CN213108650U - Cell-phone shell printing mechanism - Google Patents

Abstract

The utility model discloses a cell-phone shell printing mechanism, including frame, double-end bat printing subassembly, lifting unit, station rotating assembly, four group's fine setting subassemblies and four cell-phone shell centre gripping subassemblies of group, the double-end bat printing subassembly is located the frame top, and on the lifting unit was located to the station rotating assembly, four group finely tune the subassembly and locate respectively on the station rotating assembly, cell-phone shell centre gripping subassembly is located respectively finely tunes on the subassembly. The utility model discloses a cell-phone shell centre gripping subassembly can carry out vertical centre gripping to the cell-phone shell, and the double-end bat printing subassembly once only can print the lateral part of two cell-phone shells, and printing efficiency is high, and after the bat printing was accomplished, station rotating assembly can rotate 180 switching stations voluntarily to print two other cell-phone shells, and degree of automation is high, has reduced the loaded down with trivial details of manual operation; on the fine setting subassembly was located to cell-phone shell centre gripping subassembly, the fine setting subassembly can finely tune the clamping position of adversary's casing to make things convenient for the user to finely tune the position of printing pattern according to actual conditions, it is practical convenient.

Description

Cell-phone shell printing mechanism

Technical Field

The utility model relates to a printing mechanism field especially relates to a cell-phone shell printing mechanism.

Background

The cell-phone shell is the ornament that protects or decorates the cell-phone outward appearance, and along with the rapid development of science and technology level, this industry of science and technology cosmetology is new as novel industry, and fashion IT brand is along with the diversified development in market, is diversified to the increase of cell-phone brand and function, and the cell-phone protective housing not only lets your cell-phone become a scenery as the ornament, more can protect the cell-phone, prevents falling, prevents scraping, waterproof and take precautions against earthquakes.

In the prior art, in order to make the mobile phone shell have better aesthetic property, the surface of the mobile phone shell needs to be printed with logo or other patterns by a printing device in the processing and production process of the mobile phone shell. Cell-phone shell printing device on the market generally places the cell-phone shell on mounting fixture dorsad, then prints the cell-phone shell back through the bat printing mechanism, can only print on hand casing back like this, and the lateral part of unable adversary casing prints, is difficult to satisfy the demand that the user needs carry out pattern or logo printing at the cell-phone shell lateral part. In addition, the printing device on the market can only print one mobile phone shell at a time, and after printing is finished, the mobile phone shell needs to be manually disassembled and replaced for printing, so that the printing efficiency is low; meanwhile, when printing, a user cannot finely adjust the position of the printed pattern according to actual conditions, and the use by the user is inconvenient.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a but cell-phone shell printing mechanism that printing efficiency is high, convenient operation, finely tune the cell-phone shell printing position, autogiration switching station carry out the printing.

The technical scheme of the utility model as follows: a printing mechanism for a mobile phone shell comprises a rack, a double-head pad printing assembly, a lifting assembly, a station rotating assembly, four groups of fine adjustment assemblies and four groups of mobile phone shell clamping assemblies, wherein the double-head pad printing assembly is arranged above the rack, the lifting assembly is vertically arranged at the side end of the rack, the station rotating assembly is arranged on the lifting assembly, the four groups of fine adjustment assemblies are respectively arranged on the station rotating assembly, and the mobile phone shell clamping assemblies are respectively arranged on the fine adjustment assemblies;

the lifting assembly comprises a mounting seat and a first air cylinder, the mounting seat is vertically arranged at the side end of the rack, the first air cylinder is arranged on the mounting seat, and the piston end of the first air cylinder is connected with the station rotating assembly;

the station rotating assembly comprises a rotating motor, a fixing frame, a rotating plate and two groups of positioning and clamping assemblies, wherein the side end of the fixing frame is fixedly connected with the mounting seat, the rotating motor is arranged at the bottom of the fixing frame, the rotating plate is positioned above the fixing frame, an output shaft of the rotating motor is connected with the middle part of the rotating plate, and the positioning and clamping assemblies are respectively arranged at two sides of the rotating plate;

the cell-phone shell centre gripping subassembly includes L type seat and cell-phone shell positioning die, L type seat is located on the fine setting subassembly, L type seat lateral wall is located to cell-phone shell positioning die.

According to the technical scheme, in the mobile phone shell printing mechanism, the fine adjustment component comprises a base, an X-axis fine adjustment component and a Y-axis fine adjustment component, the base is arranged on the rotating plate, the X-axis fine adjustment component is arranged on the base, the Y-axis fine adjustment component is arranged on the X-axis fine adjustment component, and the mobile phone shell clamping component is arranged on the Y-axis fine adjustment component.

Adopt above-mentioned each technical scheme, cell-phone shell printing mechanism in, X axle fine setting subassembly includes first movable plate, first knob, first fixed block, two first guide rails and a plurality of first slider, base top is transversely located respectively to first guide rail, first movable plate is connected with first guide rail through first slider, the base side is located to first fixed block, first knob is located on the first fixed block and is connected with first movable plate lateral wall, first knob and first guide rail parallel arrangement.

Adopt above-mentioned each technical scheme, cell-phone shell printing mechanism in, Y axle fine setting subassembly includes second movable plate, second knob, second fixed block, two second guide rails and a plurality of second slider, the first movable plate top is vertically located respectively to the second guide rail, the second movable plate passes through the second slider and is connected with the second guide rail, first movable plate side is located to the second fixed block, the second knob is located on the second fixed block and is connected with second movable plate lateral wall, second knob and second guide rail parallel arrangement.

By adopting the technical scheme, in the mobile phone shell printing mechanism, the positioning clamping assembly comprises a second cylinder, an upper ejector block, a third guide rail and a third slider, the mounting plate is arranged at the top of the fixing frame, the second cylinder is arranged at the side end of the mounting plate, the third guide rail is arranged on the mounting plate between the second cylinder and the rotating plate, the piston end of the second cylinder is connected with the upper ejector block, the upper ejector block is connected with the third guide rail through the third slider, and lower pressing blocks matched with the upper ejector block are respectively arranged at four corners of the bottom of the rotating plate.

According to the technical scheme, in the printing mechanism of the mobile phone shell, the pulley seat is arranged at one end, away from the lifting assembly, of the top of the fixing frame, the pulley is arranged at the top of the pulley seat, and the rotating plate is provided with a plurality of arc-shaped blocks abutted to the pulley at the bottom.

By adopting the technical scheme, in the mobile phone shell printing mechanism, the station rotating assembly further comprises a rotary bearing, the rotary bearing is arranged at the top of the fixing frame, and an output shaft of the rotating motor penetrates through the rotary bearing to be connected with the bottom of the rotating plate.

Adopt above-mentioned each technical scheme, cell-phone shell printing mechanism in, the double-end bat printing subassembly include workstation, horizontal actuating mechanism, lift actuating mechanism, printing ink box and two and move the printer head, the workstation is Contraband type structure, the workstation top is located to horizontal actuating mechanism, lift actuating mechanism locates on the horizontal actuating mechanism, move printer head and locate lift actuating mechanism bottom both sides respectively, the printing ink box is located the workstation bottom.

According to the technical scheme, the bottom of the machine frame is respectively provided with a plurality of supporting feet in the printing mechanism of the mobile phone shell.

By adopting the technical scheme, the mobile phone shell clamping assembly can vertically clamp the mobile phone shell to be printed with logo patterns, the double-head pad printing assembly can print the side parts of two mobile phone shells at one time, the printing efficiency is high, after pad printing is completed, the station rotating assembly can automatically rotate 180 degrees to switch stations so as to print the other two mobile phone shells, the automation degree is high, the complexity of manual operation is reduced, and time and labor are saved; the mobile phone shell clamping component is arranged on the fine adjustment component, and the fine adjustment component can perform fine adjustment on the clamping position of the hand shell, so that a user can conveniently fine adjust the position of a printed pattern according to the actual condition, and the mobile phone shell clamping component is practical and convenient; the whole structure is compact, the operation is convenient, the time and the labor are saved, the printing efficiency is high, and the printing machine can be popularized and used.

Drawings

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

FIG. 2 is a schematic structural view of a station rotating assembly of the present invention;

FIG. 3 is a schematic structural view of the positioning and clamping assembly of the present invention;

FIG. 4 is a schematic structural view of the fine adjustment assembly of the present invention;

fig. 5 is a schematic structural view of the double-headed pad printing assembly of the present invention.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, a cell-phone shell printing mechanism, including frame 1, double-end bat printing subassembly 2, elevating system 3, station rotating assembly 4, four group's fine setting subassemblies 5 and four group's cell-phone shell clamping components 6, frame 1 top is located to double-end bat printing subassembly 2, 1 side of frame is located perpendicularly to elevating system 3, on elevating system 3 was located to station rotating assembly 4, four group on station rotating assembly 4 was located respectively to fine setting subassembly 5, cell-phone shell clamping components 6 was located respectively on the fine setting subassembly 5. In the embodiment, a user can place the mobile phone shell to be printed with the logo pattern on the mobile phone shell clamping assembly 6, the mobile phone shell clamping assembly 6 can vertically clamp the mobile phone shell, the double-head pad printing assembly 2 can print the side parts of the two mobile phone shells at one time, and the printing efficiency is high; after the pad printing is finished, the station rotating assembly 4 can automatically rotate for 180 degrees to switch stations so as to print the other two mobile phone shells, so that the complexity of manual switching is reduced, and time and labor are saved; the fine-tuning component 5 can fine-tune the clamping position of the hand casing, so that a user can conveniently fine-tune the position of the printed pattern according to the actual situation.

As shown in fig. 2, the lifting assembly 31 includes a mounting seat 32 and a first cylinder 31, the mounting seat 32 is vertically disposed at a side end of the frame 1, the first cylinder 31 is disposed on the mounting seat 32, and a piston end of the first cylinder 31 is connected to the station rotating assembly 4. In this embodiment, lifting unit 3 liftable adjusts the height of cell-phone shell to make things convenient for the user to adjust the centre gripping height of cell-phone shell according to actual need. Specifically, when the need is printed the less cell-phone shell of length, first cylinder 31 upwards moves to the promotion is established and is up moved the cell-phone shell on station rotating component 4.

As shown in fig. 2 and 3, the station rotating assembly 4 includes a rotating motor 41, a fixing frame 42, a rotating plate 43, and two sets of positioning and clamping assemblies 44, wherein a side end of the fixing frame 42 is fixedly connected to the mounting base 32, the rotating motor 41 is disposed at a bottom of the fixing frame 42, the rotating plate 43 is disposed above the fixing frame 42, an output shaft of the rotating motor 41 is connected to a middle portion of the rotating plate 43, and the positioning and clamping assemblies 44 are respectively disposed at two sides of the rotating plate 43. In this embodiment, station rotating assembly 4 can drive the cell-phone shell and carry out 180 rotations to the adversary's casing carries out station switching printing. Specifically, when the station of the rotatory switching cell-phone shell of needs, rotating electrical machines 41 starts and drives rotor plate 43 and rotate, when double-end bat printing subassembly 2 prints the hand casing, location centre gripping subassembly 44 can carry out the centre gripping to rotor plate 43 and fix, prevents that rotor plate 43 from taking place the skew at the printing in-process to improve the printing stability of cell-phone shell.

As shown in fig. 4, the mobile phone shell clamping assembly 6 includes an L-shaped seat 61 and a mobile phone shell positioning mold 62, the L-shaped seat 61 is disposed on the fine adjustment assembly 5, and the mobile phone shell positioning mold 62 is disposed on a side wall of the L-shaped seat 61. In this embodiment, cell-phone shell centre gripping subassembly 6 can carry out vertical centre gripping to the cell-phone shell to the lateral part of the cell-phone shell is printed to convenient double-end bat printing subassembly 2. When the cell-phone shell is held to needs, the user only needs to inlay the cell-phone shell in cell-phone shell orientation die 62.

As shown in fig. 4, the fine adjustment assembly 5 further includes a base 51, an X-axis fine adjustment assembly 52 and a Y-axis fine adjustment assembly 53, the base 51 is disposed on the rotation plate 4, the X-axis fine adjustment assembly 52 is disposed on the base 51, the Y-axis fine adjustment assembly 53 is disposed on the X-axis fine adjustment assembly 52, and the mobile phone shell clamping assembly 6 is disposed on the Y-axis fine adjustment assembly 53. In this embodiment, the fine-tuning assembly 5 can fine-tune the clamping position of the hand casing, the X-axis fine-tuning assembly 52 can fine-tune the position of the mobile phone casing in the X-axis direction, and the Y-axis fine-tuning assembly 53 can fine-tune the position of the mobile phone casing in the Y-axis direction.

As shown in fig. 4, the X-axis fine adjustment assembly 52 further includes a first moving plate 521, a first knob 522, a first fixed block 523, two first guide rails 524, and a plurality of first sliders (not shown), wherein the first guide rails 524 are respectively transversely disposed on the top of the base 51, the first moving plate 521 is connected to the first guide rails 524 through the first sliders, the first fixed block 523 is disposed at the side end of the base 51, the first knob 522 is disposed on the first fixed block 524 and connected to the side walls of the first moving plate 521, and the first knob 522 is parallel to the first guide rails 524. In this embodiment, the X-axis fine adjustment assembly 52 can perform fine adjustment on the position of the hand casing in the X-axis direction. Specifically, the user can rotate the first knob 522 to push the first moving plate 521 to move on the first guide rail 524 in the X-axis direction.

As shown in fig. 4, the Y-axis fine adjustment assembly 53 further includes a second moving plate 531, a second knob 532, a second fixed block 533, two second guide rails 534 and a plurality of second sliders (not shown), the second guide rails 534 are respectively and longitudinally disposed on the top of the first moving plate 521, the second moving plate 531 is connected to the second guide rails 534 through the second sliders, the second fixed block 533 is disposed at a side end of the first moving plate 521, the second knob 532 is disposed on the second fixed block 533 and is connected to a side wall of the second moving plate 531, and the second knob 532 is disposed in parallel with the second guide rails 534. In this embodiment, the Y-axis fine adjustment component 53 can perform fine adjustment on the position of the hand casing in the Y-axis direction. Specifically, the user may rotate the second knob 532 to push the second moving plate 531 to move on the second guide rail 534 in the Y-axis direction.

As shown in fig. 2 and 3, the positioning and clamping assembly 44 further includes a second cylinder 441, an upper top block 442, a third guide rail 443, and a third slider 444, wherein the mounting plate 445 is disposed on the top of the fixing frame 42, the second cylinder 441 is disposed at the side end of the mounting plate 445, the third guide rail 443 is disposed on the mounting plate 445 between the second cylinder 441 and the rotating plate 43, the piston end of the second cylinder 441 is connected to the upper top block 442, the upper top block 442 is connected to the third guide rail 443 via the third slider 444, and the lower pressing blocks 446 fitted to the upper top block 442 are disposed at four corners of the bottom of the rotating plate 43, respectively. In this embodiment, after the rotating plate 43 completes the rotation switching station, the positioning and clamping assembly 44 can clamp and fix the rotating plate 43, so as to prevent the rotating plate 43 from moving during the printing process. Specifically, the second cylinder 441 pushes outwards to drive the upper pushing block 442 to slide on the third guide rail 443 until the lower pressing blocks 446 at the two sides of the bottom of the rotating plate 43 are abutted and attached to the upper pushing block 442 respectively.

As shown in fig. 2, further, a pulley seat 45 is disposed at one end of the top of the fixing frame 42 away from the lifting assembly 3, a pulley is disposed at the top of the pulley seat 45, and a plurality of arc-shaped blocks 431 abutting against the pulley are disposed at the bottom of the rotating plate 43. In this embodiment, the setting of pulley seat 45 not only can support rotor plate 43, improves the structural stability of station rotating assembly 4, can also improve rotor plate 43 in the smooth nature of rotatory in-process, and rotor plate 43 is when rotating, and the arc piece 431 of rotor plate 43 bottom can slide the butt with the pulley, and the rotor plate 43 of being convenient for rotates.

As shown in fig. 2, further, the station rotating assembly 4 further includes a rotary bearing 46, the rotary bearing 46 is disposed at the top of the fixing frame 42, and the output shaft of the rotating motor 41 passes through the rotary bearing 46 and is connected to the bottom of the rotating plate 43.

As shown in fig. 5, further, the double-headed pad printing assembly 2 includes a workbench 21, a transverse driving mechanism 22, a lifting driving mechanism 23, an ink cartridge 24 and two pad printing heads 25, the workbench 21 is an Contraband-type structure, the transverse driving mechanism 22 is arranged at the top of the workbench 21, the lifting driving mechanism 23 is arranged on the transverse driving mechanism 22, the pad printing heads 25 are respectively arranged at two sides of the bottom of the lifting driving mechanism 23, and the ink cartridge 24 is arranged at the bottom of the workbench 21. In this embodiment, double-end bat printing subassembly 2 can once only print two cell-phone shells, during the printing, two bat printing heads 25 are located ink horn 24's top, under the effect of lift actuating mechanism 23, make bat printing heads 25 descend and with ink horn 24 butt, the realization is moved the inking operation of printer printing heads 25, then bat printing heads 25 rises under lift actuating mechanism 23's effect, horizontal actuating mechanism 22 can move printer printing heads 25 and remove the top of switching to cell-phone shell centre gripping subassembly 6, under lift actuating mechanism 23's effect, promote two and move printer printing heads 25 and descend and with the lateral part butt of cell-phone shell, thereby realize the printing operation of cell-phone shell lateral part.

As shown in fig. 1, further, a plurality of supporting feet 10 are respectively arranged at the bottom of the frame 1. In this embodiment, the arrangement of the supporting anchor 10 can improve the overall supporting stability.

By adopting the technical scheme, the mobile phone shell clamping assembly can vertically clamp the mobile phone shell to be printed with logo patterns, the double-head pad printing assembly can print the side parts of two mobile phone shells at one time, the printing efficiency is high, after pad printing is completed, the station rotating assembly can automatically rotate 180 degrees to switch stations so as to print the other two mobile phone shells, the automation degree is high, the complexity of manual operation is reduced, and time and labor are saved; the mobile phone shell clamping component is arranged on the fine adjustment component, and the fine adjustment component can perform fine adjustment on the clamping position of the hand shell, so that a user can conveniently fine adjust the position of a printed pattern according to the actual condition, and the mobile phone shell clamping component is practical and convenient; the whole structure is compact, the operation is convenient, the time and the labor are saved, the printing efficiency is high, and the printing machine can be popularized and used.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a cell-phone shell printing mechanism which characterized in that: the mobile phone comprises a rack, a double-head pad printing assembly, a lifting assembly, a station rotating assembly, four groups of fine adjustment assemblies and four groups of mobile phone shell clamping assemblies, wherein the double-head pad printing assembly is arranged above the rack, the lifting assembly is vertically arranged at the side end of the rack, the station rotating assembly is arranged on the lifting assembly, the four groups of fine adjustment assemblies are respectively arranged on the station rotating assembly, and the mobile phone shell clamping assemblies are respectively arranged on the fine adjustment assemblies;

the lifting assembly comprises a mounting seat and a first air cylinder, the mounting seat is vertically arranged at the side end of the rack, the first air cylinder is arranged on the mounting seat, and the piston end of the first air cylinder is connected with the station rotating assembly;

the station rotating assembly comprises a rotating motor, a fixing frame, a rotating plate and two groups of positioning and clamping assemblies, wherein the side end of the fixing frame is fixedly connected with the mounting seat, the rotating motor is arranged at the bottom of the fixing frame, the rotating plate is positioned above the fixing frame, an output shaft of the rotating motor is connected with the middle part of the rotating plate, and the positioning and clamping assemblies are respectively arranged at two sides of the rotating plate;

the cell-phone shell centre gripping subassembly includes L type seat and cell-phone shell positioning die, L type seat is located on the fine setting subassembly, L type seat lateral wall is located to cell-phone shell positioning die.

2. The mobile phone housing printing mechanism of claim 1, wherein: the fine adjustment assembly comprises a base, an X-axis fine adjustment assembly and a Y-axis fine adjustment assembly, the base is arranged on the rotating plate, the X-axis fine adjustment assembly is arranged on the base, the Y-axis fine adjustment assembly is arranged on the X-axis fine adjustment assembly, and the mobile phone shell clamping assembly is arranged on the Y-axis fine adjustment assembly.

3. The mobile phone housing printing mechanism of claim 2, wherein: the X-axis fine adjustment assembly comprises a first moving plate, a first knob, a first fixed block, two first guide rails and a plurality of first sliding blocks, the first guide rails are transversely arranged at the top of the base respectively, the first moving plate is connected with the first guide rails through the first sliding blocks, the first fixed block is arranged at the side end of the base, the first knob is arranged on the first fixed block and connected with the side wall of the first moving plate, and the first knob and the first guide rails are arranged in parallel.

4. The mobile phone housing printing mechanism of claim 3, wherein: the Y-axis fine adjustment assembly comprises a second moving plate, a second knob, a second fixed block, two second guide rails and a plurality of second sliding blocks, the second guide rails are longitudinally arranged at the top of the first moving plate respectively, the second moving plate is connected with the second guide rails through the second sliding blocks, the second fixed block is arranged at the side end of the first moving plate, the second knob is arranged on the second fixed block and connected with the side wall of the second moving plate, and the second knob and the second guide rails are arranged in parallel.

5. The mobile phone housing printing mechanism of claim 1, wherein: the positioning and clamping assembly comprises a second cylinder, an upper ejector block, a third guide rail and a third slider, a mounting plate is arranged at the top of the fixing frame, the second cylinder is arranged at the side end of the mounting plate, the third guide rail is arranged on the mounting plate between the second cylinder and the rotating plate, the piston end of the second cylinder is connected with the upper ejector block, the upper ejector block is connected with the third guide rail through the third slider, and lower pressing blocks matched with the upper ejector block are arranged at four corners of the bottom of the rotating plate respectively.

6. The mobile phone housing printing mechanism of claim 1, wherein: the one end of lifting unit is kept away from at the fixed bolster top is equipped with the pulley holder, the pulley holder top is equipped with the pulley, the rotor plate bottom is equipped with a plurality of arc pieces with the pulley butt.

7. The mobile phone housing printing mechanism of claim 1, wherein: the station rotating assembly further comprises a rotary bearing, the rotary bearing is arranged at the top of the fixing frame, and an output shaft of the rotating motor penetrates through the rotary bearing to be connected with the bottom of the rotating plate.

8. The mobile phone housing printing mechanism of claim 1, wherein: double-end bat printing subassembly includes workstation, transverse driving mechanism, lift actuating mechanism, printing ink box and two and moves the printer head, the workstation is Contraband type structure, the workstation top is located to transverse driving mechanism, lift actuating mechanism locates on the transverse driving mechanism, move the printer head and locate lift actuating mechanism bottom both sides respectively, the workstation bottom is located to the printing ink box.

9. A mobile phone casing printing mechanism according to any one of claims 1 to 8, wherein: and a plurality of supporting feet are respectively arranged at the bottom of the frame.

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