CN215284038U - Graph-text inkjet printer - Google Patents

Abstract

The utility model provides a graph-text inkjet printer, which comprises a spraying module, a photocuring forming module and a cleaning module; the spraying module can spray photocureable coating; the photocuring forming module can cure the sprayed photocuring coating into a required image-text shape, and comprises a light projection forming part and/or a movable light forming part and/or a light leakage forming part; the cleaning module may clean the uncured photocurable coating. The graph-text inkjet printer manufactured by utilizing the photocuring characteristic of the photocuring coating has accurate and attractive graph-text inkjet printing and clear edges; the image and text are immediately available after the operation is finished, and the coating is directly cured and dried; the complicated cleaning process of using the paint-spraying character-missing matrix is avoided; micro-connection parts among character or graphic strokes are removed, and interference on reading is avoided; hands of an operator are liberated, and time and labor are saved; the condition that an operator is always in a paint mist environment is avoided, and the labor environment of the operator is improved.

Description

Graph-text inkjet printer

Technical Field

The utility model relates to an image-text air brushing field.

In particular to an image-text inkjet printer.

Background

If marks such as numbers and the like need to be sprayed again after railway vehicles and containers are overhauled, a method of covering corresponding spray painting character leaking matrixes on parts needing to be sprayed, then using paint mist sprayed by a spray gun to fully coat the leaked parts and finally generating needed characters or figures is adopted under the general condition, and the enlarged numbers of automobile license plates are also sprayed and printed in the mode.

The main disadvantages of the mode of using the paint-spraying character-missing model are as follows: 1. the edges of the characters and the patterns can be very fuzzy due to paint mist splashing, and are particularly serious when the surface is uneven; 2. if the spray painting character missing die needs to be reused, cleaning operation is needed to be carried out on the spray painting character missing die after spray printing is finished; 3. the characters or the graphs have some separated strokes or separated graphs, in order to keep the relative positions of the characters or the graphs unchanged, a plurality of micro-connecting parts are generally added, and the existing micro-connecting parts are embodied in the characters or the graphs after jet printing in the jet printing process, so that the recognition and the reading of the characters and the graphs are interfered; 4. when the spray printing is carried out, an operator needs to hold a paint spray gun with a hand, work is tired, and meanwhile, the operator is always in a paint mist environment, so that certain threats are still caused to the health of the operator even under heavy labor protection.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the weak point of above-mentioned conventional art, provide an improve the picture and text air brushing machine who spouts seal quality and efficiency.

The purpose of the utility model is achieved through the following technical measures:

picture and text inkjet printer, its characterized in that: the device comprises a spraying module, a photocuring forming module and a cleaning module;

the spraying module can spray photocureable coating;

the photocuring forming module can cure the sprayed photocuring coating into a required image-text shape, and comprises a light projection forming part and/or a movable light forming part and/or a light leakage forming part;

the cleaning module may clean the uncured photocurable coating.

According to a specific optimization scheme, the light projection forming component comprises a direct light projection forming component or an optical switch projection forming component;

the direct light projection forming assembly comprises an imaging controller, a plurality of curing light sources and at least one concave-convex lens, wherein the curing light sources are distributed in rows and columns, the imaging controller comprises a plurality of electronic switches, the imaging controller respectively controls each curing light source through the electronic switches, the imaging controller is an MCU, a DSP, a programmable array, a special customized integrated circuit, a PLC, a PC or an industrial personal computer, and the curing light sources are LED lamp beads;

the optical switch projection forming assembly comprises an optical switch control assembly, at least one curing light source and at least one concave-convex lens, the optical switch control assembly comprises an optical switch controller and a plurality of optical switch elements, the optical switch elements are used for changing the light path of the curing light source, the optical switch controller respectively controls the plurality of optical switch elements, the optical switch controller is a Micro Control Unit (MCU), a Digital Signal Processor (DSP), a programmable array, a special customized integrated circuit, a Programmable Logic Controller (PLC), a Personal Computer (PC) or an industrial personal computer, and the curing light source is an LED lamp bead or a semiconductor laser diode.

A specific optimization scheme is that a movable light forming component comprises a light source movement control assembly, at least one curing light source and a lens group, the lens group comprises a collimating lens and a beam expanding lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light source movement control assembly can drive the curing light sources and the lens group to move simultaneously, the light source movement control assembly comprises a linear unit moving by a rectangular coordinate system or a mechanical arm moving by a polar coordinate system, and the light source is a semiconductor laser diode.

The utility model provides a specific optimization scheme, the light leak takes shape the part and includes the light leak subassembly, at least one solidification light source and aspheric surface convex lens, solidification light source quantity is when a plurality of, a plurality of solidification light sources are in a row and/or become to be listed as and distribute, the light leak subassembly includes light leak mould and/or mould connecting piece, fixed connection can be dismantled to light leak mould and mould connecting piece, the mould connecting piece with treat that air brushing object or ground or solidification light source can dismantle and be connected, the light leak mould be equipped with required picture and text matched with shading picture and text, the solidification light source is LED lamp pearl.

According to a specific optimization scheme, the spraying module comprises a manual driving spraying component and/or a machine driving spraying component, the manual driving spraying component comprises a paint spraying gun or a paint brush, and the machine driving spraying component comprises an automatic paint spraying gun and a linear unit moving with a rectangular coordinate system or a mechanical arm moving with a polar coordinate system.

In a particularly preferred embodiment, the cleaning module comprises a manual cleaning element comprising a spray gun or a wiper and/or a robotic cleaning element comprising an automatic spray gun and a linear unit moving in a rectangular coordinate system or a robotic arm moving in a polar coordinate system.

Owing to adopted above-mentioned technical scheme, compare with prior art, the utility model has the advantages that:

the graph-text inkjet printer manufactured by utilizing the photocuring characteristic of the photocuring coating has accurate and attractive graph-text inkjet printing and clear edges; the image and text are immediately available after the operation is finished, and the coating is directly cured and dried; the complicated cleaning process of using the paint-spraying character-missing matrix is avoided; micro-connection parts among character or graphic strokes are removed, and interference on reading is avoided; hands of an operator are liberated, and time and labor are saved; the condition that an operator is always in a paint mist environment is avoided, and the labor environment of the operator is improved.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is a schematic structural diagram of the image-text inkjet printer of the present invention.

Fig. 2 is a schematic structural diagram of the inkjet printer according to another embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the image-text inkjet printer according to another embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the image-text inkjet printer according to another embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the inkjet printer according to another embodiment of the present invention.

In the figure: 1-a cleaning module; 2-a spraying module; 3-a light leakage shaping member; 4-a direct light projection shaping component; 5-an optical switch projection forming assembly; 6-moving the light shaping member; 7-the mechanical arm moves in a rectangular coordinate system.

Detailed Description

Example 1: as shown in fig. 1, the image-text inkjet printer comprises a spraying module 2, a photocuring forming module and a cleaning module 1.

The spraying module 2 can spray photocureable coating; the spray module 2 includes a manually driven spray component including a spray gun or paintbrush.

The photocuring forming module comprises a light leakage forming part 3.

The light leakage forming part 3 comprises a light leakage assembly, at least one curing light source and an aspheric convex lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light leakage assembly comprises a light leakage mold and/or a mold connecting piece, the light leakage mold and the mold connecting piece are detachably and fixedly connected, the mold connecting piece is detachably connected with an object to be sprayed or painted or the ground or the curing light source, the light leakage mold is provided with shading images and texts matched with the required images and texts, and the curing light source is an LED lamp bead.

The cleaning module 1 comprises a manual cleaning member comprising a spray gun or a wipe.

The device is characterized by further comprising a rack, rollers are arranged at the bottom of the rack, handrails are arranged on the side portion of the rack, and the spraying module 2, the photocuring forming module and the cleaning module 1 are detachably arranged on the rack.

When the paint spraying device is used, manual spraying is carried out through the spraying module 2, then the spray painting position is irradiated through the photocuring forming module, and finally uncured paint is cleaned through the cleaning module 1. In this embodiment, after the spraying, the light leakage mold is fixed, then the curing light source is projected onto the light curing coating through the light leakage mold, so that the light curing coating is cured and formed, and then the uncured coating is manually washed away by the washing device 3, so as to obtain the desired image and text.

The image-text inkjet printer overcomes the trouble of the character-shaped unconnected part of the traditional character-leaking mold on reading, the light-leaking mold is easy to manufacture and store, and meanwhile, the cost is greatly saved.

Example 2: as shown in fig. 2, the image-text inkjet printer comprises a spraying module 2, a photocuring forming module and a cleaning module 1.

The spray modules 2 can spray the photo-curable coating, and the spray modules 2 comprise machine-driven spray components including an automatic spray gun and a robot arm 7 moving in a rectangular coordinate system or a robot arm moving in a polar coordinate system.

The light-curing forming module comprises a light projection forming component.

The light projection forming component comprises a direct light projection forming component 4, the direct light projection forming component 4 comprises an imaging controller, a plurality of curing light sources and at least one concave-convex lens, the curing light sources are distributed in rows and columns, the imaging controller comprises a plurality of electronic switches, the imaging controller respectively controls each curing light source through the electronic switches, the imaging controller is an MCU, a DSP, a programmable array, a special customized integrated circuit, a PLC, a PC or an industrial personal computer, and the curing light sources are LED lamp beads.

When the device is used, spraying is carried out through the spraying module 2, then the spray painting position is irradiated through the photocuring forming module, and finally uncured coating is cleaned through the cleaning module 1. In the embodiment, after the spraying module 2 is moved by the mechanical arm to spray, the direct light projection forming assembly 4 is used for projecting the light-cured coating to cure and form the light-cured coating, and the uncured coating is manually washed away by the washing device 3, so that the required pictures and texts are finally obtained.

The picture and text inkjet printer of this embodiment has overcome the tradition and has leaked the puzzlement of character mould font unconnected segment to the recognition, has solved and has leaked the practical inconvenience of character mould, has liberated operator's both hands, labour saving and time saving.

The rest is the same as in example 1.

Example 3: as shown in fig. 3, the image-text inkjet printer comprises a spraying module 2, a photocuring forming module and a cleaning module 1.

The spray modules 2 can spray the photo-curable coating, and the spray modules 2 comprise machine-driven spray components including an automatic spray gun and a robot arm 7 moving in a rectangular coordinate system or a robot arm moving in a polar coordinate system.

The light-curing forming module comprises a light projection forming component.

The optical projection forming component comprises an optical switch projection forming component 5, the optical switch projection forming component 5 comprises an optical switch control assembly, at least one curing light source and at least one concave-convex lens, the optical switch control assembly comprises an optical switch controller and a plurality of optical switch elements, the optical switch elements are used for changing the light path of the curing light source, the optical switch controller respectively controls the plurality of optical switch elements, the optical switch controller is an MCU, a DSP, a programmable array, a special customized integrated circuit, a PLC, a PC or an industrial personal computer, and the curing light source is an LED lamp bead or a semiconductor laser.

When the device is used, spraying is carried out through the spraying module 2, then the spray painting position is irradiated through the photocuring forming module, and finally uncured coating is cleaned through the cleaning module 1. In this embodiment, after the spraying module 2 is moved by the mechanical arm to spray, the light switch projection forming assembly 5 is used to project the light-cured coating to cure and form the light-cured coating, and then the uncured coating is manually washed away by the washing device 3, so as to obtain the desired image and text.

The image-text inkjet printer of the embodiment overcomes the trouble of reading the character-shaped unconnected part of the traditional character-missing mold, solves the problem that the character-missing mold is inconvenient to use, and prints the image-text accurately and beautifully with clear edges; the hands of the operator are liberated, and time and labor are saved.

The rest is the same as in example 1.

Example 4: as shown in fig. 4, the image-text inkjet printer comprises a spraying module 2, a photocuring forming module and a cleaning module 1.

The photo-curing shaping module comprises a moving photo-shaping member 6.

The movable light forming component 6 comprises a light source movement control assembly, at least one curing light source and a lens group, the lens group comprises a collimating lens and a beam expanding lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light source movement control assembly can drive the curing light sources and the lens group to move simultaneously, the light source movement control assembly comprises a linear unit moving by a rectangular coordinate system or a mechanical arm moving by a polar coordinate system, and the light source is a semiconductor laser diode.

When the device is used, spraying is carried out through the spraying module 2, then the spray painting position is irradiated through the photocuring forming module, and finally uncured coating is cleaned through the cleaning module 1. In this embodiment, after the spraying module 2 is moved by the mechanical arm to spray, the movable light forming part 6 is used to draw and project the light-cured coating along the shape of the desired image and text, so that the light-cured coating is cured and formed, and the uncured coating is manually washed away by the washing device 3, so as to obtain the desired image and text.

The image-text inkjet printer of the embodiment overcomes the trouble of reading the character-shaped unconnected part of the traditional character-missing mold, solves the problem of the practical inconvenience of the character-missing mold, and solves the problems of accurate and beautiful image-text and clear edge of the printed image-text; the hands of the operator are liberated, and time and labor are saved.

The rest is the same as in example 3.

Example 5: as shown in fig. 5, the image-text inkjet printer comprises a spraying module 2, a photocuring forming module and a cleaning module 1.

The light-curing shaping module comprises a moving light-shaping member 6 and a light-projection shaping member.

The movable light forming component 6 comprises a light source movement control assembly, at least one curing light source and a lens group, the lens group comprises a collimating lens and a beam expanding lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light source movement control assembly can drive the curing light sources and the lens group to move simultaneously, the light source movement control assembly comprises a linear unit moving by a rectangular coordinate system or a mechanical arm moving by a polar coordinate system, and the light source is a semiconductor laser diode.

The light projection forming component comprises a direct light projection forming component 4, the direct light projection forming component 4 comprises an imaging controller, a plurality of curing light sources and at least one concave-convex lens, the curing light sources are distributed in rows and columns, the imaging controller comprises a plurality of electronic switches, the imaging controller respectively controls each curing light source through the electronic switches, the imaging controller is an MCU, a DSP, a programmable array, a special customized integrated circuit, a PLC, a PC or an industrial personal computer, and the curing light sources are LED lamp beads.

The cleaning module 1 includes a machine cleaning part including a robot gun, and a linear unit moving in a rectangular coordinate system or a robot arm moving in a polar coordinate system.

When the device is used, spraying is carried out through the spraying module 2, then the spray painting position is irradiated through the photocuring forming module, and finally uncured coating is cleaned through the cleaning module 1. In the embodiment, after the spraying module 2 is moved by the mechanical arm to spray, the direct light projection forming component 4 is firstly used for projecting the light-cured coating to the light-cured coating, so that the light-cured coating is cured and formed for the first time, fine saw teeth exist on the edge, then the light-cured coating is drawn and projected to the light-cured coating along the edge of the first curing and forming along the required image-text shape by the movable light forming component 6, so that the light-cured coating is cured and formed for the second time, the required image-text shape is obtained, and finally the uncured coating is washed off by the washing device 3 driven by the mechanical arm, so that the required image-text is obtained.

The rest is the same as in example 3.

In addition, the modules can be controlled automatically or manually by an electric switch, or a control system can be provided, and the spraying module 2, the light curing and forming module and the cleaning module 1 can be controlled by controllers such as a PLC, a PC and the like, and the control principle and the basic elements are well known technology, and are not described herein again.

The image-text inkjet printer of the embodiment overcomes the trouble of reading the character-shaped unconnected part of the traditional character-missing mold, solves the problem that the character-missing mold is inconvenient to use, and prints the image-text accurately and beautifully with clear edges; the hands of the operator are liberated, and time and labor are saved. The condition that an operator is always in a paint mist environment is avoided, and the labor environment of the operator is improved.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should fall within the patent coverage of the present invention.

Claims (6)

1. Picture and text inkjet printer, its characterized in that: the device comprises a spraying module, a photocuring forming module and a cleaning module;

the spraying module can spray photocureable coating;

the photocuring forming module can cure the sprayed photocuring coating into a required image-text shape, and comprises a light projection forming part and/or a movable light forming part and/or a light leakage forming part;

the cleaning module may clean the uncured photocurable coating.

2. The image-text inkjet printer according to claim 1, characterized in that: the light projection forming component comprises a direct light projection forming assembly or an optical switch projection forming assembly;

the direct light projection forming assembly comprises an imaging controller, a plurality of curing light sources and at least one concave-convex lens, wherein the curing light sources are distributed in rows and columns, the imaging controller comprises a plurality of electronic switches, the imaging controller respectively controls each curing light source through the electronic switches, the imaging controller is an MCU, a DSP, a programmable array, a special customized integrated circuit, a PLC, a PC or an industrial personal computer, and the curing light sources are LED lamp beads;

the optical switch projection forming assembly comprises an optical switch control assembly, at least one curing light source and at least one concave-convex lens, the optical switch control assembly comprises an optical switch controller and a plurality of optical switch elements, the optical switch elements are used for changing the light path of the curing light source, the optical switch controller respectively controls the plurality of optical switch elements, the optical switch controller is a Micro Control Unit (MCU), a Digital Signal Processor (DSP), a programmable array, a special customized integrated circuit, a Programmable Logic Controller (PLC), a Personal Computer (PC) or an industrial personal computer, and the curing light source is an LED lamp bead or a laser diode.

3. The image-text inkjet printer according to claim 1, characterized in that: the movable light forming component comprises a light source movement control assembly, at least one curing light source and a lens group, the lens group comprises a collimating lens and a beam expanding lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light source movement control assembly can drive the curing light sources and the lens group to move simultaneously, the light source movement control assembly comprises a linear unit moving by a rectangular coordinate system or a mechanical arm moving by a polar coordinate system, and the light source is a semiconductor laser diode.

4. The image-text inkjet printer according to claim 1, characterized in that: the light leakage forming part comprises a light leakage assembly, at least one curing light source and an aspheric convex lens, when the number of the curing light sources is multiple, the curing light sources are distributed in rows and/or columns, the light leakage assembly comprises a light leakage mold and/or a mold connecting piece, the light leakage mold and the mold connecting piece are detachably and fixedly connected, the mold connecting piece is detachably connected with an object to be sprayed or painted or the ground or the curing light source, the light leakage mold is provided with shading images and texts matched with the required images and texts, and the curing light source is an LED lamp bead.

5. The teletext printer according to any one of claims 1-4, wherein: the spray module includes a manually driven spray component including a paint gun or paint brush and/or a machine driven spray component including an automatic paint gun and a robotic arm moving in a rectangular coordinate system or a polar coordinate system.

6. The teletext printer according to any one of claims 1-4, wherein: the cleaning module comprises a manual cleaning component and/or a machine cleaning component, the manual cleaning component comprises a spray gun or a wiping cloth, and the machine cleaning component comprises an automatic spray gun, a mechanical arm moving in a rectangular coordinate system or a mechanical arm moving in a polar coordinate system or a cross module or a linear unit.

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