CN210234373U - Continuous ink supply system and continuous ink supply equipment of ink jet numbering machine - Google Patents

Abstract

The utility model discloses a continuous ink supply system of an ink-jet printer, which comprises a plurality of ink-jet printers and continuous ink supply equipment, wherein each ink-jet printer is provided with an ink box assembly; the continuous ink supply equipment comprises a plurality of ink path outlets, an ink bag assembly, an extraction assembly, a plurality of control valves and a control panel, wherein each ink path outlet in the ink path outlets is communicated with an ink box assembly of a corresponding ink-jet printer, the ink bag assembly is communicated with the extraction assembly, the extraction assembly is communicated with the ink path outlets through the control valves, the control panel is connected with the control valves and the extraction assembly, and the control panel controls the control valves and the extraction assembly to supply ink for the ink box assemblies of the ink-jet printers through the ink path outlets. The utility model discloses still disclose a continuous ink supply equipment. The utility model discloses realize when the ink horn subassembly lacks the china ink, it can in time supply the china ink for the ink horn subassembly, just scrap after making the ink horn subassembly can consume more inks, has prolonged the life of ink horn subassembly, has reduced use cost.

Description

Continuous ink supply system and continuous ink supply equipment of ink jet numbering machine

Technical Field

The utility model relates to an ink jet numbering machine technical field, in particular to ink jet numbering machine continuous ink supply system and continuous ink supply equipment.

Background

Traditional ink jet numbering machine technique is through tiny heating resistor heating shower nozzle, makes the ink produce the bubble, spouts the product on the surface, realizes that the sign spouts the seal, and its theory of operation is: the ink is instantaneously heated (instantaneously heated to more than 300 ℃) in an ink ejecting area by utilizing a thin film resistor to form countless micro bubbles, the bubbles are gathered into large bubbles at a very high speed and are expanded, and ink drops are forced to be ejected from a nozzle to form required characters, numbers and bar codes; the bubble continues to expand again and will die back onto the resistor; the bubbles disappear, the ink in the nozzle is contracted, the surface tension generates suction force, and new ink is drawn to be supplemented to the ink ejecting area to prepare for the next cycle of jet printing.

The traditional ink-jet printer usually comprises an ink box, wherein the ink in the ink box is about 42ml, the ink box is disposable, namely the ink box is scrapped after about 42ml of ink in the ink box is used up, and if the ink-jet printer needs to be continuously used, a new ink box needs to be replaced, so that the ink box is frequently replaced, inconvenience is brought to users, and the use cost is high.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the above-mentioned technology to a certain extent. Therefore, an object of the utility model is to provide an ink jet numbering machine continuous ink supply system supplies the ink through the ink supply equipment for every ink horn subassembly of ink jet numbering machine supplies the ink for after the ink horn subassembly can consume more inks, this ink horn subassembly just scrapped, thereby prolonged the life of ink horn subassembly, not only reduced use cost, still avoided frequently changing the ink horn subassembly and the inconvenience that brings.

Another object of the present invention is to provide a continuous ink supply apparatus.

In order to achieve the above object, the utility model discloses an ink jet numbering machine continuous ink supply system who provides on the one hand, include: each ink-jet printer is provided with an ink box assembly; the continuous ink supply equipment comprises a plurality of ink path outlets, an ink bag assembly, an extraction assembly, a plurality of control valves and a control panel, wherein each ink path outlet in the ink path outlets is communicated with an ink box assembly of a corresponding ink-jet printer, the ink bag assembly is communicated with the extraction assembly, the extraction assembly is communicated with the ink path outlets through the control valves, the control panel is connected with the control valves and the extraction assembly, and the control panel controls the control valves and the extraction assembly to supply ink for the ink box assemblies of the ink-jet printers through the ink path outlets.

According to the utility model provides an ink jet numbering machine continuous ink supply system communicates corresponding ink jet numbering machine's ink horn subassembly through every china ink way export in a plurality of china ink way exports to china ink bag subassembly is linked together with the extraction subassembly, and the extraction subassembly communicates a plurality of china ink way exports through a plurality of control valves respectively, and the control panel is through controlling a plurality of control valves and extraction subassembly like this. Control the ink bag subassembly and supply the black ink for the ink horn subassembly of a plurality of ink jet numbering machines through a plurality of ink route exports in succession to when the ink horn subassembly lacks the china ink, this ink jet numbering machine continuous ink supply system can in time supply the black for the ink horn subassembly, makes the ink horn subassembly can consume more ink after, and this ink horn subassembly is just scrapped, thereby has prolonged the life of ink horn subassembly, has not only reduced use cost, still avoids frequently changing the ink horn subassembly and the inconvenience that brings. In addition, the ink box assemblies of a plurality of ink jet printers can be supplied with ink simultaneously, and the efficiency is greatly improved.

Additionally, according to the utility model discloses above-mentioned continuous ink supply system of ink jet numbering machine that provides can also have following additional technical characterstic:

further, the ink bag assembly comprises a first ink bag and a second ink bag, the extraction assembly comprises a first ink pump and a second ink pump, the first ink bag is communicated with an inlet of the first ink pump through an ink path ink pipe, the second ink bag is communicated with an inlet of the second ink pump through an ink path ink pipe, and the first ink pump and/or the second ink pump work under the control of the control board to extract the ink loaded in the first ink bag and/or the second ink bag.

Further, the continuous ink supply device further comprises a distributor, a first inlet of the distributor is communicated with an outlet of the first ink pump through an ink path ink pipe, a second inlet of the distributor is communicated with an outlet of the second ink pump through an ink path ink pipe, a plurality of outlets of the distributor are communicated with the plurality of ink path outlets through the plurality of control valves respectively, and the distributor distributes the ink pumped by the first ink pump and/or the second ink pump to the plurality of ink path outlets.

Further, each of the plurality of control valves is a solenoid valve, wherein the control board distributes the ink pumped by the first ink pump and/or the second ink pump to the corresponding ink path outlet by controlling the opening of each solenoid valve.

Further, the first ink pump and the second ink pump are both peristaltic pumps.

Furthermore, each inkjet printer further comprises a hydraulic sensor, the hydraulic sensor is arranged in the ink box assembly to detect ink hydraulic information in the ink box assembly and send the ink hydraulic information to the control board, so that the control board can control the extraction assembly to work and the corresponding control valve to open when judging that the ink hydraulic pressure in the ink box assembly of the corresponding inkjet printer is lower than a preset hydraulic threshold value according to the ink hydraulic information.

Furthermore, each inkjet printer further comprises a USB interface and a USB data acquisition unit, the USB interface is arranged on the ink box assembly, and the USB data acquisition unit is connected with the USB interface to acquire ink hydraulic information in the ink box assembly and send the ink hydraulic information in the ink box assembly to the control panel through a data transmission line.

Furthermore, a plurality of data interfaces, a plurality of electromagnetic valve control power interfaces and an ink pump control power interface are arranged on the control panel, the data interfaces are respectively connected to the USB data acquisition unit of each code spraying machine through the data transmission line, the electromagnetic valve control power interfaces are respectively connected to the control valves, and the ink pump control power interface is connected to the extraction unit.

In order to achieve the above object, the utility model discloses another aspect still provides a continuous ink supply equipment, including a plurality of china ink way exports, china ink bag subassembly, extraction subassembly, a plurality of control valve and control panel, every china ink way export in a plurality of china ink way exports the ink horn subassembly of communicating corresponding ink jet numbering machine, china ink bag subassembly with the extraction subassembly is linked together, the extraction subassembly passes through respectively a plurality of control valves communicate a plurality of china ink way exports, the control panel respectively with a plurality of control valves with the extraction subassembly links to each other, the control panel is through control a plurality of control valves with the extraction subassembly, in order to control china ink bag subassembly passes through a plurality of china ink way exports the ink horn subassembly that gives every ink jet numbering machine and supplies ink.

According to the utility model provides a continuous ink supply equipment, every ink path export in a plurality of ink path exports communicates the ink horn subassembly of corresponding ink jet numbering machine, and ink horn subassembly is linked together with the extraction subassembly, and the extraction subassembly communicates a plurality of ink path exports through a plurality of control valves respectively, the control panel is through controlling a plurality of control valves and extraction subassembly like this, it supplies the ink horn subassembly continuous ink for every ink jet numbering machine through a plurality of ink path exports to control ink horn subassembly, make the ink horn subassembly can consume behind more inks, just can scrap, thereby the life of ink horn subassembly has been prolonged, use cost has not only been reduced, still avoid frequently changing the ink horn subassembly and the inconvenience that brings. In addition, the ink box assemblies of a plurality of ink jet printers can be supplied with ink simultaneously, and the efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a continuous ink supply system of an inkjet printer according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a continuous ink supply apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an inkjet printer according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The related art inkjet printer generally includes an ink cartridge, the ink in the ink cartridge is about 42ml, and the ink cartridge is disposable, that is, after about 42ml of ink in the ink cartridge is used up, the ink cartridge is also scrapped, and if the inkjet printer needs to be continuously used, a new ink cartridge needs to be replaced, and the ink cartridge needs to be replaced frequently, which not only brings inconvenience to users, but also results in higher use cost.

And the embodiment of the utility model provides a pair of ink jet numbering machine continuous ink supply system supplies the ink through the ink supply equipment in succession for every ink horn subassembly of ink jet numbering machine supplies the ink, make the ink horn subassembly can consume more ink after, this ink horn subassembly just scraps, thereby the life of ink horn subassembly has been prolonged, use cost has not only been reduced, still avoid frequently changing the ink horn subassembly and the inconvenience that brings, and the ink supply equipment in succession can also realize supplying the ink simultaneously for the ink horn subassembly of a plurality of ink jet numbering machines, efficiency is greatly improved.

In order to better understand the above technical solutions, exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Fig. 1 is a schematic structural diagram of a continuous ink supply system of an inkjet printer according to an embodiment of the present invention. As shown in fig. 1, the continuous ink supply system of the inkjet printer includes a plurality of inkjet printers 1 and continuous ink supply equipment 2.

Wherein, each ink jet printer 1 in a plurality of ink jet printers 1 is provided with an ink box component 11.

As shown in fig. 1, the continuous ink supply apparatus 2 includes a plurality of ink path outlets 21 (e.g., four), an ink bag assembly 22, an extraction assembly 23, a plurality of control valves 24 and a control board 25, each ink path outlet 21 of the plurality of ink path outlets 21 is communicated with the ink cartridge assembly 11 of the corresponding inkjet printing machine 1 through an ink path ink pipe, the ink bag assembly 22 is communicated with the extraction assembly 23, the extraction assembly 23 is communicated with the plurality of ink path outlets 21 through the plurality of control valves 24, the control board 25 is respectively connected with the plurality of control valves 24 and the extraction assembly 23, and the control board 25 controls the plurality of control valves 24 and the extraction assembly 23 to control the ink bag assembly 22 to supply ink to the ink cartridge assemblies 11 of the plurality of inkjet printing machines 1 through the plurality of ink path outlets 21.

In the embodiment of the present invention, each ink channel outlet 21 in the ink channel outlets 21 of the continuous ink supply device 2 is communicated to the ink cartridge assembly 11 of the corresponding inkjet printer 1, and the ink bag assembly 22 is communicated with the extraction assembly 23, the extraction assembly 23 is communicated to the ink channel outlets 21 through the control valves 24, when the continuous ink supply system of the inkjet printer works, the control board 25 controls the extraction assembly 23 to perform extraction work, so that the ink in the ink bag assembly 22 flows to the extraction assembly 23, and then controls the corresponding control valve 24 to open, so that the ink extracted by the extraction assembly 23 flows to the corresponding ink channel outlet 21 through the opened control valve 24, thereby supplying ink to the ink cartridge assembly 11 of the corresponding inkjet printer 1, and after the ink cartridge assembly 11 can consume more ink, the ink cartridge assembly 11 is only scrapped, thereby prolonging the service life of the ink cartridge assembly 11, not only reducing the use cost, the inconvenience of frequent replacement of the ink cartridge assembly 11 is also avoided.

As an example, as shown in fig. 2, the ink bag assembly 22 includes a first ink bag 221 and a second ink bag 222, the extraction assembly 23 includes a first ink pump 231 and a second ink pump 232, the first ink bag 221 is connected to an inlet of the first ink pump 231 through an ink path ink pipe, the second ink bag 222 is connected to an inlet of the second ink pump 232 through an ink path ink pipe, and the first ink pump 231 and/or the second ink pump 232 operate under the control of the control board 25 to extract ink loaded in the first ink bag 221 and/or the second ink bag 222. That is, when the first ink pump 231 operates, the ink loaded in the first ink bag 221 is pumped; when the second ink pump 232 is operated, the ink loaded in the second ink bag 222 is pumped; when the first ink pump 231 and the second ink pump 232 are simultaneously operated, the inks loaded in the first ink bag 221 and the second ink bag 222 are respectively pumped.

Specifically, as an example, the initial amount of ink in the first ink bag 221 and the second ink bag 222 is 350ml, and the ink containing amount in the ink cartridge assembly 11 is 42ml, so that the ink in the first ink bag 221 and the second ink bag 222 can provide more ink for the ink cartridge assembly 11, only after the ink cartridge assembly 11 consumes the whole ink, the ink cartridge assembly 11 is discarded, and the ink cartridge in the conventional inkjet printer is disposable, and the ink is discarded after consuming 42ml of ink, therefore, the continuous ink supply system of the inkjet printer according to the embodiment of the present invention can greatly improve the service life of the ink cartridge assembly 11, thereby reducing the cost.

In some examples, as shown in fig. 2, the continuous ink supply apparatus 2 further includes a distributor 26, a first inlet of the distributor 26 is communicated with an outlet of the first ink pump 231 through an ink path ink pipe, a second inlet of the distributor 26 is communicated with an outlet of the second ink pump 232 through an ink path ink pipe, a plurality of outlets of the distributor 26 are respectively communicated with the plurality of ink path outlets 21 through the plurality of control valves 24, and the distributor 26 distributes the ink pumped by the first ink pump 231 and/or the second ink pump 232 to the plurality of ink path outlets 21.

Specifically, the distributor 26 is a six-way joint having two inlets and four outlets, the ink path outlets 21 are four, a first inlet of the six-way joint is communicated with the outlet of the first ink pump 231 through an ink path ink tube, a second inlet of the six-way joint is communicated with the outlet of the second ink pump 232 through an ink path ink tube, and the remaining four outlets of the six-way joint are communicated with the four ink path outlets 21 through four control valves 24, respectively, so that the six-way joint distributes the ink pumped by the first ink pump 231 and/or the second ink pump 232 to the four ink path outlets 21. Of course, the dispenser 26 may have other devices for dispensing ink, and the number of outlets of the dispenser 26 corresponds to the number of ink path outlets 21.

As an example, each control valve 24 of the plurality of control valves 24 is a solenoid valve, and the first ink pump 231 and the second ink pump 232 are both peristaltic pumps. Wherein the control board 25 distributes the ink pumped by the peristaltic pump to the corresponding ink path outlet 21 by controlling the opening of the solenoid valve 24. After the ink in a certain ink cartridge assembly 11 is consumed to a certain extent, the control board 25 may control the corresponding solenoid valve to open, and control the peristaltic pump to distribute the extracted ink to the corresponding ink path outlet 21, so as to supply the ink to the ink cartridge assembly 11.

In some examples, each inkjet printing machine 1 further includes a hydraulic sensor (not shown in the drawings), which is disposed in the ink cartridge assembly 11 to detect the hydraulic information of the ink in the ink cartridge assembly 11 and send the hydraulic information of the ink to the control board 25, so that the control board 25 controls the pumping assembly 23 to operate and the corresponding control valve 24 to open when the control board 25 determines that the hydraulic pressure of the ink in the ink cartridge assembly 11 of the corresponding inkjet printing machine 1 is lower than the preset hydraulic threshold according to the hydraulic information of the ink. That is, when the liquid pressure of the ink in a certain ink cartridge assembly 11 is lower than the preset liquid pressure threshold, the control board 25 controls the corresponding control valve 24 to open, so as to distribute the ink extracted by the extraction assembly 23 to the corresponding ink path outlet 21, thereby supplying the ink to the ink cartridge assembly 11.

In some examples, as shown in fig. 3, each inkjet printing machine 1 further includes a USB interface 12 and a USB data collecting unit 13, the USB interface 12 is disposed on the ink cartridge assembly 11, and the USB data collecting unit 13 is connected to the USB interface 12 to collect the ink hydraulic information in the ink cartridge assembly 11 and send the ink hydraulic information in the ink cartridge assembly 11 to the control board 25 through the data transmission line 14. As shown in fig. 2, the control board 25 is provided with a plurality of data interfaces 251, a plurality of solenoid valve control power interfaces 252 and an ink pump control power interface 253, the plurality of data interfaces 251 are respectively connected to the USB data acquisition unit 13 of each inkjet printer 1 through data transmission lines 14, the plurality of solenoid valve control power interfaces 252 are respectively connected to each control valve 24, and the ink pump control power interface 253 is connected to the extraction unit 23.

When the ink in the ink cartridge assembly 11 is consumed to a certain extent, the USB data collecting unit 13 collects the ink hydraulic information in the ink cartridge assembly 11, and sends the ink hydraulic information in the ink cartridge assembly 11 to the data interface 251 through the data transmission line 14, and the data interface 251 receives the data and sends the data to the control board 25. When the ink pressure in the ink cartridge assembly 11 is lower than the preset hydraulic threshold, the control board 25 controls the power interface 252 to control the corresponding control valve 24 to open through the electromagnetic valve, and controls the peristaltic pump to distribute the extracted ink to the corresponding ink path outlet 21, so as to supply ink to the ink cartridge assembly 11.

In summary, the continuous ink supply system of the inkjet printer according to the embodiment of the present invention is connected to the ink cartridge assembly 11 of the corresponding inkjet printer 1 through each ink path outlet 21 of the plurality of ink path outlets 21, and the ink bag module 22 communicates with the purge module 23, and the purge module 23 communicates with the plurality of ink path outlets 21 through the plurality of control valves 24, thus, the control board 25 controls the ink bag module 22 to continuously supply ink to the ink cartridge assemblies 11 of the ink jet printer 1 through the ink path outlets 21 by controlling the control valves 24 and the extraction assembly 23, so that when the ink cartridge assemblies 11 are short of ink, the continuous ink supply system of the ink-jet printer can supply ink to the ink box component 11 in time, so that after the ink box component 11 can consume more ink, the ink box component 11 is only scrapped, so that the service life of the ink box component 11 is prolonged, the use cost is reduced, and the inconvenience caused by frequent replacement of the ink box component 11 is avoided. In addition, the ink supply for the ink box assemblies 11 of a plurality of ink-jet printers 1 can be realized simultaneously, and the efficiency is greatly improved.

In addition, referring to fig. 1 to fig. 2, the embodiment of the present invention further provides a continuous ink supply apparatus 2, which includes a plurality of ink path outlets 21, an ink bag assembly 22, an extraction assembly 23, a plurality of control valves 24 and a control panel 25, each ink path outlet 21 in the plurality of ink path outlets 21 is communicated to the ink cartridge assembly 11 of the corresponding inkjet printing machine 1, the ink bag assembly 22 is communicated with the extraction assembly 23, the extraction assembly 23 is communicated to the plurality of ink path outlets 21 through the plurality of control valves 24, the control panel 25 is connected to the plurality of control valves 24 and the extraction assembly 23, the control panel 25 controls the plurality of control valves 24 and the extraction assembly 23, so as to control the ink bag assembly 22 to supply ink to the ink cartridge assembly 11 of each inkjet printing machine 1 through the plurality of ink path outlets 21.

According to the utility model discloses continuous ink supply equipment 2, communicate to corresponding ink horn subassembly 11 of ink jet numbering machine 1 through every ink path export 21 in a plurality of ink path exports 21, and ink bag subassembly 22 is linked together with extraction subassembly 23, and extraction subassembly 23 communicates a plurality of ink path exports 21 through a plurality of control valves 24 respectively, control panel 25 is through controlling a plurality of control valves 24 and extraction subassembly 23 like this, control ink bag subassembly 22 supplies the ink to every ink horn subassembly 11 of ink jet numbering machine 1 through a plurality of ink path exports 21 in succession, make ink horn subassembly 11 can consume behind more inks, just can scrap, thereby the life of ink horn subassembly 11 has been prolonged, use cost has not only been reduced, still avoid frequently changing ink horn subassembly 11 and the inconvenience that brings. In addition, the ink supply for the ink box assemblies 11 of a plurality of ink-jet printers 1 can be realized simultaneously, and the efficiency is greatly improved.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above should not be understood to necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples described in this specification can be combined and combined by those skilled in the art.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (9)

1. The utility model provides a continuous ink supply system of ink jet numbering machine which characterized in that includes:

each of the plurality of ink-jet printers is provided with an ink box assembly;

the continuous ink supply equipment comprises a plurality of ink path outlets, an ink bag assembly, an extraction assembly, a plurality of control valves and a control panel, wherein each ink path outlet in the ink path outlets is communicated with an ink box assembly of a corresponding ink-jet printer, the ink bag assembly is communicated with the extraction assembly, the extraction assembly is communicated with the ink path outlets through the control valves respectively, the control panel is connected with the control valves and the extraction assembly respectively, and the control panel controls the control valves and the extraction assembly to control the ink bag assembly to supply ink to the ink box assemblies of the ink-jet printers through the ink path outlets.

2. The continuous ink supply system of the ink jet printer as claimed in claim 1, wherein the ink bag assembly comprises a first ink bag and a second ink bag, the extraction assembly comprises a first ink pump and a second ink pump, the first ink bag is communicated with an inlet of the first ink pump through an ink path ink pipe, the second ink bag is communicated with an inlet of the second ink pump through an ink path ink pipe, and the first ink pump and/or the second ink pump operate under the control of the control board to extract the ink loaded in the first ink bag and/or the second ink bag.

3. The continuous ink supply system of the inkjet printing machine according to claim 2, wherein the continuous ink supply apparatus further comprises a distributor, a first inlet of the distributor is communicated with the outlet of the first ink pump through an ink path ink pipe, a second inlet of the distributor is communicated with the outlet of the second ink pump through an ink path ink pipe, a plurality of outlets of the distributor are respectively communicated with the plurality of ink path outlets through the plurality of control valves, and the distributor distributes the ink pumped by the first ink pump and/or the second ink pump to the plurality of ink path outlets.

4. The continuous ink supply system of an ink jet printer according to claim 3, wherein each of the plurality of control valves is a solenoid valve, and wherein the control board distributes the ink pumped by the first ink pump and/or the second ink pump to the corresponding ink path outlet by controlling the opening of each solenoid valve.

5. The continuous ink supply system of an ink jet printer of claim 2, wherein the first ink pump and the second ink pump are both peristaltic pumps.

6. The continuous ink supply system of the inkjet printing machine according to any one of claims 1 to 5, wherein each inkjet printing machine further comprises a hydraulic sensor, the hydraulic sensor is arranged in the ink cartridge assembly to detect ink hydraulic pressure information in the ink cartridge assembly and send the ink hydraulic pressure information to the control board, so that the control board controls the extraction assembly to operate and the corresponding control valve to open when judging that the ink hydraulic pressure in the ink cartridge assembly of the corresponding inkjet printing machine is lower than a preset hydraulic threshold value according to the ink hydraulic pressure information.

7. The continuous ink supply system of the inkjet printer according to claim 6, wherein each inkjet printer further comprises a USB interface and a USB data acquisition unit, the USB interface is disposed on the ink cartridge assembly, and the USB data acquisition unit is connected to the USB interface to acquire the hydraulic information of the ink in the ink cartridge assembly and send the hydraulic information of the ink in the ink cartridge assembly to the control board through a data transmission line.

8. The continuous ink supply system of the inkjet printer according to claim 7, wherein the control board is provided with a plurality of data interfaces, a plurality of solenoid valve control power interfaces and an ink pump control power interface, the plurality of data interfaces are respectively connected to the USB data acquisition unit of each inkjet printer through the data transmission line, the plurality of solenoid valve control power interfaces are respectively connected to each control valve, and the ink pump control power interface is connected to the extraction assembly.

9. The continuous ink supply equipment is characterized by comprising a plurality of ink path outlets, an ink bag assembly, an extraction assembly, a plurality of control valves and a control panel, wherein each ink path outlet in the ink path outlets is communicated with an ink box assembly of a corresponding ink-jet printer, the ink bag assembly is communicated with the extraction assembly, the extraction assembly is communicated with the ink path outlets through the control valves respectively, the control panel is connected with the control valves and the extraction assembly respectively, and the control panel controls the control valves and the extraction assembly to control the ink bag assembly to supply ink to the ink box assembly of each ink-jet printer through the ink path outlets.

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