioning printing process of a notebook structure, which comprises a machine case, four lifting assemblies, clamping assemblies, adjusting assemblies and spraying assemblies, wherein the lifting assemblies are symmetrically arranged on the inner side of the machine case, the clamping assemblies are arranged on one side of the lifting assemblies and are used for clamping the notebook structure, the two adjusting assemblies are symmetrically arranged at the upper end and the lower end of the machine case and are used for adjusting the transverse height and the longitudinal height of the spraying assemblies on the two adjusting assemblies, and drying assemblies are arranged on the spraying assemblies and are used for drying sprayed paint. According to the invention, the position of the clamping component is controlled by the lifting component to clamp the notebook structure, then the upper and lower spraying components are used for spraying angles above and below the notebook structure, and the notebook structure is dried by the drying component during spraying.

Inventors

  • PAN ZHIQIANG
  • DAI MING
  • Zhu Bangyuan
  • LI HAO
  • YANG HENG

Assignees

  • 安徽英力电子科技股份有限公司

Dates

Publication Date
20260505
Application Date
20251226

Claims (9)

  1. 1. The multi-surface synchronous positioning printing process for the notebook structure is characterized by comprising a case (1), a lifting component (2), a clamping component (3), an adjusting component (4) and a spraying component (5), The number of the lifting assemblies (2) is four, the lifting assemblies are symmetrically arranged on the inner side of the case (1), the clamping assemblies (3) are arranged on one side of the lifting assemblies (2), and the clamping assemblies (3) clamp the notebook structural parts; The two adjusting assemblies (4) are symmetrically arranged at the upper end and the lower end of the chassis (1), and the adjusting assemblies (4) are used for adjusting the transverse height and the longitudinal height of the spraying assembly (5) on the adjusting assemblies; And a drying assembly (6) is arranged on the spraying assembly (5), and the drying assembly (6) dries the sprayed paint.
  2. 2. The multi-surface synchronous positioning printing process of the notebook structure according to claim 1, wherein the lifting assembly (2) comprises a first driving motor (21), four first sliding grooves (11) are symmetrically formed in the machine case (1), the first driving motor (21) is arranged at one end in the first sliding grooves (11), a driving shaft of the first driving motor (21) is connected with a first screw rod (22), one end of the first screw rod (22) is connected with the first sliding grooves (11) through a bearing, the first screw rod (22) is in spiral connection with a sliding plate (23), and the sliding plate (23) is in sliding connection with the first sliding grooves (11).
  3. 3. The multi-surface synchronous positioning printing process of the notebook structure part according to claim 2, wherein the clamping assembly (3) comprises a trapezoid plate (31), two electric telescopic rods (32) are arranged on one side of the trapezoid plate (31), one ends of the two electric telescopic rods (32) are detachably connected with the sliding plate (23), a second electric telescopic rod (33) is arranged on the inclined surface of the trapezoid plate (31), a pressing block (34) is arranged at one end of the second electric telescopic rod (33), and a limiting column (35) is arranged below the pressing block (34).
  4. 4. The multi-face synchronous positioning printing process of the notebook structure part according to claim 3, wherein the inclined plane of the trapezoid plate (31) is inclined at an angle of 45-75 degrees.
  5. 5. The multi-surface synchronous positioning printing process of the notebook structure according to claim 3, wherein the adjusting assembly (4) comprises two fixing blocks (41), the two fixing blocks (41) are detachably connected in the case (1), a second driving motor (42) is arranged on one side of the fixing block (41), a driving shaft of the second driving motor (42) is connected with a second screw rod (43), one end of the second screw rod (43) is connected with the other fixing block (41) in a shaft mode, the second screw rod (43) is in spiral connection with a second sliding plate (44), the second sliding plate (44) is in an ascending structure (45), and the upper end of the ascending structure (45) is detachably connected with the spraying assembly (5).
  6. 6. The multi-surface synchronous positioning printing process of the notebook structure according to claim 5, wherein the lifting structure (45) comprises two third electric telescopic rods (451), the upper ends of the two third electric telescopic rods (451) are detachably connected with a supporting plate (452), L-shaped columns (453) are arranged on the supporting plate (452), rotating rings (454) are arranged on the L-shaped columns (453), limiting rods (455) are arranged on the rotating rings (454), the limiting rods (455) penetrate through a hemispherical cover (456), the hemispherical cover (456) is detachably connected with a second supporting plate (457), a stop rod (458) is arranged on one side in the hemispherical cover (456), a fourth electric telescopic rod (459) is arranged on the other side of the hemispherical cover, and one end of the fourth electric telescopic rod (459) is connected with the limiting rods (455) in an extrusion mode.
  7. 7. The multi-surface synchronous positioning printing process of the notebook structure according to claim 6, wherein two first telescopic rods (455 a) are symmetrically arranged on two sides of the limiting rod (455), the top ends of the two first telescopic rods (455 a) are slidably connected with the inner surface of the hemispherical cover (456), the two first telescopic rods (455 a) are obliquely arranged, and the top ends of the limiting rod (455) are spherically arranged.
  8. 8. The multi-surface synchronous positioning printing process of the notebook structure according to claim 6, wherein the spraying assembly (5) comprises a spray head (51), a guide pipe (52) is arranged below the spray head (51), an arc-shaped plate (53) is arranged on the second supporting plate (457), an arc-shaped groove (531) is arranged on the arc-shaped plate (53), a third driving motor (54) is arranged on the arc-shaped plate (53), a driving shaft of the third driving motor (54) is connected with one end of the guide pipe (52), the guide pipe (52) is in sliding connection with the arc-shaped groove (531), a paint spraying device (55) is arranged outside the case (1), the paint spraying device (55) is detachably connected with a second guide pipe (56), and the second guide pipe (56) is detachably connected with the guide pipe (52).
  9. 9. The multi-surface synchronous positioning printing process of the notebook structure according to claim 8, wherein a reinforcing ring (61) is arranged outside the guide pipe (52), a cavity (62) is formed in the inner side of the reinforcing ring (61), a heating plate (63) is arranged in the cavity (62), a blower (64) is arranged on the side edge of the second supporting plate (457), the blower (64) is detachably connected with a first connecting pipe (65), the first connecting pipe (65) penetrates through one side of the reinforcing ring (61) and is connected with the cavity (62), a second connecting pipe (66) is arranged at the other end of the cavity (62), a plurality of air holes (511) are formed in the spray head (51), and the second connecting pipe (66) is detachably connected with the spray head (51) and is connected with a plurality of the air holes (511).

Description

Multi-surface synchronous positioning printing process for notebook structure Technical Field The invention relates to the technical field of notebook structure processing, in particular to a multi-surface synchronous positioning printing process of a notebook structure. Background Along with the increasing demands of the consumer electronics industry for the light weight, the individuation and the appearance of notebook computers, the surface treatment process of notebook structural members (such as a shell, a frame, etc.) has become one of the core competitiveness of the products. The surface printing process of the structural member not only needs to meet basic requirements of uniform color, fine pattern, strong adhesive force and the like, but also needs to adapt to the processing characteristics of different materials (such as aluminum alloy, ABS plastic and carbon fiber composite material), and simultaneously takes account of efficiency and cost control in large-scale production. At present, notebook manufacturing enterprises generally pursue 'integrated' production flow optimization, structural part printing is used as a key link of appearance processing, technological advancement of the structural part printing directly influences the mass production period and the market delivery speed of products, and industry demands for printing technology with high precision, high stability and high efficiency are increasingly urgent. The existing notebook structure is sprayed by a manipulator during processing, and then one side of the notebook structure is sprayed until the paint is dried, and the other side of the notebook structure is sprayed in a turnover manner. However, the technical problem of lower operation speed is solved because the single-sided spraying is finished and then the next-sided spraying is carried out in the prior art. Disclosure of Invention The invention mainly provides a multi-surface synchronous positioning printing process for a notebook structure part, which is used for solving the technical problem of low operation rate in the prior art because the single-surface spraying is finished and then the next-surface spraying is carried out. The technical proposal adopted by the invention for solving the technical problems is that the multi-surface synchronous positioning printing process of the notebook structural part comprises a chassis, a lifting component, a clamping component, an adjusting component and a spraying component, The lifting assemblies are four and are symmetrically arranged on the inner side of the case, the clamping assemblies are arranged on one side of the lifting assemblies, and the clamping assemblies clamp the notebook structure; the two adjusting assemblies are symmetrically arranged at the upper end and the lower end of the chassis, and the adjusting assemblies are used for adjusting the transverse height and the longitudinal height of the spraying assembly on the adjusting assemblies; and a drying assembly is arranged on the spraying assembly and is used for drying the sprayed paint. Further, the lifting assembly comprises a first driving motor, four first sliding grooves are symmetrically formed in the machine case, the first driving motor is arranged at one end in the first sliding grooves, a driving shaft of the first driving motor is connected with a first screw rod, one end of the first screw rod is connected with the first sliding grooves through bearings, the first screw rod is in spiral connection with a sliding plate, and the sliding plate is in sliding connection with the first sliding grooves. Further, the clamping assembly comprises a trapezoid plate, two electric telescopic rods are arranged on one side of the trapezoid plate, one ends of the two electric telescopic rods are detachably connected with the sliding plate, a second electric telescopic rod is arranged on the inclined surface of the trapezoid plate, a pressing block is arranged at one end of the second electric telescopic rod, a limit column is arranged below the pressing block, and the inclined surface inclination angle of the trapezoid plate is 45-75 degrees. Further, the adjusting component comprises two fixed blocks, the two fixed blocks are detachably connected in the chassis, one side of the adjusting component is provided with a second driving motor, a driving shaft of the second driving motor is connected with a second screw rod, one end of the second screw rod is connected with the other fixed block in a shaft mode, the second screw rod is spirally connected with a second sliding plate, a lifting structure is arranged on the second sliding plate, and the upper end of the lifting structure is detachably connected with the spraying component. Further, the elevation structure includes two third electric telescopic handle, two the connection backup pad is all dismantled to third electric telescopic handle upper end, be equipped with L type post in the backup pad, be equipped with th