CN112537139A - Consumable chip data rewriting device, paper box and rewriting method - Google Patents

Abstract

The application provides consumable chip data rewriting equipment, a paper box and a rewriting method, wherein the rewriting equipment comprises a shell, an installation drawer, a rewriting mechanism and a chip resetting instrument; a drawer window is arranged on the shell; the mounting drawer is telescopically arranged in the drawer window and is used for mounting a paper box containing an ink box; the rewriting mechanism is arranged in the shell and corresponds to the drawer window and is used for rewriting and upgrading data of consumable chips on the ink box; the chip resetting instrument is arranged on the shell and used for identifying the identification code on the consumable chip. The application can automatically identify and select the corresponding rewriting mechanism according to the type of the ink box or the packaging box, prevent mistaken installation when a plurality of rewriting mechanisms are arranged on one device, and avoid the problems of device damage and production safety caused by misoperation.

Description

Consumable chip data rewriting device, paper box and rewriting method

Technical Field

The application relates to the technical field of ink-jet printers, in particular to consumable chip data rewriting equipment, a paper box and a rewriting method.

Background

The ink box is an important component part in the ink-jet printer, and the quality of the ink box directly influences the printing effect of the ink-jet printer. The ink box is respectively provided with a chip, and the chip is stored with relevant information corresponding to the ink box. Sometimes, a manufacturer upgrades the firmware of the ink-jet printer as required, and at this time, the chip on the corresponding ink cartridge also needs to rewrite or upgrade the data. In order to improve the applicability and the work efficiency, a plurality of detection heads are often arranged on one device so as to aim at ink cartridges of different models.

When multiple types of ink cartridges are involved and the structure is similar, an ink cartridge installation error may occur, and if the chip rewriting or upgrading work is continued, the equipment may be damaged due to the mismatch between the detection head and the chip.

Disclosure of Invention

The application aims to provide consumable chip data rewriting equipment, a paper box and a rewriting method, and aims to solve the problems of equipment damage and production safety caused by misloading of an ink box when a plurality of rewriting mechanisms are arranged on one piece of equipment.

The first aspect of the present application provides a consumable chip data rewriting device, wherein, include:

the drawer type refrigerator comprises a shell, wherein a drawer window is arranged on the shell;

the mounting drawer is telescopically arranged in the drawer window and is used for mounting a paper box containing an ink box;

the rewriting mechanism is arranged in the shell, corresponds to the drawer window and is used for rewriting and upgrading data of consumable chips on the ink box;

and the chip resetting instrument is arranged on the shell and is used for identifying the identification code on the consumable chip.

In one possible implementation manner, the rewriting mechanism includes a detection module movably disposed in the housing, and the detection module includes a probe head corresponding to the consumable chip in position.

In a possible implementation manner, the detection module further includes a bottom plate, a detection module translation plate, a first screw, a first nut, and a first motor;

the detection module translation plate is arranged on the bottom plate in a sliding mode, the detection module translation plate is fixedly connected with the first nut, and the first screw is in threaded connection with the first nut;

the first motor is arranged on the bottom plate, and the end part of the first screw rod is connected with the first motor;

the probe head is connected with the detection module translation plate.

In a possible implementation manner, the detection module further includes a probe head fixing plate and a transition plate, the probe head fixing plate is connected to the detection module translation plate through the transition plate, and the probe head is mounted on the probe head fixing plate.

In a possible implementation manner, the detection module further includes a first guide rail and a first slider, the first guide rail is disposed on the bottom plate, the detection module translation plate is fixedly connected to the first slider, and the detection module translation plate is slidably disposed on the bottom plate through the cooperation of the first slider and the first guide rail.

In a possible implementation manner, the rewriting mechanism further includes an installation module, the installation module is telescopically disposed in the drawer window, and both the installation drawer and the detection module are disposed in the installation module.

In one possible implementation manner, the installation module comprises a fixed seat, an installation module translation plate, a second screw, a second nut and a second motor;

the mounting module translation plate is arranged on the fixed seat in a sliding mode, the mounting module translation plate is fixedly connected with the second nut, and the second screw is in threaded connection with the second nut;

the second motor is arranged on the fixed seat, and the end part of the second screw rod is connected with the second motor.

In a possible implementation manner, the installation module further includes a second guide rail and a second slider, the second slider is fixedly disposed on the fixing seat, the second guide rail is fixedly disposed on the installation module translation plate, and the installation module translation plate is slidably disposed on the fixing seat through the cooperation of the second guide rail and the second slider.

In a possible implementation manner, the rewriting mechanism further includes a positioning module, and the positioning module is disposed above and on two sides of the installation module, and is configured to position and fix the paper box and the ink cartridge.

In one possible embodiment, a photoelectric switch is provided on the mounting drawer.

The second aspect of the present application further provides a paper box for accommodating the ink cartridge provided by the first aspect of the present application, wherein a detection window is provided on the paper box, and a consumable chip on the ink cartridge is aligned with the detection window.

In one possible implementation, the paper box is provided with an identification code.

In a possible implementation manner, the detection window is fixedly covered with a heat-shrinkable film.

The third aspect of the present application further provides a rewriting method using the consumable chip data rewriting apparatus provided by the first aspect of the present application, wherein the method includes the following steps:

connecting the rewriting equipment with a power supply;

identifying an identification code on a paper box to be upgraded through the chip resetting instrument so that the corresponding mounting drawer extends out of the drawer window;

installing the paper box to be upgraded into the installation drawer;

retracting the mounting drawer into the drawer window;

and rewriting and upgrading data of the consumable chip on the ink box.

In one possible implementation, after retracting the mounting drawer within the drawer window, the method further comprises:

positioning the paper cassette and the ink cartridge.

The technical scheme provided by the application can achieve the following beneficial effects:

the application provides a consumptive material chip data rewrite equipment, carton and rewrite method can be according to the type automatic identification of ink horn or packing carton and select corresponding rewrite mechanism, prevents to take place the mistake and adorn when being provided with a plurality of rewrite mechanisms on an equipment, has avoided equipment damage and production safety problem that the maloperation caused.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a perspective view of a consumable chip data rewriting device provided in the present application;

FIG. 2 is a schematic diagram of a back side of the consumable chip data rewriting apparatus provided in the present application;

FIG. 3 is a schematic diagram of an internal structure of the consumable chip data rewriting device provided in the present application;

FIG. 4 is a schematic diagram of a chip reset meter;

FIG. 5 is a schematic view of a rewrite mechanism;

FIG. 6 is a schematic diagram of a detection module;

FIG. 7 is a schematic view of a mounting module;

FIG. 8 is a schematic view of a carton;

FIG. 9 is a schematic view of an installation state of the consumable chip data rewriting apparatus provided in the present application;

FIG. 10 is a schematic view of the mounting module in a mounted state;

FIG. 11 is a diagram illustrating the detection module in a rewritten state.

Reference numerals:

1-shell

10-carton

100-detection Window

101-positioning window

102-positioning window

103-positioning window

104-identification code

2-chip reset instrument

20-display screen

21-camera

22-power source indicator lamp

23-push button

24-interface

3-drawer window

3 a-drawer window

3 b-drawer window

3 c-drawer window

30-rewrite mechanism

30 a-rewriting mechanism

30 b-rewrite mechanism

30 c-rewrite mechanism

31-detection Module

300-base plate

301-Probe head

302-Probe head fixing plate

303-transition plate

304-flat cable fixing plate

305-detection Module translation plate

306-first slider

307 first guide track

308-bearing

309 first nut

310-first screw

311-first electric machine

312-Motor fixing plate

313-origin proximity switch

32-installation module

314-installation drawer

315-photoelectric switch

316-second guide rail

317-second slider

318-installation module translation plate

319-bearing

320-second screw

321-second nut

322-motor fixing plate

323-second electric machine

324-origin proximity switch

325-anticollision limit screw

326-fixed seat

33-positioning module

33 a-positioning module

33 b-positioning module

34-positioning module

35-driver

4 a-scram button

4 b-reset button

5-heat dissipation hole

6-Power supply panel

60-power switch

61-Power supply socket

62-network cable socket

7-mounting plate

70-placing the plate.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the present application, unless explicitly stated or limited otherwise, the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless specified or indicated otherwise; the terms "connected," "fixed," and the like are to be construed broadly and may, for example, be fixedly connected, detachably connected, integrally connected, or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, it should be understood that the terms "upper" and "lower" used in the description of the embodiments of the present application are used in a descriptive sense only and not for purposes of limitation. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

This embodiment is briefly described as follows:

referring to fig. 1 to 11, wherein fig. 1 is a perspective view of the consumable chip data rewriting apparatus. As shown in fig. 1, the apparatus in this embodiment includes a housing 1, three drawer windows 3a, 3b, 3c are opened on a front surface of the housing 1, the three windows can respectively accommodate different types of ink cartridges, the ink cartridges can be accommodated in a paper cassette 10 and integrally installed in an installation drawer 314, and the installation drawer 314 is telescopically disposed in the drawer windows 3a, 3b, 3 c.

It is understood that the number of the drawer windows is not limited to three, and the number and arrangement position may be changed according to actual conditions. The inclined surface of the upper surface and the front surface of the shell 1, which are intersected, is embedded with a consumable chip resetting instrument 2, and the chip resetting instrument 2 is used for detecting and resetting a printing consumable chip or updating chip data. One side of the consumable chip resetting instrument 2 is provided with an emergency stop button 4a and a resetting button 4 b. The emergency stop button 4a is used for emergently stopping the operation of the whole chip data rewriting equipment, and the reset button 4b is used for restoring the chip data rewriting equipment to the initial state and position after the ink box is upgraded and rewritten. The bottom ends of the two side surfaces of the shell 1 are provided with a series of inclined heat dissipation holes 5, which is beneficial to evacuating the heat of the operation of the chip data rewriting equipment.

Referring to fig. 2, fig. 2 is a schematic back view of the consumable chip data rewriting apparatus. As shown in fig. 2, the back bottom of the device case 1 is provided with a power panel 6, and the power panel 6 includes a power switch 60, a power jack 61, and a network cable jack 62. The cable jack 62 may be used to connect to ethernet by plugging in an RJ45 cable to facilitate updating of the device program or system.

Referring to fig. 3, fig. 3 is a schematic diagram of the internal structure of the consumable chip data rewriting apparatus. As shown in fig. 3, the data rewriting device for consumable chips of this embodiment includes rewriting mechanisms 30a, 30b, and 30c respectively corresponding to the three drawer windows 3a, 3b, and 3c, and the three rewriting mechanisms 30 are respectively applied to the rewriting and upgrading processes of the ink cartridges of different models or types. The rear of rewriting equipment is vertical to be provided with a mounting panel 7, install terminal platform, Programmable Logic Controller (PLC), serial module, extension module, terminal module, power, switch etc. and be provided with the winding displacement and be used for connecting each device and module behind mounting panel 7. A transverse placing plate 70 is fixed on the upper end of the mounting plate 7, and a burner (not shown) is placed on the placing plate 70. The chip resetting device 2 is provided between the rewriting mechanisms 30a and 30b, and is set up above the rewriting mechanism 30 via a support and a fixing plate.

Referring to fig. 4, fig. 4 is a schematic diagram of the chip reset meter 2. The chip resetting instrument 2 comprises a display screen 20, a camera 21, a power indicator lamp 22 and a key 23. The side of the chip resetting instrument 2 is provided with an interface 24 for connecting a detection head. The chip resetting instrument 2 can perform program writing, resetting, scanning and checking on the chip. Preferably, the display screen 20 may be a capacitive touch screen, which is more convenient for the user to operate and use.

Referring to fig. 5, fig. 5 is a schematic diagram of the rewriting mechanism 30. The rewriting mechanism 30 specifically includes the above-mentioned rewriting mechanisms 30a, 30b, 30 c. The rewriting mechanisms 30a, 30b, and 30c may have the same configuration. The rewriting mechanism 30 includes a detection module 31, a mounting module 32, positioning modules 33, 34, and a driver 35. The probe head 301 is installed on the detection module 31, and when the ink cartridge is installed in place, the probe head 301 on the detection module 31 will move forward to contact with a chip on the ink cartridge, and then upgrade and rewrite operations are performed.

The positioning module 33 may specifically include a positioning module 33a and a positioning module 33b, and the positioning module 33a and the positioning module 33b are respectively disposed at two sides of the mounting module 32. When the ink cartridge is mounted in place, the positioning modules 33a and 33b on both sides move toward the middle to press the ink cartridge or the ink cartridge package from the left and right, respectively. The upper positioning module 34 presses the ink cartridge or the ink cartridge package in the up-down direction. The bottom plate of the rewrite mechanism 30 is provided with drivers 35 (in this embodiment, five drivers are arranged side by side) for controlling the motor operations of the detection module 31, the mounting module 32, and the positioning modules 33a, 33b, and 34. In this embodiment, all modules are stepping motors, and can be replaced by servo motors according to requirements.

Referring to fig. 6, fig. 6 is a schematic diagram of the detection module 31. The detection module 31 includes a detection module base plate 300, two opposite first guide rails 307 are mounted on the base plate 300, and a first sliding block 306 capable of sliding along the first guide rails 307 is disposed on the first guide rails 307. A detection module translation plate 305 is fixed above the first sliding block 306, and the detection module translation plate 305 and the first sliding block 306 move synchronously. The probe head transition plate 303 is mounted in front of the detection module translation plate 305, and the probe head fixing plate 302 is mounted at the front end of the probe head transition plate 303. The probe head fixing plate 302 is provided with a probe head 301 (detection head). In this embodiment, the probe head mounting plate 302 is coupled to the detection module translation plate 305 by a transition plate 303. Since the probe head 301 is a metal component, in order to prevent short circuit when the probe head 301 is used normally, the probe head fixing plate 302 is generally made of non-conductive plastic, and the detection module translation plate 305 is generally made of metal material, so as to facilitate installation, a probe head transition plate 303 is added between the probe head fixing plate 302 and the detection module translation plate 305. In addition, the arrangement makes it easier to replace the probe head 301 (detection head) at the front end of the detection module 31 when the chip suitable for ink cartridges of other models is rewritten or upgraded. The middle part of bottom plate 300 is fixed with bearing 308 through the fixed plate, and bearing 308 is located between two detection module translation boards 305, and wherein shrinkage pool department is connected with a first screw 310, is connected with a first nut 309 on the first screw 310, first screw 310 and first nut 309 threaded connection, first nut 309 and detection module translation board 305 fixed connection also can make integrated into one piece, does not do the restriction here. The other end of the first screw 310 is connected to a motor fixing plate 312 for fixing a first motor 311, the rear end of the motor fixing plate 312 is equipped with the first motor 311, and the first motor 311 can drive the first screw 310 to rotate. An origin proximity switch 313 is provided at one side of the first motor 311 for performing stroke control of the detection module translation plate 305. In addition, the flat cable fixing plate 304 is arranged above the probe transition plate 303 and the motor fixing plate 312, and is used for compressing and fixing the connection flat cables between the mechanisms.

Referring to fig. 7, fig. 7 is a schematic view of the mounting module 32. The mounting module 32 is fixed to the base plate of the rewrite mechanism 30, and also the mounting module 32 has a mounting module translation plate 318, and the mounting module translation plate 318 is movable in parallel in the front-rear direction. The detection module 31 is mounted on the rear half of the mounting module translation plate 318, and the front half is mounted with a mounting drawer 314 for receiving and retaining a paper cassette 10, which contains an ink cartridge in the paper cassette 10. A photoelectric switch 315 is mounted on the vertical back of the mounting drawer 314, and can be used to detect whether the paper cassette 10 is mounted on the mounting drawer 314. The bottom of the installation module translation plate 318 is provided with two corresponding guide rails 316 extending from front to back, and the guide rails 316 are long-strip-shaped. Two rows of sliders 317 are fixed to the bottom plate of the rewrite mechanism 30 through fixing bases 326, two sliders are provided for each row, and the guide rails 316 are slidable along the grooves of the sliders 317 in the front-rear direction.

The middle part of the bottom plate of the rewriting mechanism 30 is fixed with a bearing 319 through a fixing plate, the bearing 319 is located below the installation module translation plate 318, wherein the concave hole is connected with a second screw 320, the second screw 320 is connected with a second nut 321, the second screw 320 is in threaded connection with the second nut 321, the second nut 321 is fixedly connected with the installation module translation plate 318, and the installation module translation plate can also be integrally formed without limitation. The other end of the second screw 320 is connected to a motor fixing plate 322 for fixing a second motor 323, and the rear end of the motor fixing plate 322 is equipped with the second motor 323, and the second motor 323 can drive the second screw 320 to rotate. An origin proximity switch 324 is provided at one side of the second motor 323 for performing stroke control of resetting of the mounting module 32, and an anti-collision limit screw 325 is provided at the other side.

The structure and principle of the positioning modules 33 and 34 are similar to those of the detecting module 31, and are not described herein again. Except that the probe head 301, the probe head fixing plate 302 and the probe head transition plate 303 at the front end of the module translation plate are replaced by a mandril and a pressing plate for positioning or pressing, and corresponding fixing plates, transition plates and the like.

Referring to fig. 8, fig. 8 is a schematic view of the carton 10. In this example, the paper cassette 10 contains five ink cartridges side by side, and may contain only four, three, etc., depending on the actual situation, without limitation. The corresponding mounting drawers 314 of the mounting module 32 and the probe head 301 (test head) of the test module 31 also need to be modified to match different types of packaging.

The front end of the paper box 10 is provided with a detection window 100, and the detection window 100 can expose the chip of the ink box on the outer surface, so that the ink box does not need to be taken out of the paper box 10 when the chip is upgraded and rewritten, and the operation time and the cost are saved. After the paper box 10 is completely packed, the front end detection window 100 is covered with a layer of heat shrinkage film, so that the chip of the ink box can be prevented from being damaged due to dust or sundries. When the chip of the ink box needs to be upgraded, the heat shrinkage film on the surface of the detection window 100 can be directly punctured by the probe head 301, and the upgrading and rewriting operation is not affected. Three positioning windows 101, 102, 103 are respectively arranged at two sides of the paper box 10, and in the installation process, three push rods (not shown) correspondingly arranged in the positioning module 33 can pass through the positioning windows 101, 102, 103 to perform a pressing operation towards the middle on the ink box in the paper box 10, so that the ink box is positioned in the left-right direction. Thus, chips at the front end of the ink cartridge correspond one-to-one to the probe heads 301 in the left-to-right direction. In addition, an identification code 104 (generally, a two-dimensional code) is provided on a certain area of the surface of the paper cassette 10 to distinguish different types of paper cassettes 10 from different types of ink cartridges.

In this embodiment, the method for rewriting the ink cartridge chip by the consumable chip data rewriting device is as follows:

firstly, plugging a power socket 61 of the equipment with a power line, and turning on a power switch 60;

secondly, the two-dimensional code 104 on the package paper box 10 to be upgraded is aligned with the camera 21 of the chip resetting instrument 2 for scanning;

thirdly, the drawer window 3 with the corresponding type and model on the equipment extends out, the paper box 10 is put into the installation drawer 314 according to the specified requirement, and the installation drawer 314 retracts after the photoelectric switch 315 on the installation drawer 314 receives the signal;

the drawer window 3 of the corresponding type and model on the device may be a drawer window 3a, 3b or 3 c.

Fourthly, after the installation drawer 314 retracts to the right position, the positioning modules 33 and 34 are started to position and fix the paper box 10 and the ink boxes therein;

fifthly, after the positioning action is finished, the detection module 31 updates and rewrites the chip information on the ink box;

sixthly, after the rewriting is completed, displaying characters of successful or failed upgrading on the display screen 20 of the chip resetting instrument 2;

seventhly, resetting the detection module 31 and the positioning modules 33 and 34, extending the installation module 32, extending the installation drawer 314 in place, and taking out the paper box 10;

eighthly, if the sleeved ink boxes of the same type and model need to be upgraded continuously, the paper box 10 is put into the installation drawer 314 continuously, and the four-seven steps are repeated;

ninthly, if the type and the model of the sleeved ink box need to be changed, scanning the two-dimensional code again, and repeating the steps from two to seven;

if the upgrading is not needed to be continued, the reset button 4b on the surface of the shell 1 is pressed, the installation drawer 314 is reset to the original state, and the equipment is in a standby state;

specifically, after the camera 21 of the chip resetting device 2 scans the two-dimensional code 104, the chip resetting device 2 converts the read two-dimensional code information into a serial number instruction, and sends the serial number instruction to a PLC (programmable logic controller, not shown) on the device, the PLC receives the signal and controls a second motor 323 corresponding to the drawer window 3 on the front side to work, the second motor 323 drives a second screw 320 to rotate for a specified number of turns, the front end and the rear end of the second screw 320 are fixed, the second nut 321 is fixed with the installation module translation plate 318, and when the second screw 320 rotates, a screw thrust is generated to push the second nut 321 to move forward on the second screw 320, so that the whole installation module translation plate 318 is driven to move forward under the guiding and fixing action of the second guide rail 316 and the second slider 317. As shown in fig. 10, fig. 10 is a schematic view of the mounting module 32 in a mounted state. Since the mounting drawer 314 is mounted on the mounting module translating plate 318, the mounting drawer 314 extends a length. As shown in fig. 9, fig. 9 is a schematic view of a mounted state of the chip data rewriting apparatus. Since the chip resetting device 2 recognizes the cartridge set type corresponding to the drawer window 3a, only the drawer window 3a is extended.

In step three, the photoelectric switch 315 emits a short-distance infrared light beam toward the installation direction of the paper cassette 10, and when the paper cassette 10 is installed in the installation drawer 314, the infrared light beam is reflected by the smooth rear surface of the paper cassette 10 and received by the photoelectric switch 315 again. It is thus possible to detect whether the paper cassette 10 has been mounted to the mounting drawer 314. In addition, in the present embodiment, it should be noted that the positioning windows 101 to 103 should face the left and right sides when the paper box 10 is installed, the detection window 100 should face the probe head 301, and the paper box 10 should be laid upside down, so that the detection window 100 is located above and can be matched with the probe head 301. When it is confirmed that the installation of the paper cassette 10 is completed, the photoelectric switch 315 transmits a signal to the PLC. After receiving the photoelectric switch signal, the PLC controls the second motor 323 on the installation module 32 to work, and drives the second screw 320 to rotate reversely for a specified number of turns, so that the installation drawer 314 retracts, and the retraction distance and the extension length of the installation module translation plate 318 are consistent. The home proximity switch 324 may ensure that the installation drawer 314 is reset to the initial position, and if the home proximity switch does not sense that the translation plate 318 is in the initial position before the device is operated, a signal may be sent to the PLC, and the PLC may control the second motor 323 to be reset to the home proximity switch sensing position.

For step four, the front ends of the positioning modules 33a, 33b are provided with three positioning push rods (not shown) for clamping the plurality of ink cartridges in the paper cassette 10 in the left-right direction through the positioning windows on the paper cassette 10. After the positioning modules 33 on the two sides complete the action, a signal is sent to the PLC, the PLC controls the motor of the positioning module 34 on the top to be started, and the paper box 10 is pressed up and down through a pressing plate (not shown) at the front end of the positioning module 34.

And step five, after the positioning action is completed, the PLC controls the first motor 311 of the detection module 31 to start, the first motor 311 drives the first screw 310 to rotate for the number of turns specified by the program, the front end and the rear end of the first screw 310 are fixed, the first nut 309 is fixed with the installation module translation plate 305, when the first screw 310 rotates, a spiral thrust is generated, the first nut 309 is pushed to move forward on the first screw 310, and thus the whole detection module translation plate 305 is driven to move forward under the guiding and fixing action of the first guide rail 307 and the first slider 306. Since the probe head 301 is fixed on the detection module translation plate 305 through the fixing plate 302 and the transition plate 303, and accordingly extends forwards, the probe head 301 penetrates through the heat shrinkage film on the detection window 100 of the paper box 10 and then contacts with the ink box chip. As shown in fig. 11, fig. 11 is a schematic diagram illustrating a rewrite state of the detection module 31.

Aiming at the sixth step, after the first motor 311 of the detection module 31 finishes the action, the PLC sends a signal to the chip resetting instrument 2, the chip resetting instrument 2 starts to upgrade or rewrite the chip information through the probe head 301 (detection head) after receiving the signal, and after the upgrade is successful or failed, the chip resetting instrument 2 sends the signal to the PLC, and meanwhile, the upgrade success or failure character is displayed on the display screen 20.

And aiming at the seventh step, after receiving the signal, the PLC resets the detection module 31 (the resetting process and principle are consistent with the extension), the original point proximity switch 313 of the detection module 31 senses the signal and then provides the signal PLC, then the top positioning module 34 resets, the original point proximity switch of the top positioning module 34 senses the signal and then provides the PLC signal, then the two side positioning modules 33 reset, the original point proximity switch of the positioning module 33 senses the signal PLC, and then the installation module is controlled to extend the installation drawer 314.

Example two:

this embodiment is briefly described as follows:

the principle and structure of this embodiment are similar to those of the first embodiment, except that the stepping motor of the positioning module 33 of the first embodiment is replaced by a servo motor, so that the positioning module 33 can be designed to be fed back according to whether the ink cartridges are clamped or not during extension, and the extension distance can be changed according to the number of the ink cartridges in the paper box 10, thereby being suitable for paper box packaging types in more situations.

Example three:

this embodiment is briefly described as follows:

the chip data rewriting device can also be externally connected with a printer, and when the upgrade is successful, the chip resetting instrument 2 sends a signal to the externally connected printer to print a label corresponding to the paper box information, and the label can be used for being attached to the paper box 10 again. This is not done if the upgrade fails.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (14)

1. A consumable chip data rewriting apparatus, comprising:

the drawer comprises a shell, wherein at least one drawer window is arranged on the shell;

the mounting drawer is telescopically arranged in the drawer window and is used for mounting a paper box containing an ink box;

the rewriting mechanism is arranged in the shell, corresponds to the drawer window and is used for rewriting and upgrading data of consumable chips on the ink box;

and the chip resetting instrument is arranged on the shell and is used for identifying the identification code on the consumable chip.

2. The consumable chip data rewriting device of claim 1, wherein the rewriting mechanism includes a mounting module telescopically disposed in the drawer window, the mounting drawer being disposed in the mounting module.

3. The consumable chip data rewriting device of claim 2, wherein the mounting module comprises a fixing seat, a mounting module translation plate, a second screw, a second nut, and a second motor;

the mounting module translation plate is arranged on the fixed seat in a sliding mode, the mounting module translation plate is fixedly connected with the second nut, and the second screw is in threaded connection with the second nut;

the second motor is arranged on the fixed seat, and the end part of the second screw rod is connected with the second motor.

4. The consumable chip data rewriting device of claim 3, wherein the mounting module further comprises a second guide rail and a second slider, the second slider is fixedly disposed on the fixing seat, the second guide rail is fixedly disposed on the mounting module translation plate, and the mounting module translation plate is slidably disposed on the fixing seat through cooperation of the second guide rail and the second slider.

5. The consumable chip data rewriting device of claim 2, wherein the rewriting mechanism further comprises a detection module disposed in the mounting module, the detection module comprising a probe head, the probe head corresponding to the consumable chip.

6. The consumable chip data rewriting device of claim 5, wherein the detection module further comprises a bottom plate, a detection module translation plate, a first screw, a first nut, and a first motor;

the detection module translation plate is arranged on the bottom plate in a sliding mode, the detection module translation plate is fixedly connected with the first nut, and the first screw is in threaded connection with the first nut;

the first motor is arranged on the bottom plate, and the end part of the first screw rod is connected with the first motor;

the probe head is connected with the detection module translation plate.

7. The consumable chip data rewriting device of claim 6, wherein the detection module further comprises a first guide rail and a first slider, the first guide rail is disposed on the bottom plate, the detection module translation plate is fixedly connected to the first slider, and the detection module translation plate is slidably disposed on the bottom plate through cooperation of the first slider and the first guide rail.

8. The consumable chip data rewriting device of claim 2, wherein the rewriting mechanism further comprises positioning modules disposed above and on both sides of the mounting module for positioning and fixing the paper cassette and the ink cartridge.

9. The consumable chip data rewriting device of claim 2, wherein a photoelectric switch is provided on the mounting drawer.

10. A carton for receiving the ink cartridge according to any one of claims 1 to 9, wherein a detection window is provided on the carton, and a consumable chip on the ink cartridge is aligned with the detection window.

11. A carton as in claim 10 wherein the carton is provided with an identification code thereon.

12. The carton of claim 10, wherein the detection window is fixedly covered with a heat shrink film.

13. A rewriting method using the consumable chip data rewriting apparatus of any one of claims 1 to 9, comprising the steps of:

connecting the rewriting equipment with a power supply;

identifying an identification code on a paper box to be upgraded through the chip resetting instrument so that the corresponding mounting drawer extends out of the drawer window;

installing the paper box to be upgraded into the installation drawer;

retracting the mounting drawer into the drawer window;

and rewriting and upgrading data of the consumable chip on the ink box.

14. The method of rewriting of claim 13, after retracting the installation drawer into the drawer window, the method further comprising:

positioning the paper cassette and the ink cartridge.

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