CN114789608A - Ink jet printing system - Google Patents

Abstract

The application provides an ink-jet printing system, which comprises an ink-jet printing device and a control mechanism interacting with the ink-jet printing device, wherein the ink-jet printing device comprises an ink storage mechanism, an ink-jet mechanism and an ink changing mechanism; the ink storage mechanism comprises an ink supply assembly and an ink storage assembly, and the ink supply assembly and the ink storage assembly are used for storing a certain amount of ink; the ink jetting mechanism is connected with the ink storage mechanism and is used for jetting ink from the ink supply assembly; the ink changing mechanism is positioned on one side of the ink storing mechanism, which is far away from the ink jetting mechanism, and is used for adding or replacing ink in the ink storing assembly into the ink supplying assembly; the control mechanism is wirelessly connected with the ink changing mechanism and is used for sending a preset control signal to the ink changing mechanism; the ink changing mechanism comprises a controller, wherein the controller is used for receiving a preset control signal and controlling the ink changing mechanism to move towards the direction of the ink supply assembly or the direction of the ink storage assembly according to the preset control signal.

Description

Ink jet printing system

Technical Field

The present application relates to the field of inkjet printing devices and, more particularly, to an inkjet printing system.

Background

At present, most of conventional organic light-emitting diode (OLED) devices are manufactured by an evaporation method for preparing an organic layer, Ink (Ink) containing an OLED functional material is dropped on a predetermined position in a micro-droplet manner, and then a solvent is evaporated and removed, and only a solute (OLED functional material) is left to form a thin film, which is called an Ink-jet print (IJP) for short.

However, in the process of ink-jet printing, the ink cartridge is generally large in size and inconvenient to detach and replace, and the ink cartridge of the current ink-jet printing printer usually needs two persons to cooperate when adding ink and replacing ink with different concentrations, and the ink cartridge is replaced in a manual mode, so that time and labor are wasted, carelessness is caused, the ink cartridge is not clamped or falls into the printer shell easily, and the final printing effect is influenced.

Disclosure of Invention

The embodiment of the application provides an ink jet printing system, can save the time of artifical change ink horn to avoid the risk of artificial operation making mistakes.

In order to achieve the above effects, the technical solution provided by the present application is as follows:

an ink-jet printing system comprises an ink-jet printing device and a control mechanism interacting with the ink-jet printing device, wherein the ink-jet printing device comprises an ink storage mechanism, an ink-jet mechanism and an ink changing mechanism;

the ink storage mechanism comprises an ink supply assembly and an ink storage assembly, and the ink supply assembly and the ink storage assembly are used for storing a certain amount of ink;

the ink jetting mechanism is connected with the ink storage mechanism and is used for jetting ink from the ink supply assembly;

the ink changing mechanism is positioned on one side, away from the ink jetting mechanism, of the ink storage mechanism and is used for adding or replacing ink in the ink storage assembly into the ink supply assembly;

the control mechanism is wirelessly connected with the ink changing mechanism and used for sending the preset control signal to the ink changing mechanism;

the ink changing mechanism comprises a controller, and the controller is used for receiving the preset control signal and controlling the ink changing mechanism to move towards the direction of the ink supply assembly or the direction of the ink storage assembly according to the preset control signal.

In the inkjet printing system that this application embodiment provided, ink changing mechanism includes removal subassembly and with removal subassembly sliding connection's shallow, the removal subassembly is used for driving the shallow towards the direction of supplying ink subassembly or store up the direction of ink subassembly and remove, the shallow is used for adding or changing the ink in the ink subassembly of storing up to supply ink subassembly in.

In the inkjet printing system provided by the embodiment of the application, the inkjet printing device further comprises a rail extending from the ink changing mechanism to the ink storing mechanism, and the moving assembly comprises a first guide rail and a second guide rail;

the first rail is slidably connected to the track along a first direction, the second rail is slidably connected to the first rail along a second direction, and the cart is slidably connected to the second rail along a third direction; wherein,

the first direction is a direction in which the ink changing mechanism points to the ink storing mechanism, the second direction is a direction perpendicular to the rail, and the third direction is a direction in which the first guide rail points to the second guide rail.

In the inkjet printing system provided by the embodiment of the application, the ink supply assembly at least comprises a jet ink box, the output end of the jet ink box is connected with the inkjet mechanism, and the input end of the jet ink box is close to the ink changing mechanism;

the ink storage assembly at least comprises a storage ink box, and the output end of the storage ink box is close to the ink changing mechanism;

set up the blotting part on the shallow, change ink horn and injection ink part, the blotting part be used for with ink in the storage ink horn adsorbs extremely in the change ink horn, it is used for storing to change the ink horn ink in the storage ink horn, injection ink part be used for with ink in the change ink horn adds or changes extremely in the injection ink horn.

In the inkjet printing system provided by the embodiment of the application, the concentration of the ink stored in the jet ink box and the concentration of the ink stored in the storage ink box are the same or different.

In the inkjet printing system provided by the embodiment of the application, the jet ink box comprises a first positioner, and the storage ink box comprises a second positioner;

a first preset control signal is arranged in the control mechanism, and the control mechanism is used for sending the first preset control signal to the ink changing mechanism;

the controller is used for receiving the first preset control signal and controlling the ink changing mechanism to move towards the direction of the first positioner or the direction of the second positioner according to the first preset control signal.

In the inkjet printing system provided by the embodiment of the application, the control mechanism is wirelessly connected with the first guide rail and used for sending the first preset control signal to the first guide rail, the control mechanism is wirelessly connected with the second guide rail and used for sending the first preset control signal to the second guide rail, and the control mechanism is wirelessly connected with the cart and used for sending the first preset control signal to the cart;

the first guide rail comprises a first controller, and the first controller is used for receiving the first preset control signal and controlling the first guide rail to move along the first direction according to the first preset control signal; the second guide rail comprises a second controller, and the second controller is used for receiving the first preset control signal and controlling the second guide rail to move along the second direction according to the second preset control signal; the cart comprises a third controller, and the third controller is used for receiving the first preset control signal and controlling the cart to move along the third direction according to the third preset control signal.

In the inkjet printing system provided by the embodiment of the application, the first positioner comprises a first indicator light, the second positioner comprises a second indicator light, the cart comprises a touch sensing switch and a power supply assembly, and one end of the touch sensing switch is connected with the power supply assembly;

when the ink changing mechanism moves towards the direction of the first positioner or the direction of the second positioner, the other end of the touch induction switch is arranged opposite to the first indicator light or the second indicator light.

In the inkjet printing system that this application embodiment provided, inkjet printing device still includes first control subassembly and second control subassembly, first control subassembly is used for real time monitoring the position of shallow, the second control subassembly is used for real time monitoring the position of spraying the ink horn with the position of storing the ink horn.

In the inkjet printing system provided by the embodiment of the application, the control mechanism comprises a first display unit and a second display unit;

the first display unit is used for receiving the cart position picture monitored by the first monitoring component in real time; the second display unit is used for receiving the position picture of the ink jetting box and the position picture of the ink storage box which are monitored by the second monitoring component in real time.

The beneficial effects of the embodiment of the application are as follows: the embodiment of the application provides an ink-jet printing system, wherein a control mechanism is internally provided with a preset control signal, and the control mechanism is wirelessly connected with an ink changing mechanism and is used for sending the preset control signal to the ink changing mechanism; the ink changing mechanism comprises a controller, the controller is used for receiving the preset control signal and controlling the ink changing mechanism to move towards the direction of the ink supply assembly or the direction of the ink storage assembly according to the preset control signal, so that the ink in the ink supply assembly is remotely added or changed, the time for manually changing the ink box is saved, and the risk of mistakes caused by manual operation is avoided.

Drawings

The technical solutions and other advantages of the present application will become apparent from the following detailed description of specific embodiments of the present application when taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic structural diagram of an inkjet printing apparatus according to an embodiment of the present application;

fig. 2 is a structural view of an ink storing mechanism provided in an embodiment of the present application;

FIG. 3 is a schematic view of an ink changing mechanism provided in an embodiment of the present application;

fig. 4 is a structural diagram of a control mechanism provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Furthermore, it should be understood that the detailed description and specific examples, while indicating exemplary embodiments of the invention, are given by way of illustration and explanation only, and are not intended to limit the scope of the invention. In this application, where the context requires otherwise, the words "upper" and "lower" used in relation to the device in use or operation will generally refer to the upper and lower extremities of the device, particularly as oriented in the drawing figures; while "inner" and "outer" are with respect to the outline of the device.

The embodiment of the application provides an ink-jet printing system. The following are detailed descriptions. It should be noted that the following description of the embodiments is not intended to limit the preferred order of the embodiments.

Referring to fig. 1 to 4, an inkjet printing system according to an embodiment of the present disclosure includes an inkjet printing apparatus 10 and a control mechanism 20 interacting with the inkjet printing apparatus 10, where the inkjet printing apparatus 10 includes an ink storage mechanism 11, an inkjet mechanism 12 and an ink changing mechanism 13;

the ink storage mechanism 11 includes an ink supply assembly 111 and an ink storage assembly 112, and the ink supply assembly 111 and the ink storage assembly 112 are both used for storing a certain amount of ink;

the ink ejection mechanism 12 is connected to the ink storage mechanism 11, and the ink ejection mechanism 12 is used for ejecting ink from the ink supply assembly 111;

the ink changing mechanism 13 is located on a side of the ink storing mechanism 11 far away from the ink jetting mechanism 12, and the ink changing mechanism 13 is used for adding or replacing ink in the ink storing assembly 112 into the ink supplying assembly 111;

a preset control signal is arranged in the control mechanism 20, and the control mechanism 20 is wirelessly connected with the ink changing mechanism 13 and is used for sending the preset control signal to the ink changing mechanism 13;

the ink changing mechanism 13 includes a controller (not shown) for receiving the preset control signal and controlling the ink changing mechanism 13 to move toward the ink supply assembly 111 or the ink storage assembly 112 according to the preset control signal.

It can be understood that, in the prior art, an inkjet printing method is commonly used to prepare a light emitting device of an organic light-emitting diode (OLED), in the inkjet printing process, inks with different concentrations need to be used, when an ink cartridge of an inkjet printer is filled with ink or the inks with different concentrations are replaced, two persons are generally required to cooperate to replace the ink cartridge in a manual manner, which not only wastes time and labor, but also causes a risk of mistakes in manual operation, for example, an error occurs in manual operation, and the ink cartridge is not clamped or dropped into the printer.

In the implementation of the present application, a preset control signal is provided in a control mechanism 20, and the control mechanism 20 is wirelessly connected to the ink changing mechanism 13 and is configured to send the preset control signal to the ink changing mechanism 13; the ink changing mechanism 13 comprises a controller, and the controller is used for receiving the preset control signal and controlling the ink changing mechanism 13 to move towards the direction of the ink supply assembly 111 or the direction of the ink storage assembly 112 according to the preset control signal, so that the ink in the ink supply assembly 111 is added or replaced remotely, the time for manually replacing the ink cartridge is saved, and the risk of mistakes caused by manual operation is avoided.

The technical solution of the present application will now be described with reference to specific embodiments.

In one embodiment, please refer to fig. 1, fig. 2, fig. 3, and fig. 4; fig. 1 is a schematic structural diagram of an inkjet printing apparatus provided in an embodiment of the present application; fig. 2 is a structural view of an ink storing mechanism provided in an embodiment of the present application; FIG. 3 is a schematic structural view of an ink changing mechanism provided in an embodiment of the present application; fig. 4 is a structural view of a control mechanism provided in an embodiment of the present application.

The present embodiment provides an inkjet printing system, which includes an inkjet printing apparatus 10 and a control mechanism 20 interacting with the inkjet printing apparatus 10, where the inkjet printing apparatus 10 includes an ink storage mechanism 11, an inkjet mechanism 12 and an ink changing mechanism 13.

Specifically, the inkjet printing system includes a glove box 30, the inkjet printing apparatus 10 is disposed inside the glove box 30, the inkjet printer includes a cradle (not shown in the drawings), the ink storage mechanism 11 is disposed on the cradle, the ink storage mechanism 11 includes an ink supply assembly 111 and an ink storage assembly 112, and the ink supply assembly 111 and the ink storage assembly 112 are both used for storing a certain amount of ink; the ink jet mechanism 12 is located between the glove box 30 and the ink storage mechanism 11, the ink jet mechanism 12 is connected with the ink storage mechanism 11, and the ink jet mechanism 12 is used for jetting ink from the ink supply assembly 111; the ink changing mechanism 13 is located on a side of the ink storing mechanism 11 away from the ink jetting mechanism 12, and the ink changing mechanism 13 is used for adding or replacing the ink in the ink storing assembly 112 into the ink supplying assembly 111.

A preset control signal is arranged in the control mechanism 20, and the control mechanism 20 is wirelessly connected with the ink changing mechanism 13 and is used for sending the preset control signal to the ink changing mechanism 13; the ink changing mechanism 13 includes a controller (not shown) for receiving the preset control signal and controlling the ink changing mechanism 13 to move toward the ink supply assembly 111 or the ink storage assembly 112 according to the preset control signal.

It is understood that, in the present embodiment, by providing a preset control signal in the control mechanism 20, the control mechanism 20 is wirelessly connected with the ink changing mechanism 13 and is configured to send the preset control signal to the ink changing mechanism 13; the ink changing mechanism 13 comprises a controller, and the controller is configured to receive the preset control signal, and control the ink changing mechanism 13 to move towards the direction of the ink supply assembly 111 or the direction of the ink storage assembly 112 according to the preset control signal, so as to remotely add or replace the ink in the ink supply assembly 111, save the time for manually replacing the ink cartridge, and avoid the risk of mistakes caused by manual operations.

Further, the ink changing mechanism 13 includes a moving assembly 131 and a cart 132 slidably connected to the moving assembly 131, the moving assembly 131 is configured to drive the cart 132 to move toward the ink supplying assembly 111 or the ink storing assembly 112, and the cart 132 is configured to add or replace the ink in the ink storing assembly 112 into the ink supplying assembly 111; specifically, the inkjet printing system further includes a rail (not shown in the drawings) extending from the ink changing mechanism 13 toward the ink storing mechanism 11, the moving assembly 131 includes a first rail 131A and a second rail 131B, the first rail 131A is slidably connected to the rail in a first direction X, the second rail 131B is slidably connected to the first rail 131A in a second direction Z, and the cart 132 is slidably connected to the second rail 131B in a third direction Y; the first direction is a direction in which the ink changing mechanism 13 points to the ink storing mechanism 11, the second direction is a direction perpendicular to the rail, and the third direction is a direction in which the first rail 131A points to the second rail 131B.

It should be noted that, in this embodiment, the technical solution of the present application is exemplified by taking the first direction as the X direction in fig. 2, the second direction as the Z direction in fig. 2, and the third direction as the Y direction in fig. 3 as an example.

It is understood that, in the present embodiment, by providing that the inkjet printing apparatus 10 further includes a rail extending from the ink changing mechanism 13 toward the ink storing mechanism 11, the moving assembly 131 includes a first rail 131A and a second rail 131B; the first rail 131A is slidably connected to the track along a first direction X, the second rail 131B is slidably connected to the first rail 131A along a second direction Z, and the cart 132 is slidably connected to the second rail 131B along a third direction Y; thereby enabling the cart 132 to be movable in the first direction X, the second direction Z and the direction within the inkjet printing apparatus 10.

Preferably, the rails include a first rail (not shown) and a second rail (not shown) which are oppositely arranged, and the first rail is parallel to the second rail in a direction perpendicular to the glove box 30; the first guide rail 131A comprises a first sub-rail 131A1 and a second sub-rail 131A2 which are oppositely arranged, the first sub-rail 131A1 is parallel to the second sub-rail 131A2 in the direction perpendicular to the glove box 30, the second guide rail 131B is located between the first sub-rail 131A1 and the second sub-rail 131A2, wherein the first sub-rail 131A1 is perpendicular to the first track, and the first sub-rail 131A1 is slidably connected to the first track along the first direction X; the second sub-rail 131a2 is perpendicular to the second rail to which the second sub-rail 131a2 is slidably connected in the first direction X; the second rail 131B is perpendicular to the first sub-rail 131a1, one end of the second rail 131B is slidably connected to the first sub-rail 131a1 along the second direction Z, the second rail 131B is perpendicular to the second sub-rail 131a2, and the other end of the second rail 131B is slidably connected to the second sub-rail 131a2 along the second direction Z, so that the cart 132 can move smoothly toward the direction of the ink supply assembly 111 or the direction of the ink storage assembly 112, thereby improving the reliability of the ink exchange mechanism 13 for adding or exchanging ink in the ink storage assembly 112 to the ink supply assembly 111.

It is understood that the tracks including the first track and the second track arranged oppositely and the first track 131A including the first sub-track 131A1 and the second sub-track 131A2 arranged oppositely are only used for illustration, and the present embodiment does not specifically limit the moving track of the ink changing mechanism 13 to the ink storing mechanism 11.

It should be noted that, in this embodiment, the inkjet printing apparatus 10 further includes a first driving motor (not shown in the figure) located between the first sub-rail 131a1 and the first rail, a second driving motor (not shown in the figure) located between the second sub-rail 131a2 and the second rail, a third driving motor (not shown in the figure) located between the second rail 131B and the first sub-rail 131a1, a fourth driving motor (not shown in the figure) located between the second rail 131B and the second sub-rail 131a2, and a fifth driving motor (not shown in the figure) located between the cart 132 and the second rail 131B, and the present embodiment exemplifies the technical solution of the present application by taking the driving motors as examples to realize the movement of the ink changing mechanism 13.

In this embodiment, the ink supply assembly 111 at least includes a jet cartridge 111A, an output end of the jet cartridge 111A is connected to the ink ejecting mechanism 12, and an input end of the jet cartridge 111A is close to the ink changing mechanism 13; the ink storage assembly 112 includes at least one storage cartridge 112A, and an output end of the storage cartridge 112A is close to the ink changing mechanism 13.

Specifically, the concentration of the ink stored in the inkjet cartridge 111A is the same as or different from the concentration of the ink stored in the storage cartridge 112A, the inkjet mechanism 12 includes a printing head (not shown) and an ink inlet tube (not shown), the output end of the inkjet cartridge 111A includes an ink outlet hole (not shown), the ink inlet tube is matched with the ink outlet hole, and the printing head ejects the ink in the ink supply assembly 111 through the ink inlet tube.

It should be noted that, in the present embodiment, the ink supply assembly 111 includes a first jet cartridge 111a1, the ink storage assembly 112 includes a first storage cartridge 112a1, a second storage cartridge 112a2 and a third storage cartridge 112A3, the concentration of the ink stored in the first jet cartridge 111a1 is the same as the concentration of the ink stored in the first storage cartridge 112a1, the concentration of the ink stored in the first jet cartridge 111a1 is different from the concentration of the ink stored in the second storage cartridge 112a2, and the concentration of the ink stored in the second storage cartridge 112a2 is different from the concentration of the ink stored in the third storage cartridge 112 A3.

In the present embodiment, the cart 132 is provided with an ink absorbing member (not shown) for absorbing the ink in the storage cartridge 112A into the replacement cartridge (not shown) for storing the ink in the storage cartridge 112A, a replacement cartridge (not shown) for adding or replacing the ink in the storage cartridge 112A into the ejection cartridge 111A, and an injected ink member (not shown).

In this embodiment, when the ink in the first jet cartridge 111a1 runs out, one of the first reservoir cartridge 112a1, the second reservoir cartridge 112a2, and the third reservoir cartridge 112A3 may be selected (for example, the first reservoir cartridge 112a1 is selected), the control mechanism 20 controls the moving component 131 to move the cart 132 towards the first storage ink box 112A1, the ink absorbing component is used to absorb the ink in the first storage ink box 112A1 into the replacement ink box, the control mechanism 20 then controls the moving assembly 131 to move the cart 132 toward the first jet cartridge 111A1, and the ink in the replacement cartridge is added to the first jet cartridge 111A1 by the ink injection component, so as to add the ink in the jet cartridge 111A.

It can be understood that, in the present embodiment, the technical solution of the present application is exemplified by adding the ink in the first inkjet cartridge 111a1, when the ink in the first inkjet cartridge 111a1 needs to be replaced, the flow of the method is similar to the above adding the ink in the first inkjet cartridge 111a1, and the description of the embodiment is omitted here.

In this embodiment, the ejection cartridge 111A includes a first locator 111B1, and the storage cartridge 112A includes a second locator 112B 1; a first preset control signal is arranged in the control mechanism 20, and the control mechanism 20 is used for sending the preset control signal to the ink changing mechanism 13; the controller is configured to receive the first preset control signal, and control the ink changing mechanism 13 to move toward the first positioner 111B1 or the second positioner 112B1 according to the first preset control signal.

Specifically, in this embodiment, the first jet cartridge 111a1 includes the first detent 111B1, the first reservoir cartridge 112a1 includes the second detent 112B1, the second reservoir cartridge 112a2 includes the third detent 112B2, and the third reservoir cartridge 112A3 includes the fourth detent 112B 3.

The control mechanism 20 is wirelessly connected to the first rail 131A and configured to send the first preset control signal to the first rail 131A, the control mechanism 20 is wirelessly connected to the second rail 131B and configured to send the first preset control signal to the second rail 131B, and the control mechanism 20 is wirelessly connected to the cart 132 and configured to send the first preset control signal to the cart 132; the first guide rail 131A includes a first controller (not shown in the figure), and the first controller is configured to receive the first preset control signal and control the first guide rail 131A to move along the first direction X according to the first preset control signal; the second guiding rail 131B comprises a second controller (not shown in the figure), and the second controller is configured to receive the first preset control signal and control the second guiding rail 131B to move along the second direction Z according to the second preset control signal; the cart 132 includes a third controller (not shown), and the third controller is configured to receive the first preset control signal and control the cart 132 to move along the third direction Y according to the third preset control signal.

It is understood that, in this embodiment, when the ink in the first jet cartridge 111A1 runs out, one of the first storage cartridge 112a1, the second storage cartridge 112a2 and the third storage cartridge 112A3 may be selected (for example, the first storage cartridge 112a1 is selected), the first preset control signal is sent to the first rail 131A, the second rail 131B and the cart 132 through the control mechanism 20, and the first controller, the second controller and the third controller control the first rail 131A, the second rail 131B and the cart 132 to move towards the second positioner 112B1 according to the first preset control signal, and the ink in the first storage cartridge 112a1 is sucked into the replacement cartridge by the ink sucking member; then, the control mechanism 20 sends a second preset control signal to the first rail 131A, the second rail 131B and the cart 132, and the first controller, the second controller and the third controller control the first rail 131A, the second rail 131B and the cart 132 to move toward the first positioner 111B1 according to the second preset control signal, and the ink in the cartridge replacement is added into the first inkjet cartridge 111A1 by using the inkjet part, so that the ink addition in the inkjet cartridge 111A is automated, the time for manually replacing the cartridge is saved, and the risk of mistakes made by human operators is avoided.

It is understood that, in the present embodiment, the first preset control signal is taken as an instruction for controlling the ink changing mechanism 13 to move toward the ink storage assembly 112, and the first preset control signal is taken as an instruction for controlling the ink changing mechanism 13 to move toward the ink supply assembly 111 as an example, and the instruction for the preset control signal in the present embodiment is not particularly limited; meanwhile, the present embodiment does not specifically limit the method for the control mechanism 20 to transmit the first preset control signal and the second preset control signal, and preferably, the control mechanism includes a first input terminal 21, a second input terminal 22 and a determination key 23, the first preset control signal may be transmitted by inputting the number of the storage cartridge 112A in the first input terminal 21 and then transmitting through the determination key 23, and the first preset control signal may be transmitted by inputting the number of the storage cartridge 112A in the second input terminal 22 and then transmitting through the determination key 23.

In this embodiment, the first controller, the second controller, and the third controller all include, but are not limited to, Bluetooth Low Energy (BLE), the control mechanism 20 includes, but is not limited to, a mobile phone or a computer, and the control mechanism 20 includes a bluetooth transmitter; preferably, the first controller, the second controller and the third controller are all bluetooth low energy, and the bluetooth low energy is matched with a bluetooth transmitter in the control mechanism 20; it can be understood that the above-mentioned bluetooth low energy and bluetooth transmitter matching process is the prior art, and this embodiment will not be described again.

In this embodiment, the first controller controls the first driving motor to drive the first sub-rail 131a1 to slide on the first track, the first controller controls the second driving motor to drive the second sub-rail 131a2 to slide on the second track, the second controller controls the third driving motor to drive the second rail 131B to slide on the first sub-rail 131a1, the second controller controls the fourth driving motor to drive the second rail 131B to slide on the second sub-rail 131a2, and the third controller controls the fifth driving motor to drive the cart 132 to slide on the second rail 131B.

In this embodiment, the first locator 111B1 includes a first indicator light 111C1, the second locator 112B1 includes a second indicator light 112C1, the cart 132 includes a touch-sensitive switch (not shown) and a power module (not shown), and one end of the touch-sensitive switch is connected to the power module; wherein when the ink changing mechanism 13 moves toward the first positioner 111B1 or the second positioner 112B1, the other end of the touch sensing switch is disposed opposite to the first indicator light 111C1 or the second indicator light 112C 1.

Specifically, in this embodiment, the first jet cartridge 111a1 includes the first indicator light 111C1, the first storage cartridge 112a1 includes the second indicator light 112C1, the second storage cartridge 112a2 includes the third indicator light 112C2, and the third storage cartridge 112A3 includes the fourth indicator light 112C 3; wherein, the power supply assembly includes but is not limited to a five-size battery or a button-shaped dry battery, which is not limited in this application.

It is understood that, in this embodiment, when the ink in the first jet cartridge 111a1 runs out, one of the first storage cartridge 112a1, the second storage cartridge 112a2 and the third storage cartridge 112A3 may be selected (for example, the first storage cartridge 112a1 is selected), the control mechanism 20 controls the moving component 131 to move the cart 132 in the direction of the first storage cartridge 112a1, when the other end of the touch sensing switch contacts the second indicator 112C1, the second indicator 112C1 contacts the power supply component through the touch sensing switch, the second indicator 112C1 emits light, when the cart 132 is completely aligned with the first storage cartridge 112a1, the ink in the first storage cartridge 112a1 is sucked into the replacement cartridge by the ink sucking component, then, the control mechanism 20 controls the moving component 131 to drive the cart 132 to move towards the direction of the first jet ink cartridge 111A1, when the other end of the touch-control inductive switch contacts with the first indicator lamp 111C1, the first indicator lamp 111C1 contacts with the power supply component through the touch-control inductive switch, the first indicator lamp 111C1 emits light, at this time, the cart 132 and the first jet ink cartridge 111A1 are completely aligned, and the ink in the replacement ink cartridge is added into the first jet ink cartridge 111A1 by using the ink injection component, so that the addition of the ink in the jet ink cartridge 111A is realized, and further, when the existing ink cartridge is added or replaced manually, the risk of cartridge blocking due to inaccurate alignment is reduced.

It should be noted that, in this embodiment, the light emitting color of the first indicator light 111C1, the light emitting color of the second indicator light 112C1, the light emitting color of the third indicator light 112C2, the light emitting color of the fourth indicator light 112C3, the light emitting method of the first indicator light 111C1, the light emitting method of the second indicator light 112C1, the light emitting method of the third indicator light 112C2, and the light emitting method of the fourth indicator light 112C3 are not particularly limited.

In this embodiment, the control mechanism 20 further includes a first indicator 24a1 wirelessly connected to the first indicator lamp 111C1, a second indicator 24a2 wirelessly connected to the second indicator lamp 112C1, a third indicator 24A3 wirelessly connected to the third indicator lamp 112C2, and a fourth indicator 24a4 wirelessly connected to the fourth indicator lamp 112C 3; when the first indicator light 111C1 is illuminated, the first indicator 24a1 is illuminated simultaneously, when the second indicator light 112C1 is illuminated, the second indicator 24a2 is illuminated simultaneously, when the third indicator light 112C2 is illuminated, the third indicator 24A3 is illuminated simultaneously, and when the fourth indicator light 112C3 is illuminated, the fourth indicator 24a4 is illuminated simultaneously.

It can be understood that, in the present embodiment, by providing that the control mechanism 20 includes indicators corresponding to the indicator lamps one by one, the alignment of the cart 132 and the ejection cartridges 111A or the storage cartridges 112A can be remotely monitored, and the addition or replacement of the cartridges can be completed without opening the glove box 30; it should be noted that, the matching process between the indicator light and the indicator is the prior art, and this embodiment is not described again.

Further, in this embodiment, the inkjet printing apparatus 10 further includes a first monitoring component 141 and a second monitoring component 142, the first monitoring component 141 is configured to monitor the position of the cart 132 in real time, and the second monitoring component 142 is configured to monitor the position of the inkjet cartridge 111A and the position of the storage cartridge 112A in real time.

Specifically, the control mechanism 20 includes a first display unit 25 and a second display unit 26; the first display unit 25 is configured to receive the position picture of the cart 132 monitored by the first monitoring component 141 in real time; the second display unit 26 is configured to receive the image of the position of the inkjet cartridge 111A and the image of the position of the storage cartridge 112A, which are monitored by the second monitoring component 142 in real time.

In this embodiment, the position of the first monitoring component 141 is not particularly limited as long as the position of the cart 132 can be monitored in real time, the second monitoring component 142 is located on the cart 132, and both the first monitoring component 141 and the second monitoring component 142 include, but are not limited to, cameras; it can be understood that the present embodiment facilitates the addition or replacement of ink in the jet cartridge 111A by monitoring the position of the jet cartridge 111A and the position of the storage cartridge 112A in real time using the second monitoring component 142.

In summary, the present application provides an inkjet printing system, which includes an inkjet printing apparatus and a control mechanism interacting with the inkjet printing apparatus, wherein the inkjet printing apparatus includes an ink storage mechanism, an inkjet mechanism, and an ink changing mechanism; the ink storage mechanism comprises an ink supply assembly and an ink storage assembly, and the ink supply assembly and the ink storage assembly are used for storing a certain amount of ink; the ink jetting mechanism is connected with the ink storage mechanism and is used for jetting ink from the ink supply assembly; the ink changing mechanism is positioned on one side, away from the ink jetting mechanism, of the ink storage mechanism and is used for adding or replacing ink in the ink storage assembly into the ink supply assembly; a preset control signal is arranged in the control mechanism, and the control mechanism is wirelessly connected with the ink changing mechanism and is used for sending the preset control signal to the ink changing mechanism; the ink changing mechanism comprises a controller, the controller is used for receiving the preset control signal and controlling the ink changing mechanism to move towards the direction of the ink supply assembly or the direction of the ink storage assembly according to the preset control signal, so that ink in the ink supply assembly is added or replaced remotely, the time for manually replacing the ink box is saved, and the risk of mistakes caused by manual operation is avoided.

The above embodiments of the present application are described in detail, and specific examples are applied herein to explain the principles and implementations of the present application, and the description of the above embodiments is only used to help understand the technical solutions and their core ideas of the present application; those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure as defined by the appended claims.

Claims (10)

1. An ink-jet printing system is characterized by comprising an ink-jet printing device and a control mechanism which is interacted with the ink-jet printing device, wherein the ink-jet printing device comprises an ink storage mechanism, an ink-jet mechanism and an ink changing mechanism;

the ink storage mechanism comprises an ink supply assembly and an ink storage assembly, and the ink supply assembly and the ink storage assembly are used for storing a certain amount of ink;

the ink jetting mechanism is connected with the ink storage mechanism and is used for jetting ink from the ink supply assembly;

the ink changing mechanism is positioned on one side of the ink storing mechanism, which is far away from the ink jetting mechanism, and is used for adding or replacing ink in the ink storing assembly into the ink supplying assembly;

the control mechanism is wirelessly connected with the ink changing mechanism and used for sending the preset control signal to the ink changing mechanism;

the ink changing mechanism comprises a controller, and the controller is used for receiving the preset control signal and controlling the ink changing mechanism to move towards the direction of the ink supply assembly or the direction of the ink storage assembly according to the preset control signal.

2. The inkjet printing system of claim 1, wherein the ink changing mechanism includes a moving assembly and a cart slidably coupled to the moving assembly, the moving assembly configured to move the cart in a direction toward the ink supply assembly or the ink reservoir assembly, the cart configured to add or replace ink in the ink reservoir assembly into the ink supply assembly.

3. The inkjet printing system of claim 2 wherein said inkjet printing apparatus further includes a rail extending from said ink change mechanism toward said ink reservoir, said movement assembly including a first rail and a second rail;

the first rail is slidably connected to the track along a first direction, the second rail is slidably connected to the first rail along a second direction, and the cart is slidably connected to the second rail along a third direction; wherein,

the first direction is a direction in which the ink changing mechanism points to the ink storing mechanism, the second direction is a direction perpendicular to the rail, and the third direction is a direction in which the first guide rail points to the second guide rail.

4. The inkjet printing system of claim 3 wherein said ink supply assembly includes at least one jet cartridge, an output end of said jet cartridge being connected to said ink ejection mechanism, an input end of said jet cartridge being adjacent to said ink replacement mechanism;

the ink storage assembly at least comprises a storage ink box, and the output end of the storage ink box is close to the ink changing mechanism;

set up the blotting part on the shallow, change ink horn and injection ink part, the blotting part be used for with ink in the storage ink horn adsorbs extremely in the change ink horn, it is used for storing to change the ink horn ink in the storage ink horn, injection ink part be used for with ink in the change ink horn adds or changes extremely in the injection ink horn.

5. The inkjet printing system of claim 4, wherein a concentration of ink stored within the jet cartridge and a concentration of ink stored within the storage cartridge are the same or different.

6. The inkjet printing system of claim 4 wherein the jet cartridge includes a first locator and the storage cartridge includes a second locator;

a first preset control signal is arranged in the control mechanism, and the control mechanism is used for sending the first preset control signal to the ink changing mechanism;

the controller is used for receiving the first preset control signal and controlling the ink changing mechanism to move towards the direction of the first positioner or the direction of the second positioner according to the first preset control signal.

7. The inkjet printing system of claim 6, wherein the control mechanism is wirelessly coupled to the first rail and configured to send the first preset control signal to the first rail, the control mechanism is wirelessly coupled to the second rail and configured to send the first preset control signal to the second rail, the control mechanism is wirelessly coupled to the cart and configured to send the first preset control signal to the cart;

the first guide rail comprises a first controller, and the first controller is used for receiving the first preset control signal and controlling the first guide rail to move along the first direction according to the first preset control signal; the second guide rail comprises a second controller, and the second controller is used for receiving the first preset control signal and controlling the second guide rail to move along the second direction according to the second preset control signal; the trolley comprises a third controller, wherein the third controller is used for receiving the first preset control signal and controlling the trolley to move along the third direction according to the third preset control signal.

8. The inkjet printing system of claim 7, wherein the first positioner includes a first indicator light, the second positioner includes a second indicator light, the cart includes a touch sensitive switch and a power supply component, one end of the touch sensitive switch is connected to the power supply component;

when the ink changing mechanism moves towards the direction of the first positioner or the direction of the second positioner, the other end of the touch induction switch is arranged opposite to the first indicator light or the second indicator light.

9. The inkjet printing system of claim 8, wherein the inkjet printing apparatus further includes a first monitoring component for monitoring a position of the cart in real time and a second monitoring component for monitoring a position of the jet cartridge and a position of the storage cartridge in real time.

10. The inkjet printing system of claim 9, wherein the control mechanism includes a first display unit and a second display unit;

the first display unit is used for receiving the cart position picture monitored by the first monitoring component in real time; the second display unit is used for receiving the position picture of the ink jetting box and the position picture of the ink storage box which are monitored by the second monitoring component in real time.

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