CN213672426U - Multi-head laser printing equipment for shoes - Google Patents

Abstract

The utility model provides a shoes are with bull laser printing equipment, be in including frame, setting workstation, vertical sliding connection in the frame are in the frame and be located radium-shine main tank directly over the workstation and be used for the drive radium-shine main tank gliding radium-shine motor, the horizontal sliding connection of inner chamber of radium-shine main tank has the balladeur train, be provided with a plurality of edges on the balladeur train the laser emitter that equidistant arranging in proper order of the slip direction of balladeur train, each laser emitter's type is different each other, radium-shine main tank's lower extreme is in with each position department that laser emitter corresponds has seted up the perforation. Through the mutually different laser emitter of a plurality of types of sliding connection in radium-shine main tank for same equipment can realize the radium-shine printing of laser of different grade type and need not the clamping shoes again, satisfies shoes diversified production demand, and the rejection rate is lower relatively, simultaneously because there is not the material turnover between radium-shine processing and the air brushing processing, manufacturing cost is lower relatively.

Description

Multi-head laser printing equipment for shoes

Technical Field

The utility model relates to a shoes production facility, especially a shoes are with bull laser printing equipment.

Background

The pattern on traditional shoes is usually made through the mode of impression on the leather, in order to surpass the limit between vamp and the sole, promotes the arrangement space of pattern on shoes, adopts means such as laser and air brushing also more and more be applied in the preparation of vamp pattern, wherein, to laser printing preparation vamp pattern, because the printing effect that different laser emitter formed on same printing material is inequality. The printing effect that the same laser emitter formed on different printing materials also has the difference, and current laser printer only has a laser emitter usually, therefore, when carrying out laser printing to same pattern on the shoes, perhaps need use different laser printing equipment, processing needs the clamping again on the equipment of difference on the shoes, its processing benchmark can produce the deviation, and then the figure that leads to on the shoes appears local dislocation, the rejection rate is higher relatively, and the shoes have enough to meet the need to occupy certain production data on the equipment of difference, increase manufacturing cost.

In view of the above, the applicant has made intensive studies to solve the above problems and has made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bull laser printing equipment for shoes that rejection rate and manufacturing cost are lower relatively.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a shoes are with bull laser printing equipment, includes the frame, sets up workstation, vertical sliding connection in the frame just are located in the frame radium-shine main tank directly over the workstation and be used for the drive radium-shine motor of radium-shine main tank slip, the horizontal sliding connection of inner chamber of radium-shine main tank has the balladeur train, be provided with a plurality of edges on the balladeur train the slip direction of balladeur train is equidistant laser emitter's that arranges in proper order, each laser emitter's type is different each other, the lower extreme of radium-shine main tank with each the perforation has been seted up to the position department that laser emitter corresponds.

As an improvement of the utility model, be provided with threely on the balladeur train laser emitter, it is three laser emitter is gas laser, solid laser and semiconductor diode laser respectively.

As an improvement of the utility model, the laser main box with be provided with at least one blast pipe between the workstation, be connected with the exhaust fan on the blast pipe.

As an improvement of the utility model, a filtering device is arranged in the exhaust pipe.

As an improvement of the utility model, the vertical scale of arranging of fixedly connected with in the frame, be provided with on the radium-shine main tank with scale complex instruction arrow point.

As an improvement of the utility model, be provided with the shoe tree anchor clamps on the workstation, the shoe tree anchor clamps include horizontal sliding connection and be in indulge on the workstation move the seat, be used for the drive indulge move a gliding indulge move motor, vertical sliding connection in indulge move lift seat on the seat, be used for the drive the gliding elevator motor of lift seat, rotate to be connected roll-over stand on the lift seat, be used for the drive roll-over stand pivoted upset motor and setting are in shoe tree connecting piece on the roll-over stand, indulge the slip direction of moving the seat with the slip direction looks of balladeur train is perpendicular, the roll-over stand with rotate the connecting axle between the lift seat with indulge the slip direction parallel arrangement of moving the seat.

As an improvement of the utility model, the shoe tree connecting piece rotates to be connected on the roll-over stand, just install on the roll-over stand and be used for the drive shoe tree connecting piece pivoted rotating electrical machines, the rotation axis of shoe tree connecting piece with the trip shaft of roll-over stand is arranged perpendicularly.

As an improvement of the utility model, the shoe tree connecting piece include backup pad and two at least fixed connection be in toper reference column in the backup pad, the backup pad inlays and is equipped with magnet.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

1. through the mutually different laser emitter of a plurality of types of sliding connection in radium-shine main tank for same equipment can realize the radium-shine printing of laser of different grade type and need not the clamping shoes again, satisfies shoes diversified production demand, and the rejection rate is lower relatively, simultaneously because there is not the material turnover between radium-shine processing and the air brushing processing, manufacturing cost is lower relatively.

2. The utility model provides a shoe tree anchor clamps can adjust the angle and the height of shoes under the condition that does not change laser emission angle, ensures to print the position and arranges perpendicularly with laser ray all the time, and it is relatively better to print the effect.

Drawings

FIG. 1 is a schematic structural view of a multi-head laser printing apparatus for shoes according to an embodiment;

FIG. 2 is an enlarged view of a portion of FIG. 1 at position A;

fig. 3 is a schematic structural view of an inner cavity of a laser main box in accordance with an embodiment;

fig. 4 is a schematic structural diagram of the laser inkjet printing all-in-one machine in the second embodiment.

The corresponding designations in the figures are as follows:

10-a frame; 11-an exhaust pipe;

12-a graduated scale; 13-indicates an arrow;

20-a workbench; 21-positioning holes;

30-laser main box; 31-a carriage;

32-a laser emitter; 33-switching the motor;

40-a shoe tree clamp; 41-longitudinal moving seat;

42-a lifting seat; 43-a roll-over stand;

44-a flipping motor; 45-shoe tree connectors;

46-a substrate; 47-a rotating electrical machine;

50-spray painting the main box; 60-multi-joint serial manipulator;

61-hand grip.

Detailed Description

The utility model is further explained by the following specific embodiments:

the first embodiment.

As shown in fig. 1-3, the embodiment provides a multi-head laser printing apparatus for shoes, which includes a frame 10, a worktable 20 disposed on the frame 10 and horizontally arranged, a laser main box 30 vertically slidably connected to the frame 10 and located right above the worktable 20, and a laser motor (not shown in the figure) for driving the laser main box 30 to slide, wherein the specific transmission connection structure between the laser motor and the laser main box 30 is a conventional structure, such as a screw rod assembly, a gear rack assembly or a worm gear assembly, and the details thereof are not further described herein. Preferably, a vertically arranged scale 12 is fixedly connected to the machine frame 10, and an indication arrow 13 matched with the scale 12 is arranged on the laser main box 30, so that an operator can know and adjust the height position of the laser main box 30 on the machine frame 10 conveniently.

The inner cavity of the laser main box 30 is horizontally connected with a sliding frame 31 in a sliding manner, a switching motor 33 used for driving the sliding frame 31 to slide is arranged in the laser main box, and the switching motor 33 and the sliding frame 31 are in transmission connection through a conventional screw rod assembly. The carriage 31 is provided with a plurality of laser emitters 32 arranged at equal intervals in sequence along the sliding direction of the carriage 31, the types of the laser emitters 32 are different from each other, of course, each laser emitter 32 is a laser emitter which can be purchased and obtained directly from the market, specifically, in the embodiment, the carriage 31 is provided with three laser emitters 32, and the three laser emitters are respectively gas lasers (specifically, CO)₂Lasers), solid-state lasers (in particular Nd-YAG lasers) and semiconductor diode lasers (in particular electrically injected semiconductor lasers). In addition, the lower end of the laser main box 30 is provided with a through hole, so that the laser emitted by the laser emitter 32 can penetrate out of the lower end of the laser main box 30 to the corresponding workpiece on the workbench 20, that is, the laser emitter 32 needs to move to the position corresponding to the through hole to emit the laser, and of course, the through hole can be set as a long hole.

At least one exhaust pipe 11 is disposed between the laser main box 30 and the worktable 20, and an exhaust fan (not shown) is connected to the exhaust pipe 11 to exhaust air during a printing operation, thereby improving the working environment of an operator. Since the laser main box 30 is slidable up and down, in order to ensure that the exhaust pipe 11 is always located between the laser main box 30 and the worktable 20, it is preferable to fixedly connect the exhaust pipe 11 to the lower side of the laser main box 30, and of course, the exhaust pipe 11 is located right below the through hole to avoid blocking the laser beam. Preferably, a filtering device is disposed in the exhaust pipe 11, and the filtering device may be a commercially available filtering device, such as a filtering membrane, etc., so as to help reduce air pollution.

The working platform 10 is provided with a shoe last clamp 40, the shoe last clamp 40 can be a conventional fixed clamp, considering that the side surface of the shoe is generally uneven, especially the side surface of the shoe close to the heel and the toe is generally arc-shaped, in order to ensure that the printing position of the shoe is always opposite to the working laser emitter 32 and ensure that the distance between the two does not have relatively large fluctuation, in the embodiment, the shoe last clamp 40 comprises a longitudinal moving seat 41 horizontally and slidably connected to the working platform 20, a longitudinal moving motor (not shown in the figure) for driving the longitudinal moving seat 41 to slide, a lifting seat 42 vertically and slidably connected to the longitudinal moving seat 41, a lifting motor (not shown in the figure) for driving the lifting seat 42 to slide, a turning frame 43 rotatably connected to the lifting seat 42, a turning motor 44 for driving the turning frame 43 to rotate, and a shoe last connecting piece 45 arranged on the turning frame 44, the base plate 46 for the longitudinal moving seat 41 to slide is disposed on the working platform 10, a sliding rail or a sliding groove connected to the longitudinal moving seat 41 in a sliding manner is disposed on the base plate 46, the base plate 46 belongs to a part of the shoe last fixture 40, that is, the shoe last fixture 40 includes the base plate 46, the longitudinal moving seat 41 is connected to the base plate 46 in a sliding manner and indirectly connected to the working platform 20 in a sliding manner, and of course, an execution sliding rail may also be directly purchased to be used as the base plate 46. It should be noted that, the base plate 46 can be directly and fixedly connected to the working table 10, in this embodiment, the working table 20 is provided with a plurality of positioning holes 21 arranged in a matrix, the last fixture 40 is provided with at least two fixture positioning columns (not shown in the figure) matched with the positioning holes 12, and specifically, the fixture positioning columns are fixedly connected to the lower side of the base plate 46, so that the last fixture 40 can be quickly placed at a predetermined position of the working table 20 and the last fixture 40 is ensured not to move horizontally.

The sliding direction of the longitudinal movement seat 41 is perpendicular to the sliding direction of the carriage 31, and the rotation connecting shaft between the roll-over stand 43 and the lifting seat 42 is arranged in parallel with the sliding direction of the longitudinal movement seat 41. Shoe tree connecting piece 45 can direct fixed connection on roll-over stand 43, and is preferred, in this embodiment, shoe tree connecting piece 45 rotates to be connected on roll-over stand 43, and installs on roll-over stand 43 and be used for driving shoe tree connecting piece 45 pivoted rotating electrical machines 47, and the rotation axis of shoe tree connecting piece 45 is arranged perpendicularly with the trip shaft of roll-over stand 43, helps improving the flexibility of the shoes action when printing like this. In addition, shoe tree connecting piece 45 includes backup pad and two at least toper reference columns of fixed connection in the backup pad, and the backup pad inlays and is equipped with magnet. Certainly, the shoe tree matched with the shoe tree needs to be provided with a conical positioning hole matched with the boosting positioning column, and a metal piece matched with the magnet needs to be embedded into one side of the shoe tree provided with the conical positioning hole, so that the shoe tree and the shoe tree connecting piece 45 can be quickly assembled and disassembled, and the production efficiency is improved.

During the use, the shoe tree that will overlap and be equipped with shoes adsorbs on shoe tree connecting piece 45, can carry out laser printing, at the printing in-process, slide required type's laser emitter 32 to shoes directly over according to the pattern needs, through the vertical printing position of the slip adjustment of indulging the seat 41, transversely print the position through the sideslip regulation of laser emitter 32, and switch different laser emitter 32 according to actual need, and simultaneously, the cambered surface position at shoes, the upset through roll-over stand 43 is ensured to print the position and is perpendicular to laser beam all the time, it can not increase suddenly or reduce to guarantee the printing position after the upset through the lift of lift seat 42.

Example two.

As shown in fig. 4 and referring to fig. 1 to fig. 3, the present embodiment provides a laser inkjet printer, which is obtained by further improving the multi-head laser printing apparatus for shoes provided in the first embodiment, that is, the present embodiment also provides a multi-head laser printing apparatus for shoes.

Specifically, the laser inkjet all-in-one machine or the multi-head laser printing device for shoes provided by this embodiment further includes an inkjet main box 50 vertically slidably connected to the rack 10 and located right above the workbench 20, and an inkjet motor (not shown in the drawings) for driving the inkjet main box 50 to slide, that is, the laser inkjet all-in-one machine or the multi-head laser printing device for shoes provided by this embodiment includes a laser main box 30 and an inkjet main box 50 vertically slidably connected to the rack 10 and located right above the workbench 20, respectively. The laser main box 30 and the inkjet main box 50 are sequentially arranged along the sliding direction of the sliding frame 31, the graduated scale 12 is located between the laser main box 30 and the inkjet main box 50, and the inkjet main box 50 is also provided with an indication arrow 13 matched with the graduated scale, namely, the indication arrows 13 on the two main boxes share one graduated scale. It should be noted that the structure of the inkjet main box 50 is the same as that of a main box used in a conventional laser inkjet printer, and can be purchased directly from the market, which is not described in detail herein.

In addition, the laser inkjet printing all-in-one machine or the multi-head laser printing device for shoes provided by this embodiment further includes a multi-joint serial manipulator 60 located beside the workbench 20, and a gripper 61 matched with the shoe tree fixture 40 is provided at the end of the multi-joint serial manipulator 60. Preferably, a ground rail (not shown) fixedly arranged opposite to the rack 10 is arranged beside the rack 10, that is, the relative position between the ground rail and the rack 10 is fixed, and both the ground rail and the rack can be fixedly connected to the ground, the ground rail is arranged in parallel with the arrangement direction of the laser main box 30 and the inkjet main box 50, and the multi-joint serial manipulator 60 is slidably connected to the ground rail, so that the moving range of the multi-manifold-station serial manipulator 60 can be increased, and a multi-purpose machine can be realized.

When the laser shoe tree clamp is used, laser can be performed firstly and then spray-painted or spray-painted and laser is performed firstly according to actual needs, the positions of the shoe tree clamp 40 are switched between the position under the laser main box 30 and the position under the spray-painted main box 50 through the multi-joint serial manipulator, the movement modes of the shoe tree clamp 40 during spray-painting and laser are the same, and the description is omitted.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, and these all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides a shoes are with bull laser printing equipment, its characterized in that is in including frame, setting workstation, vertical sliding connection in the frame just are located in the frame radium-shine main tank directly over the workstation and be used for the drive radium-shine motor of main tank slip, the horizontal sliding connection of inner chamber of radium-shine main tank has the balladeur train, be provided with a plurality of edges on the balladeur train the slip direction of balladeur train is equidistant laser emitter of arranging in proper order, each laser emitter's type is different each other, the lower extreme of radium-shine main tank with each laser emitter corresponds the position department has seted up the perforation.

2. The multi-headed laser printing apparatus for shoes as claimed in claim 1, wherein three of said laser emitters are provided on said carriage, said three laser emitters being a gas laser, a solid state laser and a semiconductor diode laser, respectively.

3. The multi-headed laser printing apparatus for shoes as claimed in claim 1, wherein at least one exhaust duct is provided between said laser main box and said worktable, and an exhaust fan is connected to said exhaust duct.

4. The multi-headed laser printing apparatus for shoes as claimed in claim 3, wherein a filter device is provided in the exhaust duct.

5. The multi-head laser printing device for shoes as claimed in claim 1, wherein a vertically arranged graduated scale is fixedly connected to the frame, and an indicating arrow matched with the graduated scale is arranged on the laser main box.

6. The multi-head laser printing device for shoes as claimed in any one of claims 1 to 5, wherein a shoe tree clamp is arranged on the workbench, the shoe tree clamp comprises a longitudinal moving seat horizontally slidably connected to the workbench, a longitudinal moving motor for driving the longitudinal moving seat to slide, a lifting seat vertically slidably connected to the longitudinal moving seat, a lifting motor for driving the lifting seat to slide, a turning frame rotatably connected to the lifting seat, a turning motor for driving the turning frame to rotate, and a shoe tree connecting piece arranged on the turning frame, the sliding direction of the longitudinal moving seat is perpendicular to the sliding direction of the sliding frame, and a rotating connecting shaft between the turning frame and the lifting seat is arranged in parallel to the sliding direction of the longitudinal moving seat.

7. The multi-head laser printing device for shoes as claimed in claim 6, wherein the shoe tree connecting piece is rotatably connected to the turning frame, a rotating motor for driving the shoe tree connecting piece to rotate is mounted on the turning frame, and a rotating shaft of the shoe tree connecting piece is arranged perpendicular to a turning shaft of the turning frame.

8. The multi-headed laser printing apparatus for shoes according to claim 6, wherein the last attachment comprises a support plate and at least two tapered positioning posts fixedly attached to the support plate, the support plate having embedded magnets.

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