CN212400641U

CN212400641U - Mobile ink-jet printing device supporting wide-width printing

Info

Publication number: CN212400641U
Application number: CN202021912110.2U
Authority: CN
Inventors: 郎红兵; 王占魁
Original assignee: Xiamen Boxin Technology Group Co ltd
Current assignee: Xiamen Boxin Technology Group Co ltd
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2021-01-26
Anticipated expiration: 2030-09-04

Abstract

The utility model discloses a mobile ink-jet printing device supporting wide-width printing, which comprises a printing head and an ink container; a housing pressed against the surface of the print medium, the printhead being movable along and guided by guide means in the housing and ejecting ink drops onto the surface of the print medium; the mobile positioning module is used for determining the motion parameters of the shell relative to the surface of the printing medium; a wireless communication module for receiving the predetermined pattern; the printing control module is used for printing the preset pattern on the surface of the printing medium according to the motion parameters; and a power management module. The printing head is a wide printing head, the printing width of the printing head is between 0.9 and 1.8 inches, and the working voltage of the printing head is between 23 and 35V so as to support wide printing and provide longer ink drop ejection distance, reduce the requirement on the surface flatness of a printing medium and further meet more application scenes.

Description

Mobile ink-jet printing device supporting wide-width printing

Technical Field

The utility model relates to an ink jet printer field especially relates to a support removal inkjet printing device that broad width printed.

Background

The patent CN 1802258A discloses a printing device (10; 40) for printing on a surface, comprising: a print head (12; 41) comprising an ink container (20); a housing (11) which is pressed against a printout surface (17). The printhead (12) is movable along and guided by one or more deflection beams (30) in the housing (11) and ejects drops of ink onto a printout surface (17). The printing device further comprises means for determining a movement parameter of the printhead (12) by means of at least one sensor (16) for determining a movement parameter of the printhead (12) in relation to the printout surface (17), and means (21) for controlling the flow of the ink drops relative to said printout surface (17) in conformity with a predetermined pattern according to the determined parameter. The present invention also relates to a method of printing on a surface.

Based on the corresponding patent technology, the existing mobile inkjet printer, such as XDR series mobile inkjet printer of print dreams company, has a printing width of about 0.6 inch and a maximum printing size of 100mmX15mm, is only suitable for small-size printing, such as tattoos, souvenir stamps, and the like, and has a limited application range.

SUMMERY OF THE UTILITY MODEL

In view of the shortcomings of the prior art, the present invention is directed to a mobile inkjet printing device supporting wide-format printing, which has a wider application range.

In order to achieve the above object, the utility model discloses a support removal inkjet printing device that broad width printed, include:

a printhead having an ink reservoir;

a housing pressed against the surface of the print medium, the printhead being movable along and guided by guide means in the housing and ejecting ink drops onto the surface of the print medium;

the mobile positioning module is used for determining the motion parameters of the shell relative to the surface of the printing medium;

a wireless communication module for receiving the predetermined pattern;

the printing control module is used for printing the preset pattern on the surface of the printing medium according to the motion parameters;

the power management module is used for supplying power to each module;

the printing head is a wide-format printing head, the printing width of the printing head is between 0.9 and 1.8 inches, and the working voltage of the printing head is between 23 and 35V so as to support wide-format printing and provide longer ink drop ejection distance.

The wide printing head has the printing capacity of multi-line texts, reduces printing line-changing splicing, and has better text and picture printing effects while maintaining convenience.

Further, the print control module includes a processor with ARM Cortex M4 core and higher performance to provide low cost, high performance floating point, DSP, parallel computing, etc. computing capabilities.

Further, the guiding device is a pair of parallel rollers, the axes of the rollers are consistent with the length direction of the nozzle assembly of the printing head, and the rollers are pressed against the surface of the printing medium to roll for guiding.

Furthermore, the mobile positioning module is a two-dimensional optical positioning module to provide high-precision motion parameters, so that the printing control precision is improved.

Furthermore, the positioning precision of the optical positioning module is 600DPI-1200 DPI.

Further, the wireless communication mode of the wireless communication module at least comprises one of bluetooth or WIFI.

Further, the mobile ink-jet printing device further comprises a state indicating module which is used for indicating the power state and the working state of the mobile ink-jet printing device.

Furthermore, the state indicating module is an acousto-optic indicating module and comprises at least one LED indicating lamp and a buzzer.

The technical effects of the utility model:

the utility model discloses a removal inkjet printing device of broad width adopts integrated broad width to beat the ink horn of printer head to adopt high voltage to print and provide farther ink droplet jet distance in order to support the broad width, have the ability that supports multirow text printing, reduce the requirement to printing medium surface roughness, thereby satisfy more application scenes.

Drawings

FIG. 1 is an overall view of a mobile inkjet printing device according to an embodiment of the present invention;

fig. 2 is a bottom view of a mobile inkjet printing device according to an embodiment of the present invention.

Fig. 3 is a functional block diagram of a mobile inkjet printing apparatus according to an embodiment of the present invention.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible embodiments and advantages of the present invention. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

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

As shown in fig. 1-3, the utility model discloses an embodiment of a mobile inkjet printing device supporting broad width printing, including shell 101, print head 102, mobile positioning module 103, wireless communication module 105, printing control module 104, power management module 106, charging module 107 and rechargeable battery 108.

The print head 102 includes an ink reservoir (ink cartridge) and is a unitary structure of the print head and the ink cartridge. The bottom of the housing 101 is pressed against the surface of the printing medium, and the print head 102 is movable along and guided by a guide 1011 in the housing 101, and ejects ink droplets on the surface of the printing medium.

The guide 1011 is a pair of parallel rollers whose axes are aligned with the length of the head assembly of the printhead 102, and which roll against the surface of the print medium to guide the print medium.

In this embodiment, the print head adopts a print cartridge (integrated with the print head) specially designed for wide-format printing, has a printing width of 23.3mm, and redesigns the power supply and driving circuit of the print head to support wide-format printing, so as to increase the working voltage of the print head to 23V, and the ejection distance of ink droplets can reach 5 mm. For portable applications, the print head is suitably 0.9 inch to 1.8 inches wide, and the operating voltage of the print head is adjusted to between 23 and 35 volts as required. The utility model discloses an inkjet printing device is removed to broad width, adopt integrated broad width to beat the ink horn of printer head, and adopt high voltage to print and provide farther ink droplet jet distance in order to support the broad width, support the printing ability of multirow text, reduce the requirement to printing medium surface roughness, thereby satisfy more application scenes, like the student along with the heart seal, note arrangement, study are categorized, the wrong problem is revised, all kinds of mobile office, life DIY, group build DIY and so on, be applicable to the label of commodity circulation express delivery equally, the printing of information such as bill. And by adopting wide printing, the problem of pattern dislocation caused by pattern splicing can be reduced.

And the printing control module 104 is used for printing the predetermined pattern on the surface of the printing medium according to the determined motion parameters. In this embodiment, the print control module 104 includes an embedded processor that employs ARM Cortex^TMSTM32F405RGT6, ARM Cortex processor M4^TMThe M4 processor is the latest embedded processor developed by ARM, with enhanced computing power on the basis of M3, with new additions of floating point, DSP, parallel computing, etc., to meet the digital signal control market that requires a mix of efficient and easy-to-use control and signal processing functions. The combination of the high-efficiency signal processing function and the advantages of low power consumption, low cost and easy use of a Cortex-M processor series can meet the requirements of high-performance floating-point data processing capability, low power consumption and low cost control of mobile ink-jet printing.

In this embodiment, the moving positioning module 103 employs an optical positioning module (or optical sensor module) for determining a motion parameter of the housing relative to the surface of the printing medium. The optical positioning module has high positioning precision, can improve the synchronism of printing and moving, and improves the printing quality. In the embodiment, the optical positioning module adopts PAW3205DB, and the positioning precision can reach 600DPI-1200 DPI. The optical positioning module is commonly used for a wireless mouse and provides high-precision optical positioning for the wireless mouse.

The wireless communication module 105 is used for interacting with an intelligent terminal such as a mobile phone and downloading a predetermined pattern to be printed through an application program of the intelligent terminal such as the mobile phone. In this embodiment, the wireless communication module is a bluetooth/WIFI dual mode module. The wireless communication module can also adopt a UMB (ultra wideband mobile technology) mode to provide high-speed communication connection.

In this embodiment, the mobile inkjet printing device further includes a status indication module for indicating a power status and an operating status of the mobile inkjet printing device. The state indicating module is preferably an acousto-optic indicating module, comprises at least one LED indicating lamp and a buzzer, and can select the number and the display mode of the LED indicating lamps according to the number of state indications.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A mobile inkjet printing apparatus supporting wide format printing, comprising:

a printhead having an ink reservoir;

a wireless communication module for receiving the predetermined pattern;

the power supply management module is used for supplying power to each module;

the method is characterized in that: the printing head is a wide printing head, the printing width of the printing head is between 0.9 and 1.8 inches, and the working voltage of the printing head is between 23 and 35V.

2. The mobile inkjet printing apparatus of claim 1 wherein: the print control module includes a processor with an ARM Cortex M4 core and higher performance.

3. The mobile inkjet printing apparatus of claim 1 wherein: the guide device is a pair of parallel rollers, the axes of the rollers are consistent with the length direction of a nozzle assembly of the printing head, and the rollers are pressed against the surface of a printing medium to roll for guiding.

4. The mobile inkjet printing apparatus of claim 1 wherein: the mobile positioning module is a two-dimensional optical positioning module.

5. The mobile inkjet printing apparatus of claim 4 wherein: the positioning precision of the optical positioning module is 600DPI-1200 DPI.

6. The mobile inkjet printing apparatus of claim 1 wherein: the wireless communication mode of the wireless communication module at least comprises one of Bluetooth or WIFI.

7. The mobile inkjet printing apparatus of claim 1 wherein: the mobile ink-jet printing device further comprises a state indicating module which is used for indicating the power state and the working state of the mobile ink-jet printing device.

8. The mobile inkjet printing apparatus of claim 7 wherein: the state indicating module is an acousto-optic indicating module and comprises at least one LED indicating lamp and a buzzer.