CN201998564U - Ink box filling device and system - Google Patents

Abstract

The utility model relates to an ink box filling device and an ink box filling system comprising the ink box filling device. The ink cartridge filling device includes: an ink container, an ink filling channel, an air intake channel, a suction device and a cover part, and the cover part is provided with a first sealing part for sealing the ink cartridge to be filled and a second sealing part for sealing the air intake channel. When injecting ink, the air of the sealed ink box can be extracted first so that the ink in the ink container flows into it, so that a negative pressure is formed in the ink container and the ink container is maintained under negative pressure to deliver ink to the ink box. Supplementing the air to the ink container can be carried out at different times in time, so that the interior of the ink cartridge filling device is in a negative pressure state after the ink cartridge is filled, and the excess ink in the sponge body can be removed when the filling device is opened, which solves the problem of existing ink cartridges. The technical problem that the ink cartridge will drop ink after the filling device is filled with ink.

Description

An ink cartridge filling device and an ink cartridge filling system

technical field

The utility model relates to the field of inkjet technology, in particular to an ink box filling device for refilling the ink box under negative pressure, an ink box filling system and a corresponding ink box filling method.

Background technique

The inkjet print head is an essential component of the inkjet printer, the printhead is arranged on the carriage that moves back and forth of the inkjet printer, and ejects ink onto the recording medium as the carriage moves to form an image. As an ink storage container, the ink cartridge is responsible for supplying ink to the print head, but the ink cartridge has a fixed ink capacity. After the ink inside is exhausted, the user often needs to replace the ink cartridge. However, most of the old ink cartridges include plastics, chips and other components, most of which cannot be degraded naturally. Obviously, directly discarding the old ink cartridges will easily cause resource waste, environmental pollution, and increase the printing cost of users. For this reason, it is the most economical and environmentally friendly way to refill old ink cartridges with ink so that they can be reused. Ink cartridge filling devices of various structures have appeared in response to this requirement.

Chinese patent CN200620061311.X discloses a negative pressure ink cartridge filling device. The filling device includes an air pumping mechanism and an ink injection mechanism, wherein the air pumping mechanism is composed of an air cylinder and a piston, the air cylinder includes a sealed cavity and a connection port connecting the outside with the above-mentioned sealed cavity, and the piston is located in the sealed cavity in an airtight manner The ink filling mechanism consists of an ink storage chamber and an ink filling port that communicates with the outside and the ink storage chamber. The ink storage chamber communicates with the air cylinder through a conduit to seal the cavity relative to the connection port outside the piston. The method of filling ink by using the above-mentioned negative pressure ink cartridge filling device is as follows: suck the ink into the ink storage chamber of the ink cartridge filling device in advance, and then align the connection port and the ink filling port with the air pumping hole and the ink filling hole of the ink cartridge respectively. Realize that the air in the ink cartridge is pumped out, and the ink is injected into the ink cartridge at the same time, and the two links are carried out synchronously.

Obviously, for ink cartridges that use check valves to limit and control the flow direction of ink, the above filling method is more convenient; however, for ink cartridges that use sponges to control the negative pressure inside the ink cartridges, the above filling methods have the following defects: the sponge cavity The spongy body of the sponge body will easily cause an oversaturated state after ink filling. If the ink cartridge after ink filling is directly removed at this time, ink dripping will easily occur, thereby polluting the environment or dirtying the user's hands and clothes.

Utility model content

The utility model provides an ink box filling device to solve the technical problem that ink dripping occurs in the ink box after the existing ink box filling device is filled with ink.

In order to solve the above technical problems, the technical scheme that the utility model takes is:

A negative pressure ink cartridge filling device is used to inject ink into the ink cartridge to be filled, which includes:

an ink container for storing the ink required for the filling operation;

an ink filling channel, communicated with the ink container, for delivering the ink in the ink container to the ink cartridge to be filled;

an air intake channel, communicated with the ink container, for supplementing air into the ink container;

Aspirator for sucking air from the cartridge to be filled;

cover parts;

It is characterized in that the cover member is provided with a first sealing portion for sealing the ink cartridge to be filled and a second sealing portion for sealing the air intake passage.

The ink cartridge filling device further includes an ink cartridge positioning mechanism for positioning the ink cartridge to be filled on the ink cartridge filling device, and the ink cartridge positioning mechanism is connected to the cover member through a rotating shaft.

The first sealing portion is closer to the shaft than the second sealing portion.

The first sealing part is a first elastic pad provided on the cover part, and the second sealing part is a second elastic pad provided on the cover part.

The first sealing portion consists of a raised portion protruding from the cover member and an elastic sleeve associated therewith. The second sealing portion consists of an extension protruding from the cover member and a seal cooperating with the extension.

The ink cartridge filling device is also provided with a delay action part, so that the first sealing part maintains the state of sealing the ink cartridge to be filled after the second sealing part opens the air intake passage.

The delayed action component is an elastic component that cooperates with the first sealing component.

The deformation amount of the first elastic pad is greater than the deformation amount of the second elastic pad.

The deformation amount of the elastic sleeve is greater than the deformation amount of the sealing element.

The cover part is also provided with an extension hook, and the positioning mechanism is provided with a slot matching the extension hook.

The utility model simultaneously provides an ink cartridge filling system which solves the above problems.

A negative-pressure ink box filling system includes an ink box to be filled and the above-mentioned ink box filling device.

The ink box to be filled includes: a cavity for storing ink, a sponge body placed in the cavity to maintain negative pressure inside the ink box, an ink outlet that guides the ink in the ink storage cavity to the outside of the ink box, and supplementary air to the ink storage cavity The air inlet and the ink filling port for injecting ink into the ink storage chamber.

The cavity is divided into an ink cavity for containing ink and a negative pressure cavity for containing sponge body.

The first sealing portion is provided on the cover member at a position corresponding to the air inlet of the ink cartridge to be filled.

A through hole is formed on the cover part at a position corresponding to the ink filling port of the ink cartridge to be filled.

A movable ejector rod is arranged at the through hole, which is used to remove the sealing member sealing the ink filling port.

After adopting the above technical solution, since the cover part is provided with a first sealing part for sealing the ink cartridge to be filled and a second sealing part for sealing the air intake passage. When injecting ink, the air of the sealed ink box can be extracted first so that the ink in the ink container flows into it, so that a negative pressure is formed in the ink container and the ink container is maintained under negative pressure to deliver ink to the ink box. Supplementing the air to the ink container can be carried out at different times in time, so that the interior of the ink cartridge filling device is in a negative pressure state after the ink cartridge is filled, and the excess ink in the sponge body can be removed when the filling device is opened, which solves the problem of existing ink cartridges. The technical problem that the ink cartridge will drop ink after the filling device is filled with ink.

Description of drawings

Figure 1a is a schematic diagram of the appearance of the ink cartridges of Embodiment 1 and Embodiment 2 of the present utility model, and Figure 1b is a schematic diagram of the structure of the ink cartridge;

Fig. 2a is a schematic diagram of the appearance of the ink cartridge filling device in Embodiment 1 of the present invention, and Fig. 2b is a schematic diagram of opening the ink cartridge filling device;

Fig. 3 is an exploded schematic view of the aspirator in Embodiment 1 of the present utility model;

Figure 4a is a schematic diagram of the state of the ink cartridge filling device and the ink cartridge in Embodiment 1 of the present utility model - the state of the ink cartridge being loaded;

Figure 4b is a schematic diagram of the state of the ink cartridge filling device and the ink cartridge in Embodiment 1 of the present utility model 2-the aspirator insertion state;

Figure 4c is a schematic diagram of the state of the ink cartridge filling device and the ink cartridge in Embodiment 1 of the present utility model 3-suction step;

Figure 4d is a schematic diagram of the state of the ink cartridge filling device and the ink cartridge in Embodiment 1 of the present utility model 4-ink filling is completed;

Figure 4e is a schematic diagram of the state of the ink cartridge filling device and the ink cartridge in Embodiment 1 of the present utility model 5 - opening the filling device;

Figure 4f is a schematic diagram of the flow of fluid in the ink cartridge in Figure 4e;

Fig. 5 is a schematic diagram of an ink cartridge filling device according to Embodiment 2 of the present invention;

Fig. 6 is a schematic diagram of the third embodiment of the utility model.

Explanation of symbols: 1 cartridge filling device, 10 ink container, 11 ink filling channel, 111 outlet port, 112 inlet port, 113 sealing ring, 12 air inlet channel, 121 air inlet port, 122 air outlet port, 13 aspirator, 131 barrel Body, 132 piston, 133 piston rod, 134 barrel cover, 135 handle, 136 air nozzle, 14 cover part, 141 protrusion, 142 elastic sleeve, 143 extension, 144 seal, 145 extension hook, 146 through hole , 147 connecting end, 148 free end, 15 cartridge positioning mechanism, 151 card slot, 152 positioning column, 153 support part, 16 friction part, 17 ejector rod, 18 rubber plug, 19 coil spring, 2 ink cartridge, 20 ink chamber, 21 Negative pressure chamber, 211 sponge body, 22 ink outlet, 221 cotton core, 23 air inlet, 24 ink filling port, 25 movable rod, 251 first joint part, 26 second joint part, 27 prism, 28 concave part , 29 partitions, 291 communication port, A suction device pulling direction.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the utility model more clear, the technical solutions in the embodiments of the utility model will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the utility model. Obviously, the described The embodiments are some embodiments of the present utility model, rather than all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

The main technical solution of the utility model is: the cover part is provided with a first sealing part for sealing the ink cartridge and a second sealing part for sealing the air intake passage, so that when the ink cartridge filling device is used to fill the ink cartridge, a gap is formed between the ink cartridge filling device and the ink cartridge. In a closed space, the external air cannot replenish the ink container, and the ink cartridge will have a negative pressure after filling ink. When the ink cartridge filling device is opened, the external air will replenish the ink cartridge, and the excess ink in the ink cartridge will flow to the ink container. In this way, there will be no dripping phenomenon.

The technical solutions of the present utility model will be further described below through the accompanying drawings and specific embodiments.

Embodiment one:

An inkjet printer cartridge 1 is detachably mounted on the inkjet printer, and is used for supplying ink to the inkjet printing head of the inkjet printer to form images or characters on a recording medium. Fig. 1a is a schematic diagram of the appearance of the ink cartridge 2 to be filled in this embodiment, and Fig. 1b is a schematic diagram of its structure.

As shown in FIG. 1a, the ink cartridge 2 is composed of a box body and a box cover, both of which are made of plastic, and are welded together to form a closed chamber. As shown in Figure 1b, the above-mentioned airtight chamber is divided into a negative pressure chamber 21 and an ink chamber 20 by a partition 29, and the negative pressure chamber 21 and the ink chamber 20 communicate with each other only through a communication port 291 arranged below the partition 29. . Wherein, ink chamber 20 stores ink for printing operations, and ink chamber 21 basically forms a closed space except for communication port 291; negative pressure chamber 21 includes an absorbing member for holding ink, and the absorbing member is mostly Made of porous material, in this embodiment, it is preferably a sponge body 211, that is, the sponge body 211 can absorb and hold ink by its own capillary force, thereby controlling the negative pressure inside the ink cartridge 2, and the negative pressure chamber 21 The bottom wall is also provided with an ink outlet 22 for guiding the ink of the ink cartridge 2 to the print head of the printer, and the top wall of the negative pressure chamber 21 is also provided with an air inlet 23 for supplementing external air into the interior of the ink cartridge 2 . Therefore, as the ink in the negative pressure chamber 21 is consumed for printing and recording, the ink in the ink chamber 20 enters the negative pressure chamber 21 through the communication port 291, and the air in the negative pressure chamber 21 also enters through the communication port 291. In the ink chamber 20, the ink in the ink chamber 20 and the air in the negative pressure chamber 21 carry out gas-liquid exchange at the communication port 291; Constantly replenished into cartridge 2.

As shown in Figure 1 b, a cotton core 221 is also arranged in the ink outlet 22, and its density is higher than the sponge body 211 in the negative pressure chamber 21, and when the ink cartridge 2 is loaded on the printer, it is connected with the ink supply port on the printer. contact to guide the ink to flow to the ink outlet 22 and be supplied into the printhead via the above-mentioned ink supply port. In addition, the ink cartridge 2 is also provided with an ink filling port 23, which is used to fill the ink cartridge 2 with ink. In this embodiment, it is arranged above the ink chamber 20, and it is usually sealed with a steel ball after the first ink filling. Prevent the ink cartridge 2 from leaking during transportation or use. At the same time, as shown in FIG. 1 b , a prism 27 for detecting the ink-end state of the ink cartridge 2 is also provided on the bottom wall of the ink chamber 20 . The process of using the prism 27 to detect the remaining amount of ink is a mature technology in the field, and will not be repeated here. In addition, as shown in Figures 1a and 1b, a movable rod 25 with a first engaging portion 251 and a second engaging portion 26 are also provided on the two side walls of the ink cartridge 2, and the bottom wall is near the movable rod 25. There is also a recess 28, which can cooperate with the locking mechanism of the printer when the ink cartridge 2 is loaded into the printer to fix the ink cartridge 2 in the printer;

Fig. 2a is a schematic view of the appearance of the ink cartridge filling device 1 of this embodiment, and Fig. 2b is an open schematic view of the ink cartridge filling device 1 of this embodiment. As shown in Figures 2a and 2b, the ink cartridge filling device 1 includes: an ink container 10, which stores the ink that is output to the above-mentioned ink cartridge 2 to be filled when the filling operation is carried out; an ink filling channel 11, located in the ink container 10, for filling the ink container The ink in 10 is transported in the ink cartridge 2, and it comprises an outlet end 111 that is connected with the ink outlet 22 of above-mentioned ink cartridge 2 and the inlet end 112 that guides ink to flow in the channel from ink container 10; Air intake channel 12, is positioned at ink container Above 10, it is used to add air from the outside to the ink container 10, which includes an air inlet 121 communicated with the outside atmosphere and an air outlet 122 communicated with the ink container 10; the aspirator 13 is connected to the ink filling port 23 of the ink cartridge 2 Connect to suck the air of ink cartridge 2, as shown in Figure 3, it is made up of cylinder body 131, piston 132, piston rod 133, cylinder cover 134, handle 135, suction nozzle 136, wherein, suction nozzle 136 and cylinder The body 131 is integrally formed, the cylinder body 131 is connected with the cylinder cover 134 to form a closed space, the piston 132 is solidified with the piston rod 133, and the handle 135 is connected with the piston rod 133, then the user holds the handle 135 to pull the piston rod 133 can pull the piston 132 to make it move up and down in the cylinder body 131 to suck or discharge air; the ink cartridge positioning mechanism 15 is used to position the ink cartridge 2 on the filling device 1, as shown in Figure 2b, there is a The corresponding structure matched with the first joint part 251 and the second joint part 26 of the ink cartridge 2, and the support part 153 abutting against the bottom wall of the ink cartridge 2 and the above-mentioned concave part 28 of the ink cartridge 2 are provided on the bottom wall. The positioning column 152, obviously, can accurately position the ink cartridge 2 in the filling device 1. In addition, the positioning mechanism 15 and the ink container 10 can be integrally formed by snap connection or welding. In this embodiment, in order to reduce the processing process, preferably, it is integrally formed with the ink container 10 through an injection molding process, and as shown in FIG. 10, it is used to fix the ink cartridge 2 in the ink cartridge filling device 1. In this embodiment, preferably, the cover member 14 is connected to the above-mentioned ink cartridge positioning mechanism 15 by a rotation shaft, as shown in FIG. 2b, to be precise, the cover member 14 One end is the connection end 147 connected with the positioning mechanism as a rotating shaft, that is, the cover part 14 can rotate a certain angle around the positioning mechanism 15, and the other end is a free end 148, and there is also a protruding from its inner side near the free end 148. The two extension hooks 145a, 145b can be engaged with the above-mentioned two draw-in grooves 151a, 151b of the ink cartridge positioning mechanism 15, so that when the ink cartridge 2 is loaded into the ink cartridge positioning mechanism 15, the cover part 14 can fix it on the ink cartridge filling device 1 superior.

As shown in FIG. 2b and FIG. 4a , the cover member 14 is further provided with a first sealing portion and a second sealing portion for keeping the ink cartridge 2 and the filling device 1 in a sealed state when filling. The first sealing part can be the elastic cushion that is arranged on cover member 14 and the corresponding position of ink cartridge air inlet 23, and the thickness of elastic cushion then can be determined according to the distance between cover member 14 inner side and ink cartridge 2 top walls, but, in In this embodiment, in order to ensure the tightness of the ink cartridge 2, preferably, the first sealing part is composed of a protruding part 141 and an elastic sleeve 142: the protruding part 141 protrudes from the inside of the cover part 14 and is arranged on the inside of the cover part 14 At the position corresponding to the air inlet 23 of the ink cartridge 2, to be precise, when the cover member 14 and the ink cartridge positioning mechanism 15 are engaged with each other, the protrusion 141 can cover the upper air inlet 23; the elastic sleeve 142 is formed by Made of elastic materials such as silica gel and rubber, the size of the protruding portion 141 is equivalent to that of the protruding portion 141 . The second sealing part can also be an elastic pad arranged on the cover member 14 corresponding to the position of the air intake channel 12. However, in order to ensure the sealing and operability of the air intake channel 12, preferably, the second sealing part in this embodiment The sealing portion is made up of an extension 143 protruding from the cover part 14 and a seal 144: the extension 143 is arranged on the inside of the cover part 14 at a position corresponding to the air intake channel 12, to be exact, when the cover part 14 and After the ink cartridge positioning mechanism 15 is engaged with each other, the extension part 143 can cover or surround the air inlet end 121 of the air inlet passage 12; the sealing member 144, like the elastic sleeve 142, is also made of elastic material, and is provided with a concave portion. The diameter of the recess is equivalent to the outer diameter of the inlet port 121 of the air intake passage, and the outer diameter of the seal 144 is equivalent to the inner diameter of the extension 143, that is, usually the seal 144 is assembled in the extension 133, and the cover member 14 and When the positioning mechanism 15 is locked together, it can directly seal the air intake channel 12 . Those of ordinary skill in the art should understand that the sealing member 144 can also be a gasket having an area equivalent to the end surface of the extension portion 143, and the gasket is welded on the end surface of the extension portion 143 in contact with the intake passage 12; Similarly, the sealing member 144 can also be a silicone sleeve matched with the extension part 143 .

Therefore, according to the structural description of the first sealing part and the second sealing part above, it can be seen that when the ink cartridge 2 is loaded into the filling device 1 and the cover member 14 rotates around the positioning mechanism 15 to fix the ink cartridge 2, the first sealing part can seal the ink cartridge 2, the second sealing part can seal the air intake channel 12 of the filling device 1, so that the outside air cannot flow into the ink cartridge 2 and the ink container 10, so that an airtight space is formed between the ink cartridge 2 and the ink container 10 , isolated from the outside world. In addition, the above-mentioned first sealing portion and second sealing portion can restrict the movement of the ink cartridge 2 on the filling device 1 , even if it cannot move upwards, so as to ensure that the ink cartridge 2 is fully fixed in the ink cartridge filling device 1 .

As shown in Figure 2b, the extension part 143 is arranged between the two extension hooks 145a, 145b, and is arranged closer to the free end 148 than the two hooks, while the protruding part 141 is arranged away from the free end 148 relative to the extension part 143. End 148, ie the first sealing portion, is arranged closer to connecting end 147 than the second sealing portion. Since the cover member 14 rotates angularly around the axis, according to the position distribution of the extension part 143 and the protruding part 141, it can be known that when the ink cartridge 2 is installed on the filling device 1 for ink replenishment, the cover member 14 rotates clockwise to align with the position. When the mechanism 15 is engaged to close the entire filling device 1, the protrusion 141 and the elastic sleeve 142 first seal the ink cartridge 2, and then the extension 143 and the sealing member 144 seal the air intake passage 12; 14, rotate counterclockwise to cancel the engagement with the positioning mechanism 15 and open the entire filling device 1, the extension part 143 and the sealing member 144 will first break away from the air intake passage 12, and then the protruding part 141 and the elastic sleeve 142 will break away from the ink cartridge 2. The air passage 12 is opened first, and then the seal of the ink cartridge 2 is canceled, so that when the filling device 1 is opened after filling the ink, the air will be replenished in the ink container 10 first, and then replenished in the ink cartridge 2 to extrude excess ink therein, This prevents the amount of ink in the ink cartridge 2 from flowing back into the ink container 10 excessively. The distance between the extension portion 143 and the protruding portion 141 can be selected according to different ink cartridge structures.

Moreover, in order to ensure the opening sequence of the first sealing part and the second sealing part, preferably, in this embodiment, the deformation of the elastic sleeve 142 is greater than the deformation of the sealing member 144, so that the second sealing part opens the air intake. The first sealing portion behind the channel 12 also keeps the ink cartridge 2 in a sealed state. Likewise, those of ordinary skill in the art should understand that, when the first sealing portion and the second sealing portion are respectively the first elastic pad and the second elastic pad provided on the cover member, the deformation of the first sealing portion is also greater than The second sealing part, so that the first elastic pad remains in a sealed state after the second elastic pad is opened, that is, the thickness of the first sealing part is greater than that of the second sealing part.

As shown in Figure 2a, the position corresponding to the ink filling port 24 of the cover member 14 and the ink cartridge 2 is provided with a through hole 146, and the diameter of the through hole 146 is equivalent to the diameter of the ink filling port 24. The suction nozzle 136 of the device 13 is connected to the ink filling port 24 through the above-mentioned through hole 146 . In addition, the outlet end 111 of the ink filling channel 11 is provided with a sealing gasket 113, which is made of elastic materials such as silica gel and rubber. , in this embodiment, it is a self-closing gasket, which is provided with a self-closing seam, that is, it is in a closed state at ordinary times, only when the pressure difference between the ink cartridge 2 and the ink container 10 reaches a predetermined value. Open. In addition, as shown in Figure 2a, a friction portion 16 is also provided on the free end 148 of the cover member 14, which is composed of several concave-convex grooves, the purpose of which is to increase the friction between the user's hand and the cover member 14, to ensure that the user When the lid member 14 is grasped to open or close the filling device 1, slippage does not easily occur.

In order for the user to clearly see the filling condition of the ink cartridge, preferably, in this embodiment, the ink cartridge filling device 1 is made of transparent material.

The process of replenishing ink to the ink cartridge 2 by using the ink cartridge filling device 1 will be described below according to FIGS. 4a-4e.

(1) The ink cartridge filling device 1 is placed on a plane, and the ink filling port 24 of the ink cartridge 2 is opened by using an existing opening tool, and a rubber plug 18 is packed therein;

(2) As shown in Figure 4a, the above-mentioned ink cartridge 2 is packed in the ink cartridge filling device 1, then the first joint portion 251, the second joint portion 26, the recess 28 and the bottom wall of the ink cartridge 2 are respectively aligned with the ink cartridge positioning mechanism 15 at this time. The corresponding structure on the top is matched, and the ink outlet 22 is connected with the outlet end 111 of the ink filling channel 11. Then, the clockwise rotation of the cover member 14 makes the extended hooks 145a, 145b on the ink cartridge positioning mechanism 15 and the draw grooves 151a, 151a, 151b, the protruding portion 141 of the cover member 14 and the elastic sleeve 142 abut against the lid of the ink cartridge 2 to seal the air inlet 23, while the extension portion 143 and the sealing member 144 seal the air intake passage 12. At this time, The ink cartridge 2 and the ink cartridge filling device 1 form a closed space, and both form an ink cartridge filling system;

(3) As shown in Figure 4b, insert the pre-prepared aspirator 13 into the ink filling port 24 through the through hole 146 and pass through the rubber plug 18, then the aspirator 13 communicates with the ink cartridge 2, and then hold Hold the handle 135 of the aspirator 13, as shown in Figure 4c, pull the piston rod 133 upwards to drive the piston 132 to move upwards along the direction A shown in the figure, and then the air in the ink cartridge 2 moves along the arrow shown in Figure 4c Flow to the aspirator 13, at this time, the pressure inside the ink cartridge 2 becomes smaller to form a certain negative pressure, that is, a pressure difference is formed between it and the ink container 10, the self-closing seam of the sealing gasket 113 is opened under the action of the pressure difference, and the ink container The ink in 10 flows into the ink cartridge 2 along the arrow shown in Figure 4c under the action of the pressure difference. At this time, the air inlet channel 12 remains closed, and the ink cartridge 2 is still in a sealed state;

(4) As shown in Figure 4d, when observing that the ink cartridge 2 is filled with ink, take off the aspirator 13, and make the extension hook 145a, 145b of the cover member 14 and the draw-in groove 151a, 151b of the positioning mechanism 15 disengagement, and rotate the cover member 14 counterclockwise, so that the ink cartridge filling device 1 and the ink cartridge 2 change from a closed space to an open space, then as shown in FIG. The air outlet 122 is replenished into the ink container 10, the seal of the ink cartridge 2 is released, and the air is replenished into the ink cartridge 2 through the air inlet 23. At this time, both the ink cartridge 2 and the ink container 10 reach a pressure balance, and the sealing gasket 113 is self-closing. Seam closed;

(5) Take off the ink cartridge 2, and rotate the cover part 14 again to cooperate with the positioning mechanism 15, and seal the air inlet passage 12 again, and then the ink cartridge filling device 1 is sealed and placed.

The above-mentioned rubber plug 18 loaded into the ink filling port 24 can be a general elastic sealing ring. In this embodiment, it is preferably a self-closing sealing ring that can be opened or closed according to the pressure difference between the inside of the ink cartridge and the outside of the ink cartridge. When the suction device 13 is inserted, it becomes an open state, and when the suction device 13 is not inserted, it becomes a closed state.

Those of ordinary skill in the art should understand that the "matter balance principle" is often followed when filling ink, that is, the quality of the substance flowing out of the container is equal to the quality of the substance flowing into the container, such as the filling tool mentioned in the background technology, its ink storage The amount of ink flowing out of the cavity is equal to the amount of air added. However, in the present technical solution, it can be seen from the above-mentioned filling process that the ink container 10 remains airtight when suction is performed, and air is not replenished therein. It can be said that the ink filling action of the ink cartridge 2 promotes the pressure imbalance of the ink container 10. And continue to carry out ink cartridge 2 filling ink under the situation of ink container 10 pressure unbalances, promptly fill ink to ink cartridge and make up air to ink container two actions are not carried out simultaneously, adopt such mode because: in the prior art, in injecting After the ink, the spongy body 211 and the cotton core 221 in the ink cartridge 2 tend to be in a supersaturated state, that is, there is an excessive amount of ink in the negative pressure chamber 21, and the ink dripping phenomenon occurs easily when the ink cartridge 2 is removed at this time; During the filling process, a closed space is formed between the ink cartridge 2 and the ink container 10. When the ink cartridge 2 is sucked to make the ink in the ink container 10 flow to the ink cartridge 2 and the air in the ink container 10 is not replenished in time , a relatively large negative pressure will be formed in the ink container 10. Since the ink container 10 communicates with the ink cartridge 2, that is, there is also a negative pressure in the ink cartridge 2 at this time. Therefore, when the cover member 14 is opened, due to the effect of the negative pressure , the external atmosphere will replenish into the ink container 10, similarly, the air will also replenish into the ink cartridge 2, to be precise, the air will replenish into the negative pressure chamber 21 through the air inlet 23, then according to the principle of material balance , the excess ink in the sponge body 211 and the cotton core 221 will flow to the ink container 10, as shown in Figure 4f, so that the sponge body 211 and the cotton core 221 are in an unsaturated state, and when the ink cartridge 2 is removed, ink dripping will not occur .

Embodiment two:

In order to reduce the user's cost of purchasing additional drilling tools and make the user's operation easier, this embodiment proposes to add the function of "drilling" on the basis of the first embodiment. FIG. 5 is a schematic diagram of the opening state of the ink cartridge filling device of this embodiment. In this embodiment, the same components are described using the same symbols as in Embodiment 1 without modification.

As shown in Figure 5, a push rod 17 for removing the steel ball sealing the ink filling port 24 is provided at the through hole 146 of the cover part 14, and the top of the push rod 17 is provided with a steel ball matching with the ink filling port 24. Concave surface, and the side surface of the push rod 17 is provided with a plurality of strip-shaped grooves of different lengths, so that the concave surface and the side surface form an edge with a plurality of blades. In this embodiment, the ejector rod 17 is configured to be movable, specifically, configured to slide back and forth on the cover part 14, that is, the ejector rod 17 can slide back and forth between the opening position and the non-opening position. Those of ordinary skill in the art should understand that: the push rod 17 can also be set to be removable from the cover member 14, that is, after the opening action is completed, it is removed and then filled with ink, and then installed back to the original position.

In this embodiment, other structures of the ink cartridge filling device are similar to Embodiment 1, and will not be repeated here.

The following describes the process of using the ink cartridge filling device of this embodiment to fill the ink cartridge:

(1) Place the ink cartridge filling device 1 on a plane, and put the ink cartridge 2 into the ink cartridge filling device 1, that is, the first and second joint parts 251, 26, recesses 28, etc. of the ink cartridge 2 are all connected to the positioning mechanism 15. Corresponding structure cooperates, and ink outlet 22 is connected with the outlet end 111 of ink injection channel 11, and at this moment, ejector pin is positioned at opening position, and then, clockwise rotation cap member 14 makes ejector pin 17 and ink injection port 24 Steel ball cooperates, and from free end 148 press cover part 14 firmly, then push rod 17 squeezes the steel ball in ink filling port 24 into the ink cartridge 2, and ink filling port 24 is opened, then, push rod 17 is slid to non-opening position. Hole position, namely deviates from the position corresponding to the ink filling port 24, and packs a rubber plug 18 in the ink filling port 24;

(2) Engage the cover member 14 with the ink cartridge positioning mechanism 15, then the protruding portion 141 and the elastic sleeve 142 of the cover member 14 abut against the lid of the ink cartridge 2 to seal the air inlet 23, and the extension portion 143 is in contact with the seal. Part 144 then seals the air intake channel 12. At this moment, the ink cartridge 2 and the ink cartridge filling device 1 form an airtight space, and the two form an ink cartridge filling system;

(3) Insert the pre-prepared aspirator 13 into the ink filling port 24, and pull the piston 132 to move upwards, so that the air in the ink cartridge 2 flows to the aspirator 13. At this time, the pressure inside the ink cartridge 2 becomes smaller and a certain pressure is formed. Negative pressure, that is, a pressure difference is formed between it and the ink container 10, the self-closing seam of the sealing gasket 113 is opened under the effect of the pressure difference, and the ink in the ink container 10 flows into the ink cartridge 2 under the effect of the pressure difference. At this time, The air intake channel 12 remains closed, and the ink cartridge 2 is still in a sealed state;

(4) When it is observed that the ink cartridge 2 is filled with ink, remove the aspirator 13, disengage the engagement between the cover member 14 and the positioning mechanism 15, rotate the cover member 15 counterclockwise, and make the ink cartridge filling device 1 and the positioning mechanism 15 disengage. When the ink cartridge 2 changes from a closed space to an open space, the air intake passage 12 is opened, and the air is replenished into the ink container 10 through the air intake port 121 and the air outlet port 122, the seal of the ink cartridge 2 is released, and the air is replenished through the air intake port 23 In the ink cartridge 2, at this moment, the ink cartridge 2 and the ink container 10 have reached pressure balance, and the self-closing seam of the gasket 113 is closed;

(5) Take off the ink cartridge 2, and rotate the cover part 14 again to cooperate with the positioning mechanism 15, and seal the air inlet passage 12 again, and then the ink cartridge filling device 1 is sealed and placed.

Embodiment three:

In order to ensure that the air intake channel is opened first during the filling process and then the seal of the ink cartridge is canceled, this embodiment proposes to add a delay action component on the basis of the first and second embodiments to ensure that the second sealing part opens the first air intake channel. The sealing portion also maintains the state of sealing the ink cartridge to be filled.

Preferably, the delay action member is an elastic member matched with the first sealing part, as shown in FIG. 6 , in this embodiment, the elastic member is a coil spring 19 . Apparently, with the ink cartridge filling device with the above structure, when the ink is refilled, that is, when the cover member 15 rotates clockwise around the shaft, the spring 19 is compressed to generate a compressive force to push the first sealing part to closely fit with the air inlet 23 and when the ink filling is completed, when the cover member 15 rotates counterclockwise around the shaft, the above-mentioned compression force makes the second sealing part open the air inlet passage 12, and the first sealing part still remains in the state of sealing the air inlet 23, only when When the cover part 15 rotates to a certain angle, the spring 19 moves upward following the movement of the cover part 15, so that its compressive force is canceled, and the first sealing part is disengaged from the air inlet 23. By adopting the above-mentioned structure, when the seal of the ink cartridge is canceled, a certain amount of negative pressure remains in the ink cartridge 2, but it is not a relatively large negative pressure, which can impel more ink to be kept in the sponge body 211 and the cotton core 221, and can also ensure It is not supersaturated, preventing dripping. In addition, the structure of the first sealing part in the above process description can be either the above first elastic pad, or the above protruding part and elastic sleeve, or other similar sealing parts, too numerous to mention here. More description.

Other structures of this embodiment are similar to those of Embodiment 1 or Embodiment 2, and will not be repeated here.

Those of ordinary skill in the art should understand that: the above-mentioned ink cartridge can also be an ink cartridge without an ink chamber and only loaded with a sponge, that is, the above-mentioned filling device and filling method are also suitable for filling this kind of ink cartridge.

Those of ordinary skill in the art should understand that: the number of the above-mentioned extension hooks can be one or more than two, and the position and number of the slots correspond to the above-mentioned extension hooks.

Those of ordinary skill in the art should understand that: the above-mentioned cover part can also move up and down in parallel with respect to the ink cartridge positioning mechanism. .

Those of ordinary skill in the art should understand that: the sealing or opening actions of the first sealing assembly and the second sealing assembly on the above-mentioned cover member can be performed simultaneously, that is, the opening of the air intake passage and the canceling of the sealing of the ink cartridge after ink filling are performed simultaneously, Only in this way, more ink in the sponge body will flow back into the ink container, which can also prevent ink dripping.

Those of ordinary skill in the art should understand that: the ink box filling device can also be made of opaque materials, so that when filling ink, it can be judged that the ink box has been filled when ink is seen in the aspirator. It is necessary to refill the excess ink in the aspirator into the ink container after filling the ink.

To sum up, with the above technical solution, the ink container and the ink cartridge are in a pressure unbalanced state when the ink is replenished, so that the pressure balance is restored after the ink is filled, that is, the action of injecting ink into the ink cartridge and replenishing air into the ink container The actions are not carried out at the same time. In this way, the excess ink in the sponge and cotton core in the ink cartridge can be removed to prevent ink dripping.

The above embodiments are only used to illustrate the technical solutions of the present utility model. It should be pointed out that for those of ordinary skill in the art, some deformations and improvements can be made without departing from the concept of the present utility model. It belongs to the protection scope of the present utility model.

Claims (17)

1. a suction type print cartridge filling device is used for injecting ink to cartridge to be filled, and it comprises:

Ink tank is used to store the needed ink of padding;

Refilling channel is connected with described ink tank, is used for ink transport with described ink tank to cartridge to be filled;

Inlet channel is connected with described ink tank, is used for replenishing air to described ink tank;

Aspirator is used to aspirate the air of cartridge to be filled;

Cover;

It is characterized in that described cover is provided with first hermetic unit of sealing cartridge to be filled and second hermetic unit of the described inlet channel of sealing.

2. print cartridge filling device as claimed in claim 1, it is characterized in that, described print cartridge filling device comprises also and is used for cartridge to be filled is positioned at print cartridge detent mechanism on the described print cartridge filling device that described print cartridge detent mechanism is connected by rotating shaft with described cover.

3. print cartridge filling device as claimed in claim 2 is characterized in that, described first hermetic unit more is close to described rotating shaft with respect to described second hermetic unit.

4. as claim 1 or 2 or 3 described print cartridge filling devices, it is characterized in that described first hermetic unit is first cushion that is arranged on described cover, described second hermetic unit is second cushion that is arranged on described cover.

5. as claim 1 or 2 or 3 described print cartridge filling devices, it is characterized in that described first hermetic unit is formed from the supporting with it resilient sleeve of the bossing and of described cover projection by one.

6. as claim 1 or 2 or 3 or 4 or 5 described print cartridge filling devices, it is characterized in that described second hermetic unit is made up of an extension and a seal that cooperates with extension that stretches out from described cover.

7. as claim 1 or 2 or 3 or 4 or 5 or 6 described print cartridge filling devices, it is characterized in that, described print cartridge filling device also is provided with delayed-action parts, makes described second hermetic unit open the state that described first hermetic unit behind the described inlet channel also keeps sealing cartridge to be filled.

8. print cartridge filling device as claimed in claim 7 is characterized in that, the elastomeric element of described delayed-action parts for matching with described first seal member.

9. print cartridge filling device as claimed in claim 4 is characterized in that the deflection of described first cushion is greater than the deflection of described second cushion.

10. print cartridge filling device as claimed in claim 6 is characterized in that the deflection of described resilient sleeve is greater than the deflection of described seal.

11., it is characterized in that also be provided with the prolongation grab on the described cover, described detent mechanism is provided with the draw-in groove that matches with described prolongation grab as the described arbitrary print cartridge filling device of claim 1 to 10.

12. a suction type print cartridge fill system is characterized in that, comprise cartridge to be filled with as the described arbitrary print cartridge filling device of claim 1 to 11.

13. print cartridge fill system as claimed in claim 12, it is characterized in that described cartridge to be filled comprises: be used for storage ink cavity, be positioned over described cavity with the ink of the cavernous body that keeps the print cartridge internal negative pressure, guiding ink storage chamber to the ink outlet port of print cartridge outside, replenish air to the air inlet of ink storage chamber and inject the ink filling port of ink to ink storage chamber.

14. print cartridge fill system as claimed in claim 13 is characterized in that, described cavity is divided into inking chamber that holds ink and the negative pressure cavity that holds cavernous body.

15., it is characterized in that described first hermetic unit is arranged on the cover and the corresponding position of the air inlet of described cartridge to be filled as claim 12 or 13 or 14 described print cartridge fill systems.

16. print cartridge fill system as claimed in claim 15 is characterized in that, is provided with through hole with the corresponding position of the ink filling port of described cartridge to be filled on the described cover.

17. print cartridge fill system as claimed in claim 16 is characterized in that, described through hole is provided with a movable push rod, is used to remove the seal of the described ink filling port of sealing.

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